云斯宁 西安建筑科技大学教授

云斯宁，博士，二级教授，博士生导师，陕西省“特支计划”科技创新领军人才，材料物理与化学专业学术学科带头人，国家自然科学基金评审专家，国家留学基金委出国留学评审专家，陕西省中青年科技创新领军人才，广东省科学技术奖评审专家，广东省自然科学基金会评专家，江西省科技计划评审专家，重庆市科技计划评审专家，陕西省科技计划评审专家，陕西省工业科技专家库专家，陕西省留学人员科技活动择优资助项目评审专家，中东最享有盛誉的综合性大学(美国沙迦大学（UOS）)国际项目评审专家，巴基斯坦高等学校教授任职国际评审专家，陕西省纳米材料与纳米技术重点实验室学术委员会成员，“新能源材料团队”和“新能源纳米材料与器件化技术应用团队”两个团队的负责人，西安建筑科技大学青年教师标兵，“圣和圣”杯最受学生欢迎的主讲教师，留学回国人员，Nature出版集团国际期刊Frontiers in Materials, Frontiers in Energy Research (Frontiers publisher, Switzerland)的Review Editorial Board杂志评审编辑, 国际期刊Nano Energy Systems (One Central Press, United Kingdom)的International Editorial Board杂志编委，SCI期刊Journal of Nanotechnology和International Journal of Electrochemistry特刊客座主编(Lead Guest Editor)，陕西省侨联特聘专家委员会委员，新能源材料技术创新与协同发展中心新能源材料专家理事会理事，中国化工学会会员，陕西省硅酸盐学会理事，中国硅酸盐学会陶瓷分会建筑卫生陶瓷专业委员会委员，西安纳米科技学会理事，西安欧美同学会·西安留学人员联谊会理事。<

博士学位论文获2007年度西安交通大学优秀博士论文(14/423)。2007年获准国家留学基金委“西部地区人才培养特别项目”资助。2008-2009年韩国Yonsei University化学与生物工程系研修。2011-2012年DUT国家重点实验室高级访问研究。2015年8月访问美国斯坦福大学、美国加州大学、美国劳伦斯伯克利国家实验室。2016年8月英国里丁大学访问交流。2016年获“Wiley材料学高峰论坛-西安”Highly-cited Author Award（高被引作者奖）。 2016-2017年瑞士洛桑联邦理工学院EPFL高级访问交流。2017年获中国国际光伏大会Best Presentation Award奖。2017年获陕西省中青年科技创新领军人才称号。 参与或主持20余项国家级、省部级、地市级、校级各类课题。主持完成省教育厅项目和校级项目获校级技进步二等奖1项、三等奖1项。做邀请主旨报告、邀请大会报告、国际会议大会主席等40余次。

长期从事与无机非金属材料的科研、教学及技术开发工作。在Chem Sov Rev,Prog Polym Sci, Energy Environ Sci, Adv Mater, Adv Energy Mater，Appl Catal B-Environ, Nano Energy,Angew Chem Int Edit, J Mater Chem A, Chemical Engineering Journal, ChemSusChem, Nanoscale, J Power Sources, Carbon, Bioresource Technol等国内外行业主流期刊上，以第1作者兼通讯作者发表SCI论文90余篇，EI论文40余篇，CSTPCD论文20余篇。主编/参编专著9部，其中：主编中文专著1部(2014获中国石油和化学工业优秀出版物二等奖)；主编外文专著2部；主编研究生教材1部；参编中国、法国、印度、瑞典、波兰教授专著5部（之一下载量超过10万余次）。拥有24项国家授权专利技术

与日本九州工业大学、瑞典乌普萨拉大学、美国威斯康星大学、韩国延世大学、巴西坎皮纳斯大学、西班牙阿文戈亚太阳能公司、芬兰阿尔托大学、德国ISE太阳能系统研究所，英国里丁大学、瑞士洛桑联邦理工学院EPFL、法国FOTON等国际知名大学教授和研究员保持长期稳定的科研合作。长期担任Nature Communications, Coordination Chemistry Reviews, Adv Mater, Adv Energy Mater, Adv Funct Mater, Advanced Electronic Materials, Adv Eng Mater, ACS Nano, Nano Energy, JACS,Applied Catalysis B: Environmental, Small, J Mater Chem A/B/C, Nanoscale, ChemSusChem, Chem Comm, Carbon, Scientific Reports, ACS Appl Mater Inter, J Phys Chem A/B/C, Electrochimica Acta, Dalton Transactions, Langmuir, Appl Energy, Appl Phys Lett, J Alloys Comp, Phys Status Solid, Mater Chem Phys, Mater Sci Eng B, Nanoscale Res Lett, J Solid State Chem, J Electrochem Soc,J Colloid Interface Sci, RSC Advances, NANO, Chemistry-Asian J, Part Part Syst Char, Organic Electronics, Surfaces and Interfaces, Phys Chem Chem Phys, Journal of Applied Physics, J Power Sources, Bioresource Technology, Chemical Engineering Journal, Water Research, ACS Sustainable Chemistry & Engineering,ACS Applied Energy Materials,Materials Today Energy, Journal of Hazardous Materials, International Journal of Energy Research, J Environmental Science and Pollution Research, IEEE Transactions on Electron Devices, Journal of Industrial and Engineering Chemistry, Journal of Physics and Chemistry of Solids, Materials Letter, Ionics, Nanoscale Advances, Environmental Pollution, Solar Energy, Archives of Agronomy and Soil Science,Physics, Physica B/E, Journal of Theoretical and Applied Physics, Journal of Electroanalytical Chemistry, Waste and Biomass Valorization, ACS Energy & Fuels, Heliyon, Materials Today Energy, Journal of Science: Advanced Materials and Devices, New Journal of Chemistry, Materials and Design, Materials, Animals,iScience, Science of the Total Environment, Modern Applied Science, Energy Conversion and Management, Letters in Organic Chemistry, Electronic Materials Letters等80余种主要国际SCI学术期刊的特邀审稿和仲裁专家

2003.09-2006.11：西安交通大学，材料科学与工程专业，获博士学位

2000.09-2003.07：西安建筑科技大学，材料学专业，获硕士学位

1995.09-1999.07：西安建筑科技大学，无机非金属专业，获学士学位

工作经历：

2016.12-2017.06：瑞士洛桑联邦理工学院，化学科学工程研究所，高级访问学者

2016.08-2016.09: 英国里丁大学，国际语言与研究学院(ISLI)，双语教学培训(EMI)和访问

2015.08-2015.09: 美国斯坦福大学，美国加州大学，劳伦斯伯克利国家实验室，访问教授

2014.07－至今：西安建筑科技大学，材料与矿资学院，博士研究生导师(破格晋升)

2013.10－至今：西安建筑科技大学，材料与矿资学院，教授(破格晋升)

2012.03－2012.09：精细化工国家重点实验室(大连理工大学)，访问教授

2011.11－至今：西安建筑科技大学，材料与矿资学院，学术学科带头人

2010.10－2013.10：西安建筑科技大学，材料与矿资学院，副教授

2009.05－至今：西安建筑科技大学，材料与矿资学院，硕士研究生导师

2008.12－2009.12：延世大学(Yonsei University，韩国)，化学与生物工程系，研修

2008.10－2010.10：西安建筑科技大学，材料与矿资学院，副教授(校聘，破格晋升)

2007.01－2008.10：西安建筑科技大学，材料与矿资学院，讲师 

社会学术兼职(Scientific Community Service)：

1)Nature出版集团Frontiers in Materials, Frontiers in Energy Research杂志评审编辑。

Review Editorial Board Member, Frontiers in Materials & Energy Research, Frontiers publisher,Switzerland

http://www.frontiersin.org/

http://www.frontiersin.org/people

http://www.frontiersin.org/SearchData.aspx?sq=Review+Editorial+Board&ht=1

2)国际期刊Nano Energy Systems杂志编委。

International Editorial Board Member, Nano Energy Systems, One Central Press publisher, UK

http://www.onecentralpress.com/nano-energy-systems/

3)SCI期刊Journal of Nanotechnology特刊客座主编( Lead Guest Editor)。

https://www.hindawi.com/journals/jnt/si/237318/cfp/

4)SCI期刊International Journal of Electrochemistry特刊客座主编(Lead Guest Editor)。

https://www.hindawi.com/journals/ijelc/si/458639/cfp/

5)陕西省纳米材料与纳米技术重点实验室学术委员会成员。

http://jg.xauat.edu.cn/nmcl/index.php?do=zxgk&gklb_id=16

6)新能源材料技术创新与协同发展中心新能源材料专家理事会理事。

http://www.china-xnycl.com/picnews_content.asp?id=2748&bh=3

7)陕西省硅酸盐学会理事。

8)中国硅酸盐学会陶瓷分会建筑卫生陶瓷专业委员会委员。

9)西安纳米科技学会理事。

10)中国化工学会会员。

11)40余种主要国际SCI学术期刊的特邀审稿和仲裁专家。

12)陕西省侨联特聘专家委员会委员。 

13)西安欧美同学会理事。

14)国际顾问委员会委员。

International Advisory Board Member, NANOSMAT Conference, Manchester, UK

http://www.nanosmat-conference.com/committees.asp

13)国际顾问委员会委员。

International Advisory Board Member, NANOENERGY, Manchester, UK

http://www.nanoenergy.co.uk/committees.html

14)SCI期刊International Journal of Hydrogen Energy(Guest Editor)特刊客座主编。

15)SCI 期刊International Journal of Green Energy (IJGE) (Editorial Board) 国际期刊编委。

主讲课程：

（1）《新型能源材料 New Energy Materials》（研究生 Master & Ph.D Student）

（2）《光学材料 Funcntional photics Materials》（研究生Master Student）

（3）《生物质能工程 Biomass Energy Engineering》（研究生Master & Ph.D Student）

（4）《功能纳米材料 Functional Nanomaterials》（本科生Master Student）

（5）《太阳能光伏发电系统设计 Applied Photovoltaics》（本科生 Bachelor Student）

学生招募(Recruit Students)

我们重视学术团队建设，重视研究生培养，重视国际合作与交流。

在材料学、材料物理与化学、资源循环科学与工程等专业均招收博士和硕士研究生。

硕士招生方向：新能源材料、固体废弃物资源化、电子信息材料。

博士招生方向：新能源材料、电子材料与器件、资源循环理论与技术。

研究生入学考试科目，详情参见每年研究生院发布的招生简章。

Every year, Yun Professor’s group recuits 10-15 graduate students for a Master’s degree and 2-3 graduate students for Doctor’s degree, including oversea students. The research works are concentrated on the advanced materials and nanostructured materials for the new energy fields such as solar cells, fuel cells, supercapacitor, biosensors, hydrogen generation, energy storage, organic matter decomposition and pollution control. For oversea students who want join this group, please contact Prof. S Yun via the email:Yunsining@xauat.edu.cn.

培养研究生情况：

2019 M 柯腾(Teng Ke), 党长伟(Changwei Dang), 刘卓磊(Zhuolei Liu), 安锦航(Jinghang An), 邓莹莹(Zhanbo Wu), 贾凌云(Lingyun Jia), 刘娟(Juan Liu), 王银号(Yinhao Wang), 赵泽妮(Zeni Zhao)

2019 P Nosheen zafar, Brundha Chidambaram

2018 D 张永伟 (Yongwei Zhang), 党姣娥 (Jiaoe Dang), Yasir Abbas, Muhammad Asim Arshad

2018 P 张婷婷 (Tingting Zhang)

2012 D 张仙梅 (Xianmei Zhang)

2013 D 李晶 (Jing Li)

2015 D 宗志芳 (Zhifang Zong)

2013 M 杜婷婷 (Tingting Du), 朱江 (Jiang Zhu),

2014 M 张太宏 (Taihong Zhang), 刘艳芳 (Yanfang Liu),胡谢利 (Xieli Hu), 黄欣磊 (Xinglei Huang)

2015 M 王晓东 (Xiaodong Wang), 后玉芝 (Yuzhi Hou), 周笑 (Xiao Zhou), 方雯 (Wen Fang), 张琛(Chen Zhang), 李雪 (Xue Li)

2016 M 王真 (Zhen Wang), 王子齐 (Ziqi Wang), 徐鸿飞 (Hongfei Xu), 张阳亮(Yangliang Zhang)

2017 M 韩凤(Feng Han) , 司艺铭(Yiming Si) , 陈嘉庚(Jiageng Chen) , 贾波(Bo Jia) ,李静文(Jingwen Li) , 乔昕莹(Xinying Qiao)

2018 M 吴占波 (Zhanbo Wu), 杨超 (Chao Yang), 王曦 (Xi Wang), 邢天 (Tian Xing ), 张丽珊 (Lishan Zhang), 孙梦龙 (Menglong Sun), 李冰洁 (Bingjie Li)

学生获奖(Student Award)

2015

2013-M杜婷婷 (Tingting Du), 学业奖学金, 一等, 8000元

2013-M朱江 (Jiang Zhu), 学业奖学金, 一等, 8000元

2014-M张太宏 (Taihong Zhang), 国家奖学金, 一等, 20000元

2014-M刘艳芳 (Yanfang Liu), 国家奖学金, 一等, 20000元

2014-M胡谢利 (Xieli Hu), 学业奖学金, 一等, 8000元

2013-D李晶 (Jing Li), FML首届研究生学术论坛，一等奖获得者

2013-M杜婷婷 (Tingting Du), FML首届研究生学术论坛，二等奖获得者

2016

2014-M张太宏 (Taihong zhang), 学业奖学金, 一等, 8000元

2014-M刘艳芳 (Yanfang Liu), 学业奖学金, 二等, 5000元

2014-M黄欣磊 (Xinlei Huang), 国家奖学金, 一等, 20000元

2015-M周笑 (Xiao Zhou), 学业奖学金, 一等, 8000元

2015-M方雯 (Wen Fang), 学业奖学金, 一等, 8000元

2015-M王晓东 (Xiaodong Wang), 学业奖学金, 一等, 8000元

2015-M王晓东 (Xiaodong Wang), 蒙娜丽莎企业奖学金, 二等, 1000元

2015-M张琛(Chen Zhang), 学业奖学金, 二等, 5000元

2015-M后玉芝 (Yuzhi Hou), 学业奖学金, 一等, 8000元

2016-M王晨(Chen Wang), 学业奖学金, 二等, 5000元

2014-M张太宏 (Taihong Zhang), FML第二届研究生学术论坛, 一等奖获得者

2015-M张琛(Chen Zhang), FML第二届研究生学术论坛, 三等奖获得者

2017

2015-M周笑 (Xiao Zhou), 国家奖学金, 一等, 20000元

2015-M周笑 (Xiao Zhou), 学业奖学金, 一等, 8000元

2015-M后玉芝 (Yuzhi Hou), 学业奖学金, 一等, 8000元

2015-M方雯 (Wen Fang), 学业奖学金, 二等, 5000元

2015-M李雪 (Xue Li) , 学业奖学金, 二等, 5000元

2015-M李雪 (Xue Li), 濮耐企业奖学金, 学术论文奖, 1000元

2015-M张琛(Chen Zhang), 学业奖学金, 二等, 5000元

2015-M王晓东 (Xiaodong Wang), 学业奖学金, 二等, 5000元

2015-M张琛(Chen Zhang), 学业奖学金, 二等, 5000元

2017-M韩凤(Feng Han), 学业奖学金, 一等, 8000元

2015-M后玉芝 (Yuzhi Hou), FML第三届研究生学术论坛, 一等奖获得者

2015-M张琛(Chen Zhang), FML第三届研究生学术论坛, 二等奖获得者

2015-M李雪 (Xue Li), FML第三届研究生学术论坛, 三等奖获得者

2015-M王晓东 (Xiaodong Wang), FML第三届研究生学术论坛, 三等奖获得者

研究方向：

1. 新能源材料与多功能集成器件(New Energy Materials and the Integrated Devices)

2. 无机纳米材料合成与应用(Systhesis and application of inorganic Nanomaterials)

3. 钙钛矿功能电子材料与器件(Electronic Devices and Related ABO3Materials)

4. 新一代太阳能电池材料与技术(New Generation DSSC and Perovskite Solar Cells)

5. 废弃物的资源化循环利用(Waste Resource Recycling)

6. 可再生能源的清洁利用(Cleaner Ultilization for Renewable Energy Resources)

7. 第一性原理计算与分子动力学模拟(first-principle density functional theory (DFT) calculations, ab-initio Car-Parrinello molecular dynamics (CPMD) simulations)。

科研项目：

1. 钨钼铌钽基双金属氧化物DSC对电极原位化学共沉淀构筑及催化机理研究，62万元(直接经费)，在研，主持，国家自然科学基金面上项目，2017/01-2020/12。

2. 养殖场粪污资源生物燃气制备技术集成示范，2080/155万元，已结题，主持，国家十二五科技支撑计划项目合作研究，2012/09-2015/12。

3. 生物质气化关键技术研究与示范，10万元，已结题，主持陕西省科技厅社会发展攻关项目，2010/09-2013/12。

认定成果：

1 高性能半导体与功能材料理论设计与物性研究 樊庆扬;云斯宁;王慧琴;张伟;柴常春;宋延兴 西安建筑科技大学 2021

2 生物质资源化利用关键技术创新与示范 云斯宁;周楚新;孙海龙 西安建筑科技大学 2015

3 一种多循环搅拌蛋形厌氧发酵系统 云斯宁;孙毅 西安建筑科技大学 2015

4 低微ZnO纳米材料的可控生长及其在DSSC中的应用 云斯宁;李辉;钱旭坤;宋强;雷西平;李玉祥;胡亚茹 陕西循环经济工程技术院 2012

5 一种改善染料敏化太阳能电池基板界面粘结性的方法 云斯宁 西安建筑科技大学 2011

6 一种组合式旋风分离收集装置及分离收集花粉的方法 云斯宁;孙毅;甘艳萍 西安建筑科技大学 2011

7 花粉分离器 王西锐;云斯宁;李永武;雷玉山 陕西省农村科技开发中心 2011

发明公开：

[1]云斯宁, 杨天翔, 毕强, 杨光平, 王若名, 王支国, 杨海江, 冯柔. 一种中空纳米盒状电催化剂及其制备和应用[P]. 陕西省: CN118756203A, 2024-10-11.

[2]云斯宁, 王支国, 马晶, 王若名, 杨光平, 杨天翔, 杨海江, 冯柔. 一种MXene基双功能电催化材料及其制备和应用[P]. 陕西省: CN118727041A, 2024-10-01.

[3]杨瑞, 朱维晃, 王望泊, 冯一舟, 云斯宁, 吴丰昌. 豆渣负载铁铜催化材料、制备方法及降解四环素的方法[P]. 陕西省: CN117718046A, 2024-03-19.

[4]朱维晃, 杨瑞, 王晨, 冯一舟, 云斯宁, 吴丰昌. 采用椰子壳生物炭过硫酸盐活化剂处理有机废水的方法[P]. 陕西省: CN117509874A, 2024-02-06.

[5]云斯宁, 贾凌云, 王凯君, 刘东东, 边根庆, 蒙瑶, 郭佳新. 一种短期光伏发电功率预测方法及系统[P]. 陕西省: CN114825328A, 2022-07-29.

[6]云斯宁, 赵泽妮, 王凯君, 刘东东, 边根庆, 郭佳新, 蒙瑶. 考虑气象特征的深度学习短期风电功率预测方法及系统[P]. 陕西省: CN114744618A, 2022-07-12.

[7]云斯宁, 徐鸿飞. 一种厌氧发酵用含磷复合添加剂及发酵方法[P]. 陕西省: CN109851446A, 2019-06-07.

[8]高铁牛, 刘彩霞, 云斯宁, 曹伟, 畅江. 一种有助于治污减霾的城市中水回用生态化系统[P]. 陕西省: CN109629627A, 2019-04-16.

[9]云斯宁, 贾波, 张永伟. 一种磁场可控的沼气厌氧发酵装置及发酵方法[P]. 陕西省: CN109486674A, 2019-03-19.

[10]云斯宁, 张琛. 厌氧发酵复合添加剂及促进沼渣、沼液肥料厌氧发酵的方法[P]. 陕西: CN107337506A, 2017-11-10.

[11]云斯宁, 黄欣磊. 一种沼气发酵用功能复合促进剂及其制备方法[P]. 陕西: CN107022576A, 2017-08-08.

[12]云斯宁, 黄欣磊, 朱江, 杜婷婷, 胡谢利. 一种实验室用连续式沼气厌氧发酵装置[P]. 陕西: CN104357322A, 2015-02-18.

[13]云斯宁, 王吉尔, 朱江, 杜婷婷. 一种芦荟凝胶载深亚微米Ag的复合涂膜剂及其用于芦荟保鲜的方法[P]. 陕西: CN104126657A, 2014-11-05.

[14]云斯宁, 张仙梅, 杨玉芬, 何振全. 一种沼气发酵用功能性生物催化剂及利用催化剂发酵的方法[P]. 陕西: CN103740764A, 2014-04-23.

[15]云斯宁, 朱江, 杜婷婷, 张仙梅. 一种多级式搅拌太阳能辅助加热节能发酵装置[P]. 陕西: CN103602581A, 2014-02-26.

[16]云斯宁, 杜婷婷, 朱江, 张仙梅. 一种分级式底吹气力搅拌沼气发酵系统[P]. 陕西: CN103602585A, 2014-02-26.

[17]云斯宁, 张仙梅, 许海超, 杜婷婷, 朱江, 王吉尔. 一种从果树花朵提取花药的多功能果树花朵深加工装置[P]. 陕西: CN103418478A, 2013-12-04.

[18]云斯宁, 杜婷婷. 一种利用钽基对电极催化材料制备染料敏化太阳能电池对电极的方法[P]. 陕西: CN103413686A, 2013-11-27.

[19]云斯宁, 朱江. 一种染料敏化太阳能电池铂负载碳化硅对电极的制备方法[P]. 陕西: CN103413687A, 2013-11-27.

[20]云斯宁, 王吉尔, 张仙梅, 朱江, 杜婷婷, 杨晓胤, 许海超. 一种水流冲击式管道清淤装置[P]. 陕西: CN103341474A, 2013-10-09.

[21]云斯宁, 孙毅. 一种多循环搅拌蛋形厌氧发酵系统[P]. 陕西: CN102517199A, 2012-06-27.

[22]云斯宁. 一种改善染料敏化太阳能电池基板界面粘结性的方法[P]. 陕西: CN102324308A, 2012-01-18.

[23]王西锐, 云斯宁, 李永武, 雷玉山. 花粉分离器[P]. 陕西: CN102273366A, 2011-12-14.

[24]云斯宁, 孙毅, 甘艳萍. 一种组合式旋风分离收集装置及分离收集花粉的方法[P]. 陕西: CN102217464A, 2011-10-19.

发明授权：

[1]云斯宁, 贾波, 张永伟. 一种磁场可控的沼气厌氧发酵装置及发酵方法[P]. 陕西省: CN109486674B, 2022-04-26.

[2]云斯宁, 张琛. 厌氧发酵复合添加剂及促进沼渣、沼液肥料厌氧发酵的方法[P]. 陕西省: CN107337506B, 2021-01-26.

[3]云斯宁, 黄欣磊. 一种沼气发酵用功能复合促进剂及其制备方法[P]. 陕西省: CN107022576B, 2020-10-16.

[4]云斯宁, 杜婷婷. 一种利用钽基对电极催化材料制备染料敏化太阳能电池对电极的方法[P]. 陕西省: CN103413686B, 2017-05-24.

[5]云斯宁, 朱江. 一种染料敏化太阳能电池铂负载碳化硅对电极的制备方法[P]. 陕西省: CN103413687B, 2017-02-08.

[6]云斯宁, 王吉尔, 朱江, 杜婷婷. 一种芦荟凝胶载深亚微米Ag的复合涂膜剂及其用于芦荟保鲜的方法[P]. 陕西省: CN104126657B, 2016-02-24.

[7]云斯宁, 黄欣磊, 朱江, 杜婷婷, 胡谢利. 一种实验室用连续式沼气厌氧发酵装置[P]. 陕西省: CN104357322B, 2016-01-13.

[8]云斯宁, 张仙梅, 杨玉芬, 何振全. 一种沼气发酵用功能性生物催化剂及利用催化剂发酵的方法[P]. 陕西省: CN103740764B, 2015-12-02.

[9]云斯宁, 王吉尔, 张仙梅, 朱江, 杜婷婷, 杨晓胤, 许海超. 一种水流冲击式管道清淤装置[P]. 陕西省: CN103341474B, 2015-03-11.

[10]云斯宁, 张仙梅, 许海超, 杜婷婷, 朱江, 王吉尔. 一种从果树花朵提取花药的多功能果树花朵深加工装置[P]. 陕西省: CN103418478B, 2015-01-14.

[11]云斯宁, 杜婷婷, 朱江, 张仙梅. 一种分级式底吹气力搅拌沼气发酵系统[P]. 陕西省: CN103602585B, 2014-11-26.

[12]云斯宁, 朱江, 杜婷婷, 张仙梅. 一种多级式搅拌太阳能辅助加热节能发酵装置[P]. 陕西省: CN103602581B, 2014-10-29.

[13]云斯宁, 孙毅. 一种多循环搅拌蛋形厌氧发酵系统[P]. 陕西省: CN102517199B, 2013-02-06.

[14]王西锐, 云斯宁, 李永武, 雷玉山. 花粉分离器[P]. 陕西省: CN102273366B, 2013-01-30.

[15]云斯宁, 孙毅, 甘艳萍. 一种组合式旋风分离收集装置及分离收集花粉的方法[P]. 陕西省: CN102217464B, 2012-11-21.

[16]云斯宁. 一种改善染料敏化太阳能电池基板界面粘结性的方法[P]. 陕西省: CN102324308B, 2012-10-17.

实用新型：

[1]云斯宁, 朱江, 杜婷婷. 一种节能沼气发酵罐[P]. 陕西: CN203582851U, 2014-05-07.

[2]云斯宁, 杜婷婷, 朱江, 张仙梅, 许海超, 邱建泉, 徐德龙. 分级式气力搅拌发酵装置[P]. 陕西: CN203582867U, 2014-05-07.

[3]云斯宁, 许海超, 张仙梅, 王吉尔, 杜婷婷, 朱江. 果树花朵深加工用破碎分离烘干装置[P]. 陕西: CN203408774U, 2014-01-29.

[4]云斯宁, 杜婷婷. 一种染料敏化太阳能电池复合结构对电极[P]. 陕西: CN203377110U, 2014-01-01.

[5]云斯宁, 王吉尔, 张仙梅, 朱江, 杜婷婷, 杨晓胤, 许海超. 水锤式管道清淤机[P]. 陕西: CN203356145U, 2013-12-25.

[6]云斯宁, 孙毅, 甘艳萍, 邵升, 张学峰, 邱建泉. 一种节能厌氧发酵装置[P]. 陕西: CN202322828U, 2012-07-11.

[7]云斯宁. 一种立体吸光结构的柱形染料敏化太阳能电池[P]. 陕西: CN202230887U, 2012-05-23.

[8]云斯宁, 甘艳萍, 孙毅, 魏育英, 徐德龙. 一种用于果树花粉生产的组合式旋风分离收集装置[P]. 陕西: CN202105739U, 2012-01-11.

[9]王西锐, 云斯宁, 李永武, 雷玉山. 猕猴桃花粉分离器[P]. 陕西: CN202061817U, 2011-12-07.

 1. 云斯宁. 一种改善染料敏化太阳能电池基板界面粘结性的方法. 专利号: China Patent No. ZL 201110179968.1.

2. 云斯宁, 孙毅, 甘艳萍. 一种组合式旋风分离收集装置及分离收集花粉的方法. 专利号: China Patent No. ZL 201110112822.5.

3. 云斯宁, 孙毅. 一种多循环搅拌蛋形厌氧发酵系统. 专利号: China Patent No. ZL 201110365150.9.

4. 王西锐、云斯宁、李永武、雷玉山. 花粉分离器. 专利号: China Patent No. ZL 201110107771.7.

5. 云斯宁、王吉尔、张仙梅、朱江、杜婷婷、杨晓胤、许海超. 一种水流冲击式管道清淤装置. 专利号: China Patent No. ZL 201310303779.x.

6. 云斯宁、张仙梅、许海超、杜婷婷、朱江、王吉尔. 一种从果树花朵提取花药的多功能果树花朵深加工装置. 专利号: China Patent No. ZL 201310330193.2.

7. 云斯宁、朱江、杜婷婷、张仙梅.一种多级式搅拌太阳能辅助加热节能发酵装置. 专利号: China Patent No. ZL 201310548591.1.

8. 云斯宁、杜婷婷、朱江、张仙梅. 一种分级式底吹气力搅拌沼气发酵系统. 专利号: China Patent No. ZL 201310642271.2.

9. 云斯宁、张仙梅、杨玉芬，何振全. 一种沼气发酵用功能性生物催化剂及利用催化剂发酵的方法. 专利号: China Patent No. ZL 201310744961.9.

10. 云斯宁、黄欣磊、朱江、杜婷婷、胡谢利. 一种实验室用连续式沼气厌氧发酵装置. 专利号: China Patent No. ZL 201410718387.4.

11. 云斯宁、黄欣磊. 一种沼气发酵用功能复合促进剂及其制备方法. 专利号: China Patent No. ZL 201710385714.2.

12. 云斯宁、张琛. 一种厌氧发酵复合添加剂的制备及沼渣沼液肥料化利用的方法. 专利号: China Patent No. ZL 201710482065.8.

13. 云斯宁、杜婷婷. 一种利用钽基对电极催化材料制备染料敏化太阳能电池对电极的方法. 专利号: China Patent No. ZL 20131030818.6.

14. 云斯宁、朱江. 一种染料敏化太阳能电池铂负载碳化硅对电极的制备方法. 专利号: China Patent No. ZL 201310314746.5. 

学术论文及著作近年来，在Chem Sov Rev, Prog Polym Sci, Energy Environ Sci, Adv Mater, Adv Energy Mater, Appl Catal B-Environ, Nano Energy, Angew Chem Int Edit, J Mater Chem A等国内外行业主流期刊上，以第1作者兼通讯作者发表SCI论文90余篇。主编/参编专著9部，其中：主编中文专著1部(2014获中国石油和化学工业优秀出版物二等奖)；主编外文专著2部；主编研究生教材1部；参编中国、法国、印度、瑞典、波兰教授专著5部（之一下载量超过10万余次）。

代表性专著 (Selected Books& Chapters):

1.Sining Yun.Ferroelectrics: Characterization and Modeling. Chapter 13: Double hysteresis Loop in BaTiO3-based ferroelectric ceramics. ISBN 978-953-307-455-9, InTech Press, Vienna, Austria, 2011, pp. 245-264.

http://www.intechopen.com/books/mostdownloaded/ferroelectrics-characterization-and-modeling

2.Sining Yun.Bismuth: Characteristics, Production and Applications.Chapter 7: Structural, dielectric and ferroelectric properties of bismuth-doped barium titanate solid solution compounds and its application. ISBN: 978-1-61470-640-3, 978-1-61470-768-4，NOVA Science Publisher, New York, USA, 2012, pp. 171-186.

https://www.novapublishers.com/catalog/product_info.php?products_id=27527

3. 马廷丽, 云斯宁(Sining Yun). 染料敏化太阳能电池—从理论基础到技术应用(Dye-sensitized Solar Cells—Theoretical basis to Technical Application). ISBN: 978-7-122-17175-7，北京：化学工业出版社，2013，8.

4. 翁端, 刘爽, 同继锋, 云斯宁(Sining Yun). 绿色建材与建材绿色化. 第二章 绿色建材的研究和评价技术. ISBN: 978-7-122-24425-3，北京：化学工业出版社，2015，10.

5.Sining Yun, Anders Hagfeldt.Counter Electrode Electro-Catalysts for Dye-Sensitized and Perovskite Solar Cells. ISBN: 978-3-527-41367-6. WILEY-VCH, 2018.9. (Volume 1+Volume 2)

https://www.wiley.com/en-us/Counter+Electrodes+for+Dye+sensitized+and+Perovskite+Solar+Cells-p-9783527813605

6. 云斯宁(Sining Yun).《新型能源材料与器件》，研究生学科特色课程教材. ISBN：978-7-5160-2504-8，北京：建材工业出版社，2019年5月.

7. KaiJun Wang, Yasir Abbas,Sining Yun. Pure and Functionalized Carbon Based Nanomaterials: Analytical, Biomedical, Civil and Environmental Engineering Applications.Chapter 5. Bio-based Carbon Materials for Anaerobic Digestion.ISBN:978-1-138-49169-4, CRC Press, Taylor & Francis Group, 2020-7-2.

https://www.routledge.com/Pure-and-Functionalized-Carbon-Based-Nanomaterials-Analytical-Biomedical/Zarzycki/p/book/9781138491694

8. Jing Shi,Sining Yun. Solid Oxide Fuel Cells-From Electrolyte-based to Electrolyte-free Devices.Chapter 8:Charge Transfer in Oxide Solid Fuel Cells.ISBN: 978-3-527-34411-6, WILEY-VCH, 2020-2-28, pp239-pp273.

https://onlinelibrary.wiley.com/doi/book/10.1002/9783527812790

代表性论文 (Selected Publications) 

[1] Yasir Abbas, Sining Yun*, Kaijun Wang, Muhammad Saqlain Jamil, Xiaomin Zhang, Cheng Peng, Han Luo. Coal thermal power plant magnetic fly ash as an accelerant for anaerobic digestion of cow dung and aloe peel residue: Optimizing the particle size under static magnetic field. Chemical Engineering Journal, 2025, 504, 158590. 2023 IF=15.1. DOI: 10.1016/j.cej.2024.158590

[2] Mengmeng Zhang, Sining Yun*, Tianxiang Yang, Guangping Yang, Menglong Sun, Jiaoe Dang, Zhiguo Wang, Haijiang Yang, Shuangxi Yuan, Asim Arshada, Ke Wang. 3D MOF-derived Co-doped Cu3P/NC octahedra embedded in 2D MXene nanosheets for efficient energy conversion. Journal of Materials Chemistry A, 2024, 12, 29479-29492. 2023 IF=10.7.DOI: 10.1039/d4ta05616g

[3] Bushra Bibi 1, Atif Nazar 1, Bin Zhu *1, Fan Yang, Muhammad Yousaf, Rizwan Raza, M.A.K. Yousaf Shah, Jung-Sik Kim*, Muhammad Afzal, Yongpeng Lei, Yifu Jing, Peter Lund, Sining Yun*. Emerging semiconductor ionic materials tailored by mixed ionic-electronic conductors for advanced fuel cells. Advanced Powder Materials, 2024, 3(6), 100231. 2023 IF=28.6.DOI: 10.1016/j.apmate.2024.100231

[4] Guangping Yang, Tianxiang Yang, Zhiguo Wang, Ke Wang, Mengmeng Zhang, Peter D. Lund, Sining Yun*. Targeted doping induces interfacial orientation for constructing surface-functionalized Schottky junctions to coordinate redox reactions in water electrolysis. Advanced Powder Materials, 2024, 3(5), 100224. 2023 IF=28.6 .DOI: 10.1016/j.apmate.2024.100224

[5] Yangyang Gao, Sining Yun*, Kaijun Wang, Lijianan Liu, Yasir Abbas, Muhammad Saqlain Jamil, Teng Ke, Jiayu Liu, Xiaoxue Zhang. Understanding of the potential role of carbon dots in promoting interspecies electron transfer process in anaerobic co-digestion under magnetic field: Focusing on methane and hydrogen production. Chemical Engineering Journal, 2024, 489, 151381. 2021 IF=16.7 .DOI: 10.1016/j.cej.2024.151381 

[6] Yasir Abbas, Sining Yun*, Kaijun Wang, Xiaomin Zhang, Muhammad Saqlain Jamil, Fayyaz Ali Shah, Xiaoxue Zhang, Yangyang Gao, Han Luo. Association of magnetic-flyash in anaerobic co-digestion for biomethane optimization: Promoting biofilm formation. Journal of Cleaner Production, 2024, 438, 140767. 2022 IF=11.1.DOI: 10.1016/j.jclepro.2024.140767 

[7] Teng Ke, Sining Yun*, Kaijun Wang, Tian Xing, Jiaoe Dang, Yongwei Zhang, Menglong Sun, Jinhang An, Lijianan Liu, Jiayu Liu. Constructing bimetal, alloy, and compound-modified nitrogen-doped biomass-derived carbon from coconut shell as accelerants for boosting methane production in bioenergy system. Energy Materials, 2024, 4, 400011. 2023 IF=11.8.DOI: 10.20517/energymater.2023.62

[8] Sining Yun*, Zan Gao#, Tianxiang Yang#, Menglong Sun, Guangping Yang, Ke Wang, Zhiguo Wang, Shuangxi Yuan, and Mengmeng Zhang. Constructing NiSe₂/MoSe₂ Mott-Schottky Heterojunctions Onto N-doped Brain Coral-Carbon Spheres by Phase Separation Strategies for Advanced Energy Conversion Applications, Advanced Functional Materials, 2023, 2314226. 2022 IF=19.DOI: 10.1002/adfm.202314226

[9]  Guangping Yang, Sining Yun*, Tianxiang Yang, Jiaoe Dang, Yongwei Zhang, Zhiguo Wang. Designing Schottky coupled p-n junction to enhance the kinetic behavior of oxygen evolution reaction. Journal of Materials Chemistry A, 2024, 12, 1804-1815. 2022 IF=11.9.DOI: 10.1039/D3TA05071H

[10] Imran Khan, Wenjie Liu, Amir Zada*, Fazal Raziq, Sharafat Ali, Muhammad Ishaq Ali Shah, Muhammad Ateeq, Muhammad Khan, Dang Alei, Perveen Fazil, Waliullah Khan, Javed Ali Khan, Yixiao Cai, Wenbiao Jin, Sining Yun*, Lei Yang*. Recent progress in emerging materials and hybrid nanocomposites for peroxymonosulfate and peroxydisulfate activation towards solar light-driven photocatalytic degradation of emerging pollutants. Coordination Chemistry Reviews, 2024, 499, 215466. 2022 IF=20.6.DOI: 10.1016/j.ccr.2023.215466

[11] Lijianan Liu, Sining Yun*, Kaijun Wang, Teng Ke, Jiayu Liu, Yangyang Gao, Xiaoxue Zhang. Enhanced anaerobic co-digestion under a magnetic field by a synergistic host–guest strategy: Focusing on accelerant, biogas yield, fertilization and coupled effect. Chemical Engineering Journal,  2023, 476, 146508. 2022 IF=15.1.DOI: 10.1016/j.cej.2023.146508

[12] M.A.K. Yousaf Shah, Yuzheng Lu, Naveed Mushtaq, Muhammad Yousaf, Nabeela Akbar, Chen Xia, Sining Yun*, Bin Zhu*. Semiconductor-membrane fuel cell (SMFC) for renewable energy technology. Renewable and Sustainable Energy Reviews, 2023, 185, 113639.  2022 IF=15.9.DOI: 10.1016/j.rser.2023.113639

[13] Tianxiang Yang, Sining Yun*, Chen Wang, Yongwei Zhang, Jiaoe Dang, Guangping Yang, Zan Gao, Dan Qiao, Mengmeng Zhang. A hierarchical strategy for fabricating synergistic 3D network biobased porous carbon and 0D niobium-based bimetallic oxides as counter electrodes for I- and Cu-mediated dye-sensitized solar cells with N719 and Y123 dyes. Materials Today Energy, 2023, 37, 101371. 2022 IF=9.3.DOI: 10.1016/j.mtener.2023.101371

[14] Xiaoli Jiang, Wei Li, Yanxia Liu, Lin Zhao, Zhikai Chen, Lan Zhang, Yagang Zhang*, Sining Yun*. Electrocatalytic oxidation of 5-hydroxymethylfurfural for sustainable 2,5-furandicarboxylic acid production-From mechanism to catalysts design. SusMat, 2023, 3(1), 21-43. 2022 IF=28.4.DOI: 10.1002/sus2.109

[15] Dan Qiao, Sining Yun*, Menglong Sun, Jiaoe Dang, Yongwei Zhang, Shuangxi Yuan, Guangping Yang, Tianxiang Yang, Zan Gao, Zhiguo Wang. 1D/3D trepang-like N-modified carbon confined bimetal carbides and metal cobalt: boosting electron transfer via dual Mott-Schottky heterojunctions triggered built-in electric fields for efficient hydrogen evolution and tri-iodide reduction. Applied Catalysis B: Environmental, 2023, 334, 122830. 2021 IF=24.319.DOI: 10.1016/j.apcatb.2023.122830

[16] Jiayu Liu, Sining Yun*, Kaijun Wang, Lijianan Liu, Jinhang An, Teng Ke, Yangyang Gao, Xiaoxue Zhang. Enhanced methane production in microbial electrolysis cell coupled anaerobic digestion system with MXene accelerants. Bioresource Technology, 2023, 380, 129089. 2021 IF=11.889.DOI: 10.1016/j.biortech.2023.129089 >

[7] Zhijie Chen, Sining Yun*, Lan Wu, Jiaqi Zhang, Xingdong Shi, Wei Wei, Yiwen Liu, Renji Zheng, Ning Han, Bing-Jie Ni*. Waste-derived catalysts for water electrolysis: circular economy-driven sustainable green hydrogen energy. Nano-Micro Letters, 2023, 15, 4. 2021 IF=23.655.DOI: 10.1007/s40820-022-00974-7

[18] Ata Ur Rehman#,*, Tianyu Zhao#,*, Muhammad Zahir Shah, Yaqoob Khan, Asif Hayat, Changwei Dang, Maosheng Zheng, Sining Yun*. Nanoengineering of MgSO₄ nanohybrid on MXene substrate for efficient thermochemical heat storage material. Applied Energy, 2023, 332, 120549. 2021 IF=11.446.DOI: 10.1016/j.apenergy.2022.120549

[19] Bo Li*, Ting Shen, Sining Yun*. Recent progress of crystal orientation engineering in halide perovskite photovoltaics. Materials Horizons, 2023, 10, 13-40. 2021 IF=15.717.DOI: 10.1039/D2MH00980C

[20] Zan Gao, Sining Yun*, Chao Yang, Yongwei Zhang, Jiaoe Dang, Guangping Yang, Tianxiang Yang, Dan Qiao, Ke Wang. Niobium- and cobalt-modified dual-source-derived porous carbon with a honeycomb-like stable structure for supercapacitor and hydrogen evolution reaction. Journal of Colloid and Interface Science, 2023, 639, 33-48. 2021 IF=9.965.DOI: 10.1016/j.jcis.2023.02.032

[21] Menglong Sun, Sining Yun*, Jiaoe Dang, Yongwei Zhang, Zhuolei Liu, Dan Qiao. 1D/3D rambutan-like Mott–Schottky porous carbon polyhedrons for efficient tri-iodide reduction and hydrogen evolution reaction. Chemical Engineering Journal, 2023, 458, 141301. 2021 IF=16.744.DOI: 10.1016/j.cej.2023.141301

[22] Xiaomi Zhou#, Jingjing Yang#, Ruoming Wang, Wei Zhang,*, Sining Yun*, Baoyuan Wang*. Advances in lithium-ion battery materials for ceramic fuel cells. Energy Materials, 2022, 2, 200041.2023 IF=11.8.DOI: 10.20517/energymater.2022.76

[23] Jinhang An, Sining Yun*, Wei Wang, Kaijun Wang, Teng Ke, Jiayu Liu, Lijianan Liu, Yangyang Gao, Xiaoxue Zhang. Enhanced methane production in anaerobic co-digestion systems with modified black phosphorus. Bioresource Technology, 2023, 368, 128311. 2021 IF=11.889.DOI: 10.1016/j.biortech.2022.128311

[24] Sining Yun*, Tian Xing, Yi Wang, Rong Chen, Feng Han, Chen Zhang, Ming Zou. Mineral residue accelerant-enhanced anaerobic digestion of cow manure: An evaluation system of comprehensive performance. Science of The Total Environment, 2023, 858, 159840. 2021 IF=10.753.DOI: 10.1016/j.scitotenv.2022.159840

[25] Zhuolei Liu, Sining Yun*, Menglong Sun, Jiaoe Dang, Yongwei Zhang, Yinhao Wang, Changwei Dang, Yingying Deng, Dan Qiao. Constructing MoS₂@Co1.11Te₂/Co-NCD with Te nanorods for efficient hydrogen evolution reaction and triiodide reduction. Materials Today Nano, 2022, 20, 100274. 2021 IF=13.364.DOI: 10.1016/j.mtnano.2022.100274

[26] Jiaoe Dang, Sining Yun* , Yongwei Zhang, Guangping Yang, Jingjing Yang, Dan Qiao, Tianxiang Yang. Designing nitrogen-enriched heterogeneous NiS@CoNi₂S₄ embedded in nitrogen-doped carbon with hierarchical 2D/3D nanocage structure for efficient alkaline hydrogen evolution and triiodide reduction. Journal of Colloid and Interface Science, 2023, 630, 91-105. 2021 IF=9.965.DOI: 10.1016/j.jcis.2022.09.136

[27] Changwei Dang, Sining Yun*, Yongwei Zhang, Jiaoe Dang, Yinhao Wang, Zhuolei Liu, Yingying Deng, Guangping Yang, Jingjing Yang. A tailored interface engineering strategy designed to enhance the electrocatalytic activity of NiFe₂O₄/NiTe heterogeneous structure for advanced energy conversion applications. Materials Today Nano, 2022, 20, 100242. 2021 IF=13.364.DOI: 10.1016/j.mtnano.2022.100242

[28] Yongwei Zhang, Sining Yun*, Jiaoe Dang, Changwei Dang, Guangping Yang, Yinhao Wang , Zhuolei Liu, Yingying Deng. Defect engineering via ternary nonmetal doping boosts the catalytic activity of ZIF-derived carbon-based metal-free catalysts for photovoltaics and water splitting. Materials Today Physics, 2022, 27, 100785. 2021 IF=11.021.DOI: 10.1016/j.mtphys.2022.100785

[29] Jiaoe Dang, Sining Yun*, Yongwei Zhang, Jingjing Yang, Zhuolei Liu, Changwei Dang, Yinhao Wang, Yingying Deng, Constructing double-shell structured N-C-in-Co/N-C electrocatalysts with nanorod- and rhombic dodecahedron-shaped hollow morphologies to boost electrocatalytic activity for hydrogen evolution and triiodide reduction reaction, Chemical Engineering Journal, 2022, 449, 137854. 2021 IF=16.744 .DOI: 10.1016/j.cej.2022.137854

[30] Yinhao Wang, Sining Yun*, Jing Shi, Yongwei Zhang, Jiaoe Dang, Changwei Dang, Zhuolei Liu, Yingying Deng, Tianxiang Yang. Defect engineering tuning electron structure of biphasic tungsten-based chalcogenide heterostructure improves its catalytic activity for hydrogen evolution and triiodide reduction. Journal of Colloid and Interface Science, 2022, 625, 800-816. 2021 IF=9.965.DOI: 10.1016/j.jcis.2022.06.051

[31] Yingying Deng, Sining Yun*, Jiaoe Dang, Yongwei Zhang, Changwei Dang, Yinhao Wang, Zhuolei Liu, Zan Gao. A multidimensional hierarchical strategy building melamine spongederived tetrapod carbon supported cobaltnickel tellurides 0D/3D nanohybrids for boosting hydrogen evolution and triiodide reduction reaction. Journal of Colloid and Interface Science, 2022, 624, 650-669. 2021 IF=9.965.DOI: 10.1016/j.jcis.2022.05.147

[32] Taimoor Raza#, Jingjing Yang#, Ruoming Wang, Chen Xia, Rizwan Raza, Bin Zhu, Sining Yun*. Recent advance in physical description and material development for single component SOFC: A mini-review. Chemical Engineering Journal, 2022, 444, 136533. 2021 IF=16.744.DOI: 10.1016/j.cej.2022.136533

[33] Sining Yun*, Yongwei Zhang#, Lishan Zhang#, Zhuolei Liu, Yingying Deng. Ni and Fe nanoparticles, alloy and Ni/Fe-Nx coordination co-boost the catalytic activity of the carbon-based catalyst for triiodide reduction and hydrogen evolution reaction. Journal of Colloid and Interface Science, 2022, 615, 501-516. 2021 IF=9.965.DOI: 10.1016/j.jcis.2022.01.192

[34] Teng Ke, Sining Yun*, Kaijun Wang, Jinhang An, Lijianan Liu, Jiayu Liu. Enhanced anaerobic co-digestion performance by using surface-annealed titanium spheres at different atmospheres. Bioresource Technology, 2022, 347, 126341. 2021 IF=11.889.DOI: 10.1016/j.biortech.2021.126341

[35] Asim Arshad, Sining Yun*, Jing Shi, Menglong Sun, Nosheen Zafar, Anders Hagfeldt. N-coordinated bimetallic defect-rich nanocarbons as highly efficient electrocatalysts in advanced energy conversion applications. Chemical Engineering Journal, 2022, 435, 134913. 2021 IF=16.744.DOI: 10.1016/j.cej.2022.134913

[36] Kaijun Wang, Sining Yun*, Teng Ke, Jinhang An, Yasir Abbas, Xinming Liu, Ming Zou, Lijianan Liu, Jiayu Liu. Use of bag-filter gas dust in anaerobic digestion of cattle manure for boosting the methane yield and digestate utilization. Bioresource Technology, 2022, 348, 126729. 2021 IF=11.889.DOI: 10.1016/j.biortech.2022.126729

[37] Bin Zhu*, Liangdong Fan*, Naveed Mushtaq, Rizwan Raza*, Muhammad Sajid, Yan Wu, Wenfeng Lin, Jung-Sik Kim, Peter D. Lund, Sining Yun*. Semiconductor Electrochemistry for Clean Energy Conversion and Storage. Electrochemical Energy Reviews, 2021, 4, 757-792. 2021 IF=32.804.DOI: 10.1007/s41918-021-00112-8

[38] Nosheen Zafar, Sining Yun*, Menglong Sun, Jing Shi, Asim Arshad, Yongwei Zhang, Zhanbo Wu. Cobalt-Based Incorporated Metals in Metal–Organic Framework-Derived Nitrogen-Doped Carbon as a Robust Catalyst for Triiodide Reduction in Photovoltaics. ACS Catalysis, 2021, 11, 13680−13695. 2021 IF=13.700.DOI: 10.1021/acscatal.1c04286

[39] Shuangxi Yuan, Sining Yun*, Yongwei Zhang, Jiaoe Dang, Menglong Sun, Changwei Dang, Yingying Deng. Dual-phase zinc selenide in situ encapsulated into size-reduced ZIF-8 derived selenium and nitrogen co-doped porous carbon for efficient triiodide reduction reaction. Journal of Materials Chemistry C, 2021, 9, 14408−14420. 2021 IF=8.067.DOI: 10.1039/D1TC02734D

[40] Menglong Sun, Sining Yun*, Jing Shi, Yongwei Zhang, Asim Arshad, Jiaoe Dang, Lishan Zhang, Xi Wang, Zhuolei Liu. Designing and Understanding the Outstanding Tri-Iodide Reduction of N-Coordinated Magnetic Metal Modified Defect-Rich Carbon Dodecahedrons in Photovoltaics. Small, 2021, 17 (41), 2102300. 2021 IF=15.153.DOI: 10.1002/smll.202102300

[41] Tian Xing, Sining Yun*, Bingjie Li, Kaijun Wang, Jiageng Chen, Bo Jia, Teng Ke, Jinhang An. Coconut-shell-derived bio-based carbon enhanced microbial electrolysis cells for upgrading anaerobic co-digestion of cow manure and aloe peel waste. Bioresource Technology, 2021, 338, 125520. 2021 IF=11.889.DOI: 10.1016/j.biortech.2021.125520

[42] Yongwei Zhang, Sining Yun*, Menglong Sun, Xi Wang, Lishan Zhang, Jiaoe Dang, Chao Yang, Jingjing Yang, Changwei Dang, Shuangxi Yuan. Implanted metal-nitrogen active sites enhance the electrocatalytic activity of zeolitic imidazolate zinc framework-derived porous carbon for the hydrogen evolution reaction in acidic and alkaline media. Journal of Colloid and Interface Science, 2021, 604, 441-457. 2021 IF=9.965. DOI: 10.1016/j.jcis.2021.06.152

[43] Xi Wang, Sining Yun*, Yongwei Zhang, Lishan Zhang, Jiaoe Dang, Menglong Sun, Zhuolei Liu, Yinhao Wang. Boosting catalytic activity of niobium/tantalum-nitrogen active sites for triiodide reduction in photovoltaics. Journal of Colloid and Interface Science, 2021, 603, 651-665. 2021 IF=9.965.DOI: 10.1016/j.jcis.2021.06.128

[44] Bingjie Li, Sining Yun*, Tian Xing, Kaijun Wang, Teng Ke, Jinhang An. A strategy for understanding the enhanced anaerobic co-digestion via dual-heteroatom doped bio-based carbon and its functional groups. Chemical Engineering Journal, 2021, 425, 130473. 2021 IF=16.744.DOI: 10.1016/j.cej.2021.130473

[45] Sining Yun*, Jing Shi#, Yiming Si#, Menglong Sun#, Yongwei Zhang, Asim Arshad, Chao Yang. Insight into electrocatalytic activity and mechanism of bimetal niobium-based oxides in situ embedded into biomass-derived porous carbon skeleton nanohybrids for photovoltaics and alkaline hydrogen evolution. Journal of Colloid and Interface Science, 2021, 601, 12-29. 2021 IF=9.965.DOI: 10.1016/j.jcis.2021.05.060

[46] Bo Li, Qilin Dai*, Sining Yun*, Jianjun Tian*. Insights into iodoplumbate complex evolution of precursor solutions for perovskite solar cells: from aging to degradation. Journal of Materials Chemistry A, 2021, 9, 6732-6748. 2021 IF=14.511.DOI: 10.1039/d0ta12094d            

[47] Chao Yang, Sining Yun*, Jing Shi, Menglong Sun, Nosheen Zafar, Asim Arshad, Yongwei Zhang, Lishan Zhang. Tailoring the supercapacitive behaviors of Co/Zn-ZIF derived nanoporous carbon via incorporating transition metal species: A hybrid experimental-computational exploration. Chemical Engineering Journal, 2021, 419: 129636. 2021 IF=16.744.DOI: 10.1016/j.cej.2021.129636

[48] Ling Li, Jing Shi, Lishan Zhang, Kaifeng Zhao, Xiaoting Li*, Wenming Zhang*, Anders Hagfeldt, Sining Yun *. An experimental and theoretical exploration of the role of tri-element metal-nonmetal nanohybrids in photovoltaics. Chemical Engineering Journal, 2021, 413: 127491. 2021 IF=16.744.DOI: 10.1016/j.cej.2020.127491

[49] Van-Duong Dao*, Ngoc Hung Vu, Hai-Linh Thi Dang, Sining Yun. Recent advances and challenges for water evaporation-induced electricity toward applications. Nano Energy, 2021, 85, 105979. 2021 IF=19.069.DOI: 10.1016/j.nanoen.2021.105979

[50] Yasir Abbas, Sining Yun*, Kaijun Wang, Fayyaz Ali Shah, Tian Xing, Bingjie Li. Static-magnetic-field coupled with fly-ash accelerant: A powerful strategy to significantly enhance the mesophilic anaerobic-co-digestion. Bioresource Technology, 2021, 327: 124793. 2021 IF=11.889.DOI: 10.1016/j.biortech.2021.124793

[51] Kaijun Wang, Sining Yun*, Tian Xing, Bingjie Li, Yasir Abbas, Xinming Liu. Binary and ternary trace elements to enhance anaerobic digestion of cattle manure: Focusing on kinetic models for biogas production and digestate utilization. Bioresource Technology, 2021, 323: 124571. 2021 IF=11.889.DOI: 10.1016/j.biortech.2020.124571

[52] Sining Yun*, Tian Xing, Feng Han, Jing Shi, Ziqi Wang, Qingyang Fan, Hongfei Xu. Enhanced direct interspecies electron transfer with transition metal oxide accelerants in anaerobic digestion. Bioresource Technology, 2021, 320: 124294. 2021 IF=11.889.DOI: 10.1016/j.biortech.2020.124294

[53] Yasir Abbas, Sining Yun*, Ziqi Wang, Yongwei Zhang, Xianmei Zhang , Kaijun Wang. Recent advances in bio-based carbon materials for anaerobic digestion: A review. Renewable and Sustainable Energy Reviews, 2021, 135, 110378. 2021 IF=16.799.DOI: 10.1016/j.rser.2020.110378   PDF

[54] Balaraman Vedhanarayanan, Jing Shi, Jeng-Yu Lin, Sining Yun*, Tsung-Wu Lin. Enhanced activity and stability of MoS2 through enriching 1T-phase by covalent functionalization for energy conversion applications. Chemical Engineering Journal, 2021, 403: 126318. 2021 IF=16.744.DOI: 10.1016/j.cej.2020.126318

[55] Jingwen Li, Sining Yun*, Feng Han, Yiming Si, Asim Arshad, Yongwei Zhang, Brundha Chidambaram, Nosheen Zafar, Xinying Qiao. Biomass-derived carbon boosted catalytic properties of tungsten-based nanohybrids for accelerating the triiodide reduction in dye-sensitized solar cells. Journal of Colloid and Interface Science, 2020, 578: 184-194. 2021 IF=9.965.DOI: 10.1016/j.jcis.2020.04.089

[56] Feng Han, Sining Yun*, Jing Shi, Yongwei Zhang, Yiming Si, Chen Wang, Nosheen Zafar, Jingwen Li, Xinying Qiao. Efficient dual-function catalysts for triiodide reduction reaction and hydrogen evolution reaction using unique 3D network aloe waste-derived carbon-supported molybdenum-based bimetallic oxide nanohybrids. Applied Catalysis B: Environmental, 2020, 273: 119004. 2021 IF=24.319. DOI: 10.1016/j.apcatb.2020.119004

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[58] Bo Jia, Sining Yun*, Jing Shi, Feng Han, Ziqi Wang, Jiageng Chen, Yasir Abbas, Hongfei Xu, Kaijun Wang, Tian Xing. Enhanced anaerobic mono- and co-digestion under mesophilic condition: Focusing on the magnetic field and Ti-sphere core-shell structured additives. Bioresource Technology, 2020, 310: 123450. 2021 IF=11.889.DOI: 10.1016/j.biortech.2020.123450

[59] Jiageng Chen, Sining Yun*, Jing Shi, Ziqi Wang, Yasir Abbas, Kaijun Wang, Feng Han, Bo Jia, Hongfei Xu, Tian Xing, Bingjie Li. Role of biomass-derived carbon-based composite accelerants in enhanced anaerobic digestion: Focusing on biogas yield, fertilizer utilization, and density functional theory calculations. Bioresource Technology, 2020, 307: 123204. 2021 IF=11.889.DOI: 10.1016/j.biortech.2020.123204

[60] Sining Yun*, Yiming Si‡,Jing Shi‡, Taihong Zhang, Yuzhi Hou, Hang Liu, Sheng Meng, Anders Hagfeldt. Electronic Structures and Catalytic Activities of Niobium Oxides as Electrocatalysts in Liquid-Junction Photovoltaic Devices. Solar RRL, 2020, 4(3), 1900430. 2021 IF=9.173.DOI: 10.1002/solr.201900430

[61] Asim Arshad, Sining Yun*, Yiming Si, Feng Han, Yongwei Zhang, Yangliang Zhang, Ziqi Wang, Chen Wang. Aloe vera-peel derived porous carbon integrated Co/Mn-oxide based nano-hybrids: An efficient electrocatalyst in advanced photovoltaics. Journal of Power Sources, 2020, 451, 227731. 2021 IF=9.794.DOI: 10.1016/j.jpowsour.2020.227731

[62] Hongfei Xu, Sining Yun*, Chen Wang, Ziqi Wang, Feng Han, Bo Jia, Jiageng Chen, Bingjie Li. Improving performance and phosphorus content of anaerobic co-digestion of dairy manure with aloe peel waste using vermiculite. Bioresource Technology, 2020, 301, 122753. 2021 IF=11.889.DOI: 10.1016/j.biortech.2020.122753

[63] Van-Duong Dao*, Ngoc Hung Vu, Sining Yun, Recent advances and challenges for solar-driven water evaporation system toward applications, Nano Energy, 2020, 68, 104324. 2021 IF=19.069.DOI: 10.1016/j.nanoen.2019.104324

[64] Yueming Xing, Yan Wu*, Lingyao Li, Quan Shi, Jing Shi, Sining Yun*, Muhammad Akbar, Baoyuan Wang, Jung-Sik Kim*, Bin Zhu*. Proton Shuttles in CeO2/CeO2−δ Core–Shell Structure, ACS Energy Letters, 2019, 4, 2601-2607. 2021 IF=23.991.DOI: 10.1021/acsenergylett.9b01829

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[65] Baoyuan Wang, Bin Zhu, Sining Yun, Wei Zhang, Chen Xia, Muhammad Afzal, Yixiao Cai, Yanyan Liu, Yi Wang and Hao Wang. Fast ionic conduction in semiconductor CeO2-δ electrolyte fuel cells, NPG Asia Materials, 2019, 11, 55. 2021 IF=10.761.DOI: 10.1038/s41427-019-0152-8

[66] Chen Wang, Sining Yun*, Qingyang Fan, Ziqi Wang, Yangliang Zhang, Feng Han, Yiming Si and Anders Hagfeldt. A hybrid niobium-based oxide with bio-based porous carbon as an efficient electrocatalyst in photovoltaics: a general strategy for understanding the catalytic mechanism, Journal of Materials Chemistry A, 2019,7, 14864-14875. 2021 IF=14.511.DOI: 10.1039/C9TA03540K 

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[67] Sining Yun*, Nick Vlachopoulos*, Ahsanulhaq Qurashi, Shahzada Ahmad, Anders Hagfeldt. Dye Sensitized Photoelectrolysis Cells, Chemical Society Reviews, 2019, 48, 3705-3722. 2021 IF=60.615.DOI: 10.1039/C8CS00987B

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西安建筑科技大学：http://news.xauat.edu.cn/xsky/2019-05-29/14453.html

[68] Sining Yun,* Yongwei Zhang, Qi Xu, Jinmei Liu, Yong Qin. Recent advance in new-generation integrated devices for energy harvesting and storage, Nano Energy, 2019, 60, 600-619. 2021 IF=19.069.DOI: 10.1016/j.nanoen.2019.03.074

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[69] Ziqi Wang, Sining Yun*, Hongfei Xu, Chen Wang, Yangliang Zhang, Jiageng Chen, Bo Jia. Mesophilic anaerobic co-digestion of acorn slag waste with dairy manure in a batch digester: Focusing on mixing ratios and bio-based carbon accelerants, Bioresource Technology, 2019, 286, 121394. 2021 IF=11.889.DOI: 10.1016/j.biortech.2019.121394

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[70] Yangliang Zhang, Sining Yun*, Chen Wang, Ziqi Wang, Feng Han, Yiming Si. Bio-based carbon-enhanced tungsten-based bimetal oxides as counter electrodes for dye-sensitized solar cells. Journal of Power Sources, 2019, 423, 339-348. 2021 IF=9.794.DOI: 10.1016/j.jpowsour.2019.03.054

[71] Feng Han, Sining Yun*, Chen Zhang, Hongfei Xu, Ziqi Wang. Steel slag as accelerant in anaerobic digestion for nonhazardous treatment and digestate fertilizer utilization. Bioresource Technology, 2019, 282, 331-338. 2021 IF=11.889.DOI: 10.1016/j.biortech.2019.03.029

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[72] Jing Li, Sining Yun*, Xiao Zhou, Yuzhi Hou, Wen Fang, Taihong Zhang, Yanfang Liu. Incorporating transition metals (Ta/Co) into nitrogen-doped carbon as counter electrode catalysts for dye-sensitized solar cells. Carbon, 2018, 126, 145-155. 2021 IF=11.307.DOI: 10.1016/j.carbon.2017.10.010

[73] Xiaodong Wang, Sining Yun*, Wen Fang, Chen Zhang, Xu Liang, Zhibin Lei, Zonghuai Liu. Layer-Stacking Activated Carbon Derived from Sunflower Stalk as Electrode Materials for High-Performance Supercapacitors. ACS Sustainable Chemistry and Engineering, 2018, 6(9), 11397-11407. 2021 IF=9.224.DOI: 10.1021/acssuschemeng.8b01334
 

[74] Sining Yun*,Xiao Zhou, Jacky Even, Anders Hagfeldt. Recent progress of first principles calculations in CH3NH3PbI3perovskite solar cells.Angewandte Chemie International Edition,2017, 56, 15806-15817.2017 IF=12.257

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[75] Sining Yun*, Yong Qin, Alexander R. Uhl, Nick Vlachopoulos, Min Yin, Dongdong Li, Xiaogang Han, Anders Hagfeldt. New-generation integrated devices based on dye-sensitized and perovskite solar cells, Energy & Environmental Science, 2018, 11(3), 476 - 526. 2021 IF=39.714.DOI: 10.1039/C7EE03165C   PDF

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[76] Chen Zhang, Sining Yun*, Xue Li, Ziqi Wang, Hongfei Xu, Tingting Du. Low-cost composited accelerants for anaerobic digestion of dairy manure: Focusing on methane yield, digestate utilization and energy evaluation. Bioresource Technology, 2018, 263, 517-524. 2021 IF=11.889.DOI: 10.1016/j.biortech.2018.05.042

[77] Sining Yun*, Xiao Zhou, Jacky Even, Anders Hagfeldt. Theoretical treatment of CH3NH3PbI3 perovskite solar cells. Angewandte Chemie International Edition, 2017, 56, 15806-15817. 2021 IF=16.823 .DOI: 10.1002/anie.201702660

[78] Xue Li,Sining Yun*, Chen Zhang, Wen Fang, Xinlei Huang, Tingting Du. Application of nano-scale transition metal carbides as accelerants in anaerobic digestion. International Journal of Hydrogen Energy, 2018, 43, 1926-1936.2017 IF=4.084

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[79] Taihong Zhang, Sining Yun*, Xue Li, Xinlei Huang, Yuzhi Hou, Yanfang Liu, Jing Li, Xiao Zhou, Wen Fang. Fabrication of niobium-based oxides/oxynitrides/nitrides and their applications in dye-sensitized solar cells and anaerobic digestion. Journal of Power Sources, 2017, 340, 325-336. 2021 IF=9.794.DOI: 10.1016/j.jpowsour.2016.11.082

西建大云斯宁：氮氧化铌在第三代太阳能电池和厌氧发酵系统中的应用

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[80] Peter D Lund, Bin Zhu, Yongdan Li, Sining Yun, Albert G, Nasibulin, Rizwan Raza, Markku Leskelä, Meng Ni, Yan Wu, Gang Chen, Liangdong Fan, Jung-Sik, Kim, Suddhasatwa Basu, Tanja Kallio, Ibrahim Pamuk. Standardized Procedures Important for Improving Single-Component Ceramic Fuel Cell Technology. ACS Energy Letters, 2017, 2, 2752-2755. 2021 IF=23.991.DOI: 10.1021/acsenergylett.7b00997

[81] Xinlei Huang, Sining Yun*, Jiang Zhu, Tingting Du, Chen Zhang, Xue Li. Mesophilic anaerobic co-digestion of aloe peel waste with dairy manure in the batch digester: Focusing on mixing ratios and digestate stability. Bioresource Technology, 2016, 218, 62-68. 2021 IF=11.889.DOI: 10.1016/j.biortech.2016.06.070

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[82] Sining Yun*, Jilian Nei Freitas, Ana F. Nogueira, Shahzada Ahmad, Yanmin Wang, Zhongsheng Wang. Dye-sensitized solar cells employing polymers, Progress in Polymer Science, 2016, 59, 1-40. 2021 IF=31.281.DOI: 10.1016/j.progpolymsci.2015.10.004

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[83] Sining Yun*, Peter D. Lund, Andreas Hinsch. Stability assessment of alternative platinium free counter electrodes for dye-sensitized solar cells. Energy & Environmental Science, 2015, 8, 3495-3514. 2021 IF=39.714.DOI: 10.1039/C5EE02446C

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[84] Sining Yun*, Anders Hagfeldt, Tingli Ma. Pt-Free Counter Electrode for Dye-Sensitized Solar Cells with High Efficiency. Advanced Materials, 2014. 26,6210-6237. 2021 IF=32.086.DOI: 10.1002/adma.201402056

[85] Sining Yun*, Hong Zhang, Huihai Pu, Junhong Chen, Anders Hagfeldt, Tingli Ma. Metal Oxide/Carbide/Carbon Nanocomposites: In Situ Synthesis, Characterization, Calculation and its Application as Efficient Counter Electrode Catalyst for Dye-Sensitized Solar Cells. Advanced Energy Materials, 2013, 3, 1407-1412. 2021 IF=29.698.DOI: 10.1002/aenm.201300242

[86] Sining Yun*, Haihui Pu, Junhong Chen, Anders Hagfeldt, Tingli Ma. Enhanced Performance of supported HfO2 Counter Electrode for Redox Couples Used in Dye-Sensitized Solar Cells. ChemSusChem, 2014, 7, 442-450. 2021 IF=9.140 .DOI: 10.1002/cssc.201301140

       Top 20 Articles, in the Domain of Article 24399514, Since its Publication (2014), BioMedLib, PMID: 24399514.

[87] Sining Yun*, Mingxing Wu, Yudi Wang, Jing Shi, Xiao Lin, Anders Hagfeldt, Tingli Ma. Pt-like behavior of high-performance counter electrodes prepared from binary tantalum compounds showing high electrocatalytic activity for dye-sensitized solar cells. ChemSusChem, 2013, 26, 411-416. 2021 IF=9.140..DOI: 10.1002/cssc.201200845

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Top 20 Articles, in the Domain of Article 23362154, Since its Publication (2013), BioMedLib, PMID: 23362154.

[88] Sining Yun*, Huawei Zhou, Liang Wang, Hong Zhang, Tingli Ma. Economical hafnium oxygen nitride binary/ternary nanocomposite counter electrode catalysts for high-efficiency dye-sensitized solar cells. Journal of Materials Chemistry A, 2013, 1, 1341-1348. 2021 IF=14.511. DOI: 10.1039/c2ta00680d

[89] Sining Yun*, Yanfang Liu, Taihong Zhang, Shahzada Ahmad. Recent advances in alternative counter electrode materials for Co-mediated dye-sensitized solar cells. Nanoscale, 2015, 7, 11877-11893. 2021 IF=8.307.DOI: 10.1039/C5NR02433A

发表中文期刊论文：

[1] 刘彦贝, 王若名, 刘娟, Taimoor Raza, 陆玉正, Rizwan Raza, 朱斌, 李松波, 安胜利, 云斯宁. CeO₂@La_0.6Sr_0.4Co_0.2Fe_0.8O_3-δ电解质的制备及半导体离子燃料电池性能研究[J]. 化工学报, 1-14.

[2] 兰昆, 吴战波, 赵泽妮, 贾凌云, 杨柳, 云斯宁. 基于多因子的太阳辐照度预测方法研究进展[J]. 太阳能学报, 2024, 45 (05): 593-601.

[3] 张丽珊, 张永伟, 后玉芝, 张阳亮, 云斯宁. 氧化钼纳米杂化物的可控构筑及催化性能研究[J]. 稀有金属, 2024, 48 (04): 498-507.

[4] 孙梦龙, 党姣娥, 张永伟, 刘卓磊, 云斯宁. ZIF-8/ZIF-67衍生钴氮共修饰碳的合成及电催化性能研究[J]. 稀有金属, 2024, 48 (02): 288-295.

[5] 张琰妮, 史加荣, 李津, 云斯宁. 融合残差与VMD-ELM-LSTM的短期风速预测[J]. 太阳能学报, 2023, 44 (09): 340-347.

[6] 李津, 史加荣, 张琰妮, 云斯宁. 基于最大信息系数的短期太阳辐射协同估计[J]. 太阳能学报, 2023, 44 (09): 286-294.

[7] 刘娟, 陆玉正, 杨静静, 王若名, 朱斌, 云斯宁. Al₂O₃-CeO₂复合电解质的制备及其半导体离子燃料电池性能[J]. 无机化学学报, 2023, 39 (09): 1699-1710.

[8] 安锦航, 李冰洁, 王凯君, 柯腾, 云斯宁. 氮掺杂芦荟碳和磁场对厌氧共发酵系统产甲烷的协同作用[J]. 太阳能学报, 2023, 44 (06): 532-540.

[9] 杨天翔, 王银号, 张永伟, 刘卓磊, 云斯宁. 氧化钨纳米棒团簇的制备及电催化性能[J]. 无机化学学报, 2023, 39 (02): 221-233.

[10] 贾凌云, 云斯宁, 赵泽妮, 李红莲, 王赏玉, 杨柳. 神经网络短期光伏发电预测的应用研究进展[J]. 太阳能学报, 2022, 43 (12): 88-97.

[11] 樊庆扬, 孙毅超, 杨放, 宋延兴, 于新海, 云斯宁. C2-Si:一种新型单斜相硅的同素异形体（英文）[J]. Chinese Journal of Chemical Physics, 2022, 35 (06): 945-956.

[12] 赵泽妮, 云斯宁, 贾凌云, 史加荣, 贺宁, 杨柳. 基于统计模型的短期风能预测方法研究进展[J]. 太阳能学报, 2022, 43 (11): 224-234.

[13] 王支国, 邓莹莹, 党姣娥, 张永伟, 张丽珊, 阿鑫, 云斯宁. Fe/Cu修饰氮掺杂碳纳米管的构筑及催化性能[J]. 无机化学学报, 2022, 38 (11): 2181-2190.

[14] 党长伟, 张永伟, 韩凤, 党姣娥, 刘卓磊, 王银号, 邓莹莹, 云斯宁. ZnMoO₄/芦荟衍生多孔碳的化学共沉淀法制备及催化性能[J]. 无机化学学报, 2022, 38 (03): 489-500.

[15] 刘卓磊, 李静文, 孙梦龙, 张永伟, 党长伟, 云斯宁. MnWO₄/生物质衍生碳纳米复合催化剂的制备及催化性能[J]. 无机化学学报, 2021, 37 (12): 2219-2226.

[16] 樊庆扬, 吴楠, 陈帅铭, 江莉, 张伟, 于新海, 云斯宁. P2₁3 BN: a novel large-cell boron nitride polymorph[J]. Communications in Theoretical Physics, 2021, 73 (12): 163-171.

[17] 王曦, 张永伟, 司艺铭, 王银号, 云斯宁. MNbO₄/生物质碳复合催化剂的制备和催化性能研究[J]. 功能材料, 2021, 52 (10): 10008-10015.

[18] 刘恒, 樊庆扬, 杨放, 于新海, 张伟, 云斯宁. tP40 carbon:A novel superhard carbon allotrope[J]. Chinese Physics B, 2020, 29 (10): 454-462.

[19] 王怡, 陈琳风, 王文怀, 冯琳琳, 柴宝华, 范攀, 丁卓, 云斯宁, 徐鸿飞. 改性石榴皮生物炭对水中低浓度硝氮的吸附性能研究[J]. 西安建筑科技大学学报(自然科学版), 2019, 51 (06): 899-904.

[20] 孟立建, 杨涛, 云斯宁, 李灿. Effect of hydroxyl on dye-sensitized solar cells assembled with TiO₂ nanorods[J]. Chinese Physics B, 2018, 27 (01): 79-83.

[21] 石鲸, 高勇, 王晓莉, 云斯宁. Electronic,Elastic and Piezoelectric Properties of Two-Dimensional Group-Ⅳ Buckled Monolayers[J]. Chinese Physics Letters, 2017, 34 (08): 136-139.

[22] 方雯, 云斯宁, 黄欣磊, 后玉芝, 朱江, 李雪. 碳化生物质在AD/DSSCs中的应用[J]. 中国材料进展, 2017, 36 (04): 55-60.

[23] 王晓东, 云斯宁, 张太宏, 尹洪峰, 徐德龙. 硅烷偶联剂表面改性玄武岩纤维增强复合材料研究进展[J]. 材料导报, 2017, 31 (05): 77-83.

[24] 胡谢利, 云斯宁, 尚建丽. 生物质燃料压缩成型技术研究进展[J]. 化工新型材料, 2016, 44 (09): 42-44.

[25] 杜婷婷, 云斯宁, 黄欣磊, 朱江, 李晶, 景红梅. 功能复合添加剂对牛粪厌氧发酵的影响[J]. 可再生能源, 2016, 34 (06): 936-942.

[26] 杜婷婷, 云斯宁, 朱江, 黄欣磊, 张仙梅, 曾汉候. 生物质废弃物厌氧发酵的研究进展[J]. 中国沼气, 2016, 34 (02): 46-52.

[27] 张仙梅, 云斯宁, 杜玉凤, 盖国胜, 杨玉芬, 何振全. 微晶化磷钾矿粉催化牛粪厌氧消化试验[J]. 农业机械学报, 2016, 47 (05): 183-190.

[28] 张太宏, 云斯宁, 李晶, 刘艳芳, 周笑, 后玉芝, 方雯. 染料敏化太阳能电池合金对电极材料[J]. 科学通报, 2016, 61 (Z1): 478-488.

[29] 张陈乐, 张培新, 云斯宁, 李永亮, 何挺树. 染料敏化太阳能电池过渡金属化合物对电极制备方法研究进展[J]. 无机材料学报, 2016, 31 (02): 113-122.

[30] 朱江, 云斯宁, 杜婷婷, 黄欣磊. 柠檬酸对牛粪厌氧发酵产沼气的影响研究[J]. 可再生能源, 2015, 33 (12): 1861-1865.

[31] 张仙梅, 云斯宁, 杜玉凤, 杜婷婷, 盖国胜, 张万钦. 沼气厌氧发酵生物催化剂研究进展与展望[J]. 农业机械学报, 2015, 46 (05): 141-155.

[32] 云斯宁, 孙毅, 甘艳萍, 李玉祥. Al-ZnO光电纳米材料的水热合成及电学性能[J]. 硅酸盐学报, 2012, 40 (02): 294-299.

[33] 云斯宁, 王晓莉, 朱建辉, 石鲸, 徐德龙. Bi掺杂（Ba,Sr,Ca）TiO₃陶瓷的结构及介电和铁电性能（英文）[J]. 硅酸盐学报, 2009, 37 (09): 1544-1549.

[34] 冯琼, 云斯宁, 惠攀, 李永鹏, 王晓龙, 徐德龙. 钠钙粉作为添加剂制备赤泥激发偏高岭土胶凝材料[J]. 非金属矿, 2009, 32 (02): 36-39+78.

[35] 范金禾, 李辉, 云斯宁, 魏洪恩, 徐德龙. 国际水泥工业CO₂排放计算及减排措施[J]. 化工环保, 2009, 29 (01): 31-34.

[36] 云斯宁, 冯琼, 惠攀, 李永鹏, 徐德龙. 高钙粉煤灰作为添加剂制备赤泥偏高岭土胶凝材料[J]. 西安建筑科技大学学报(自然科学版), 2008, 40 (06): 745-750+779.

[37] 冯琼, 云斯宁, 李辉, 刘龙, 徐德龙. 芒硝工业尾矿制备碱激发偏高岭土胶凝材料[J]. 西安建筑科技大学学报(自然科学版), 2008, 40 (06): 800-805.

[38] 云斯宁, 王晓莉, 徐德龙, 李辉, 罗平生, 孙晓量, 杨雪, 乌李瑛. (Ba_1-xCa_x)_1-1.5yBi_yTiO₃陶瓷的介电弛豫行为和线性介电响应[J]. 硅酸盐学报, 2008, (03): 271-276.

[39] 云斯宁, 王晓莉. 改进的工艺路线制备化学计量比的PZN基钙钛矿陶瓷(英文)[J]. 稀有金属材料与工程, 2006, (S2): 267-271.

[40] 云斯宁, 王晓莉, 孙晓亮. Ba_1-xSr_xTi_0.88Sn_0.12O₃陶瓷结构与介电性能的研究[J]. 材料工程, 2006, (09): 49-52.

[41] 曹文娟, 王晓莉, 云斯宁. (Na_1/4Bi_3/4)(Mg_1/4Ti_3/4)O₃新材料的制备及性能研究[J]. 压电与声光, 2006, (04): 458-460.

[42] 云斯宁, 王晓莉, 李亚兵. Pb(Zn_1/3Nb_2/3)O₃-Ba(Zn_1/3Nb_2/3)O₃铁电陶瓷结构与性能的研究（英文）[J]. 功能材料, 2006, (03): 483-486+491.

[43] 云斯宁, 王晓莉. Ba添加方式对PZN基陶瓷介电性能和结构的影响[J]. 功能材料与器件学报, 2006, (01): 19-22.

[44] 云斯宁, 王晓莉. (Ba_1-xSr_x/2Ca_x/2)TiO₃陶瓷的介电弛豫特征和铁电性能[J]. 硅酸盐学报, 2006, (02): 142-146.

[45] 云斯宁,王晓莉,曹文娟. 弛豫铁电陶瓷最佳退火条件的正交试验法[J]. 电子元件与材料, 2005, (09): 1-4.

[46] 云斯宁,王晓莉. 改进的两步法制备PZN-PT-BT铁电陶瓷[J]. 功能材料, 2005, (05): 671-674.

[47] 云斯宁,王晓莉. Pb(Zn_1/3Nb_2/3)O₃基陶瓷预合成和烧结工艺的研究[J]. 硅酸盐通报, 2005, (02): 3-7.

[48] 云斯宁,章道运,于仁红,蒋明学. 镁铬砖在大型干法水泥回转窑烧成带的损毁[J]. 耐火材料, 2004, (04): 238-241.

[49] 云斯宁,蒋明学,符国力,谢建海,王黎,唐仕英. 纳米陶瓷超塑性及应用[J]. 陶瓷, 2003, (03): 20-24.

[50] 云斯宁,蒋明学,李勇,刘建龙,唐仕英,王黎. AlON陶瓷材料的结构、性质及应用[J]. 耐火材料, 2003, (03): 173-176.

[51] 云斯宁,蒋明学,高里存,唐仕英. 垃圾焚烧炉用耐火材料的使用现状及发展趋势[J]. 西安建筑科技大学学报(自然科学版), 2002, (02): 165-169.

[52] 王黎,张军战,唐仕英,云斯宁,蒋明学. 镁铬合成料对镁铝铬捣打料性能的影响[J]. 耐火材料, 2002, (02): 99-101.

会议论文：

[1] 罗超伟, Guangping Yang, Tianxiang Yang, Zhiguo Wang, Mengmeng Zhang, Ke Wang &  云斯宁. (2024). Designing nitrogen-enriched heterogeneous NiCoS₄@FeCoS₄-NC for efficient triiodide reduction. (eds.) 第十一届新型太阳能材料科学与技术学术研讨会论文集 (pp.206).  

[2] Zikang Li, Guangping Yang, Tianxiang Yang, Zhiguo Wang, Mengmeng Zhang, Ke Wang &  云斯宁. (2024). Construction and catalytic properties of porous spherical carbon-coupled Ni-Mo bimetallic heterostructures. (eds.) 第十一届新型太阳能材料科学与技术学术研讨会论文集 (pp.207).  

[3] 张萌萌, Tianxiang Yang, Guangping Yang, Haijiang Yang, Zhiguo Wang, Ke Wang &  云斯宁. (2024). 3D Co-doped Cu₃P/NC octahedra embedded in 2D MXene nanosheets for hydrogen evolution reaction and triiodide reduction reaction. (eds.) 第十一届新型太阳能材料科学与技术学术研讨会论文集 (pp.208).  

[4] 张添益, Guangping Yang, Tianxiang Yang, Zhiguo Wang, Mengmeng Zhang, Ke Wang &  云斯宁. (2024). Enhanced catalytic performance of IRR and HER by Weyl Semi-Metallic W_1-xMo_xTe₂. (eds.) 第十一届新型太阳能材料科学与技术学术研讨会论文集 (pp.216). 

[5] 陈昊祎, Guangping Yang, Tianxiang Yang, Zhiguo Wang, Mengmeng Zhang, Ke Wang &  云斯宁. (2024). Enhanced catalytic performance of IRR and HER by phosphorus vacancy-enriched molybdenum-doped WP₂. (eds.) 第十一届新型太阳能材料科学与技术学术研讨会论文集 (pp.217).  

[6] 许晓蓉, Guangping Yang, Tianxiang Yang, Zhiguo Wang, Mengmeng Zhang, Ke Wang &  云斯宁. (2024). Construction of 2D-2D Bi-based double heterojunctions to enhance the electrocatalytic activity of hydrogen evolution and triiodide reduction reactions. (eds.) 第十一届新型太阳能材料科学与技术学术研讨会论文集 (pp.296).  

[7] 杨光平, Tianxiang Yang, Zhiguo Wang, Haijiang Yang &  云斯宁. (2024). High-selective Schottky junction catalysts for dye-sensitized solar cells:Modulation of energy band structure and enhancement of surface reaction. (eds.) 第十一届新型太阳能材料科学与技术学术研讨会论文集 (pp.297). 

[8] 杨天翔, Guangping Yang, Haijiang Yang, Zhiguo Wang, Ruoming Wang, Rou Feng &  云斯宁. (2024). Interfacial electron modulation of 3D nanoblock nitrogen-modified carbon with binary metal selenide heterojunctions as stable and efficient electrode materials for advanced energy conversion devices. (eds.) 第十一届新型太阳能材料科学与技术学术研讨会论文集 (pp.298).  

[9] 云斯宁, Zan Gao, Menglong Sun, Dan Qiao, Yinhao Wang, Guangping Yang &  Changwei Dang. (2024). Designing heterojunction catalyst induced Built-in electric field for iodine reduction and hydrogen precipitation reactions. (eds.) 第十一届新型太阳能材料科学与技术学术研讨会论文集 (pp.307).  

[10] 王科, Tianxiang Yang, Guangping Yang, Haijiang Yang, Zhiguo Wang, Mengmeng Zhang &  云斯宁. (2024). Strengthening heterogeneous strain in FeCoNiMo-based high-entropy alloy for boosting triiodide reduction and hydrogen evolution reaction. (eds.) 第十一届新型太阳能材料科学与技术学术研讨会论文集 (pp.251).  

[11] 王支国,Guangping Yang,Tianxiang Yang,Haijiang Yang,Rou Feng,Mengmeng Zhang... & 云斯宁. (2024). In situ growth of P-doped CoSe₂ nanospheres on Ti₃C₂T_x MXene heterostructure hybrid for efficient hydrogen evolution and triiodide reduction reaction. (eds.) 第十一届新型太阳能材料科学与技术学术研讨会论文集 (pp.252). 

[12] 杨海江, Guangping Yang, Tianxiang Yang, Zhiguo Wang, Rou Feng &  云斯宁. (2024). High entropy alloys bifunctional catalysts for hydrogen evolution and triiodide reduction reactions. (eds.) 第十一届新型太阳能材料科学与技术学术研讨会论文集 (pp.253). 

[13] 杨天翔,Guangping Yang,Zan Gao,Dan Qiao,Zhiguo Wang,Mengmeng Zhang... & 云斯宁. (2023). MOF-on-MOF strategy to design nitrogen-doped carbon incorporated FeSe2/CoSe2 hollow nanoboxes for IRR/HER. (eds.) 第十届新型太阳能材料科学与技术学术研讨会论文集 (pp.301).  

[14] 乔丹,Jiaoe Dang,Yongwei Zhang,Guangping Yang,Tianxiang Yang,Zan Gao... & 云斯宁. (2023). N-doped carbon confined carbides and metal cobalt with dual Mott-Schottky heterojunctions for efficient tri-iodide reduction. (eds.) 第十届新型太阳能材料科学与技术学术研讨会论文集 (pp.305).  

[15] 杨光平, Tianxiang Yang, Zhiguo Wang, Zan Gao, Dan Qiao &  云斯宁. (2023). Directional doping-modified B-C₃N₄@Fe₃C Mott-Schottky junction for coordinating efficient iodide reduction and hydrogen evolution reaction. (eds.) 第十届新型太阳能材料科学与技术学术研讨会论文集 (pp.306).  

[16] 云斯宁. (2023). Metal-N-C dual-function catalyst for IRR/HER. (eds.) 第十届新型太阳能材料科学与技术学术研讨会论文集 (pp.307).  

[17] 张萌萌,Guangping Yang,Tianxiang Yang,Zan Gao,Dan Qiao,Haijiang Yang... & 云斯宁. (2023). Co-doped MOF derived Cu₃P heterostructures on MXene for promoting triiodide reduction and hydrogen evolution reactions. (eds.) 第十届新型太阳能材料科学与技术学术研讨会论文集 (pp.308).  

[18] 云斯宁. (2022). Metal-N-C Catalysts for DSC/SC/AF. (eds.) 第二届全国太阳能电池材料与器件大会论文集 (pp.49).  

[19] 张永伟, Jiaoe Dang, Guangping Yang, Yi Du, Tianxiang Yang &  云斯宁. (2022). Implanted bimetal-nitrogen active sites enhance the catalytic activity of ZIF-derived porous carbon for IRR and HER. (eds.) 第二届全国太阳能电池材料与器件大会论文集 (pp.85).  

[20] 云斯宁. (2022). Metal-N-C Catalyst for Solar Cells. (eds.) 第九届新型太阳能材料科学与技术学术研讨会论文集 (pp.259).  

[21] 云斯宁. (2021). based nanohybrids:from nano-size to single atom catalyst. (eds.) 2021全国太阳能电池材料器件与技术大会论文集 (pp.16).  

[22] 张永伟, Jiaoe Dang, Changwei Dang, Yingying Deng, Zhuolei Liu, Yinhao Wang &  云斯宁. (2021). Dual metal-Nx active sites co-modified ZIF-derived porous carbon: Effective catalysts for boosting triiodide reduction reaction. (eds.) 2021全国太阳能电池材料器件与技术大会论文集 (pp.85-86).  

[23] 邓莹莹,Changwei Dang,Zhuolei Liu,Yinhao Wang,Lishan Zhang,Shuangxi Yuan... & 云斯宁. (2021). Sulphur-doped nitrogen-carbon composite transition metal telluride nanohybrids: A highly efficient IRR and HER electrode catalyst. (eds.) 第八届新型太阳能材料科学与技术学术研讨会论文集 (pp.297). 

[24] 孙梦龙,Yongwei Zhang,Lishan Zhang,Jiaoe Dang,Shuangxi Yuan,Xi Wang... & 云斯宁. (2021). ZIF-8/ZIF-67-derived sea urchin-like carbon dodecahedron: An efficient electrocatalyst for dye-sensitized solar cells. (eds.) 第八届新型太阳能材料科学与技术学术研讨会论文集 (pp.298).  

[25] 王曦,Jiaoe Dang,Lishan Zhang,Menglong Sun,Shuanngxi Yuan,Yinhao Wang... & 云斯宁. (2021). Well-designed dual metal Nb/Ta co-modified nitrogen doped carbon: An active sites-enriched catalyst for efficiently catalyzing triiodide reduction. (eds.) 第八届新型太阳能材料科学与技术学术研讨会论文集 (pp.299). 

[26] 袁双喜, Yongwei Zhang, Lishan Zhang, Jiaoe Dang, Xi Wang, MengLong Sun &  云斯宁. (2021). ZIF-8 derived nitrogen/transition bimetal co-doped porous carbon for counter electrode of dye-sensitized solar cell. (eds.) 第八届新型太阳能材料科学与技术学术研讨会论文集 (pp.302).  

[27] 云斯宁. (2021). Nanohybrids: From Nano-size to Single Atom catalyst. (eds.) 第八届新型太阳能材料科学与技术学术研讨会论文集 (pp.303).  

[28] 张永伟,Jingjing Yang,Jiaoe Dang,Ruoming Wang,Changwei Dang,Yingying Deng... & 云斯宁. (2021). Bimetal Cu/Ni-N_x active sits co-modified ZIF-8 derived porous carbon for boosting triiodide reduction and hydrogen evolution reaction. (eds.) 第八届新型太阳能材料科学与技术学术研讨会论文集 (pp.304).  

[29] 党姣娥,Yongwei Zhang,Zhuolei Liu,Yinhao Wang,Changwei Dang,Yingying Deng... & 云斯宁. (2021). Metal-organic-framework-derived hybrid carbon nanorod as a counter electrode in dye-sensitized solar cell. (eds.) 第八届新型太阳能材料科学与技术学术研讨会论文集 (pp.305).  

[30] 党长伟,Yongwei Zhang,Menglong Sun,Jiaoe Dang,Zhuolei Liu,Yinhao Wang... & 云斯宁. (2021). Facile fabrication of flake-like NiFe₂O₄ derived from the Ni-Fe layered double hydroxide for enhancing the triiodide reduction reaction in dyesensitized solar cells. (eds.) 第八届新型太阳能材料科学与技术学术研讨会论文集 (pp.306).  

[31] 刘卓磊,Changwei Dang,Yingying Deng,Yinhao Wang,Jiaoe Dang,Yongwei Zhang... & 云斯宁. (2021). ZIF-derived carbon/molybdenum disulfide composites as a counter electrode for dye-sensitized solar cell. (eds.) 第八届新型太阳能材料科学与技术学术研讨会论文集 (pp.307).  

[32] 王银号,Zhuolei Liu,Changwei Dang,Yingying Deng,Xi Wang,Lishan Zhang... & 云斯宁. (2021). Phosphorus doped tungsten-based composite material as the counter electrode for dye-sensitized solar cells. (eds.) 第八届新型太阳能材料科学与技术学术研讨会论文集 (pp.308).  

[33] 张丽珊,Menglong Sun,Xi Wang,Shuangxi Yuan,Yingying Deng,Yinhao Wang... & 云斯宁. (2021). Nickel modified nitrogen-doped carbon composites as high-efficiency electrocatalysts for triiodide reduction reactions. (eds.) 第八届新型太阳能材料科学与技术学术研讨会论文集 (pp.309).  

[34] Nosheen Zafar,Brundha Chidarbaram,Yongwei Zhang,Asim Arshad,Menglong Sun,Feng Han... & 云斯宁. (2020). Incorporated Nb/Co Integrated MOF Derived Nitrogen Doped Carbon as Highly Robust Catalyst for Triiodide Reduction Reaction. (eds.) 第七届新型太阳能电池材料科学与技术学术研讨会论文集 (pp.342).  

[35] Asim Arshad,Nosheen Zafar,Menglong Sun,Brundha Chidambaram,Yongwei Zhang,Lishan Zhang... & 云斯宁. (2020). ZIF-8 derived N-doped carbon with enhanced metal-N active sites:A multi-functional hybrid electrocatalyst for tri-iodide reduction and hydrogen evolution reaction. (eds.) 第七届新型太阳能电池材料科学与技术学术研讨会论文集 (pp.340).  

[36] Chidambaram Brundha, Nosheen Zafar, Menglong Sun, Asim Arshad, Yongwei Zhang &  云斯宁. (2020). N-Doped carbon derived from ZIF-8 coated bimetals(Sn-Mg) as a highly efficient counter electrode electro-catalyst for triiodide reduction. (eds.) 第七届新型太阳能电池材料科学与技术学术研讨会论文集 (pp.341).  

[37] 党姣娥,Menglong Sun,Yongwei Zhang,Feng Han,Yiming Si,Shuangxi Yuan... & 云斯宁. (2020). Metal-organic-framework-based double-shelled nanoboxes N-C@Co-N-C bifunctional electrocatalyst for efficient HER and IRR. (eds.) 第七届新型太阳能电池材料科学与技术学术研讨会论文集 (pp.343).  

[38] 韩凤,Xinying Qiao,Jingwen Li,Yiming Si,Yongwei Zhang,Jiaoe Dang... & 云斯宁. (2020). 3D network aloe waste-derived carbon-supported molybdenum-based bimetallic compound as counter electrode for dye-sensitized solar cells. (eds.) 第七届新型太阳能电池材料科学与技术学术研讨会论文集 (pp.344).  

[39] 李静文,Xinying Qiao,Yiming Si,Feng Han,Yongwei Zhang,Jiaoe Dang... & 云斯宁. (2020). Biomass-derived carbon boosted catalytic properties of tungsten-based nanohybrids for accelerating the triiodide redu ction in dye-sensitized solar cells. (eds.) 第七届新型太阳能电池材料科学与技术学术研讨会论文集 (pp.345).  

[40] 乔昕莹,Jingwen Li,Feng Han,Yiming Si,Yongwei Zhang,Jiaoe Dang... & 云斯宁. (2020). Honeycomb-like bio-based carbon decorated with tantalum-based compound as efficient and durable electrocatalysts for dye-sensitized solar cells. (eds.) 第七届新型太阳能电池材料科学与技术学术研讨会论文集 (pp.346).  

[41] 司艺铭,Feng Han,Yongwei Zhang,Jingwen Li,Xinying Qiao,Menglong Sun... & 云斯宁. (2020). Nano-sized niobium-based oxides anchored on biomass-derived porous carbon hybrids as bifunctional catalysts for dye-sensitized solar cells and alkaline hydrogen evolution. (eds.) 第七届新型太阳能电池材料科学与技术学术研讨会论文集 (pp.347).  

[42] 孙梦龙,Yongwei Zhang,Lishan Zhang,Jiaoe Dang,Shuangxi Yuan,Xi Wang... & 云斯宁. (2020). ZIF-8/ZIF-67-derived cobalt,nitrogen co-doped carbon dodecahedron:An efficient electrocatalyst for dye-sensitized solar cells. (eds.) 第七届新型太阳能电池材料科学与技术学术研讨会论文集 (pp.348).  

[43] 王曦,Lishan Zhang,Menglong Sun,Shuanngxi Yuan,Yongwei Zhang,Xinying Qiao... & 云斯宁. (2020). Transition metal niobium-modified nitrogen doped carbon material as counter electrode for dye-sensitized solar cells. (eds.) 第七届新型太阳能电池材料科学与技术学术研讨会论文集 (pp.349).  

[44] 袁双喜,Yongwei Zhang,Lishan Zhang,Jiaoe Dang,Xi Wang,Yiming Si... & 云斯宁. (2020). ZIF-8 derived nitrogen/transition metal co-doped porous carbon for counter electrode of DSSCs. (eds.) 第七届新型太阳能电池材料科学与技术学术研讨会论文集 (pp.350). 

[45] 张丽珊,Menglong Sun,Xi Wang,Shuangxi Yuan,Feng Han,Xinying Qiao... & 云斯宁. (2020). Iron modified nitrogen-doped carbon composites as high-efficiency electrocatalysts for triiodide reduction reactions. (eds.) 第七届新型太阳能电池材料科学与技术学术研讨会论文集 (pp.351).  

[46] 张永伟,Menglong Sun,Jiaoe Dang,Xi Wang,Lishan Zhang,Shuangxi Yuan... & 云斯宁. (2020). Cu,Ni modified ZIF-8 derived porous carbon:An efficient and low cost catalyst for dye-sensitized solar cells. (eds.) 第七届新型太阳能电池材料科学与技术学术研讨会论文集 (pp.352).  

[47] 阙美丹 & 云斯宁. (2019). 钙钛矿量子点诱导富铯薄膜表面增强电池的稳定性. (eds.) 第六届新型太阳能电池材料科学与技术学术研讨会论文集 (pp.59).  

[48] Yasir Abbas,Xiaodong Wang,Asim Arshad,Yongwei Zhang,Jiaoe Dang,Chen Wang... & 云斯宁. (2019). Layer-stacking bio-based carbon derived from sunflower stalk as counter electrode for Dye-sensitized solar cell and supercapacitors. (eds.) 第六届新型太阳能电池材料科学与技术学术研讨会论文集 (pp.388).  

[49] Asim Arshad,Yiming Si,Feng Han,Chen Wang,Ziqi Wang,Yangliang Zhang... & 云斯宁. (2019). Transition metal oxides integrated bio-based porous carbon as superior counter electrode catalysts for dye-sensitized solar cells. (eds.) 第六届新型太阳能电池材料科学与技术学术研讨会论文集 (pp.389).  

[50] Nosheen,Zafar,Asim Arshad,Yongwei Zhang,Yiming Si,Feng Han,Chen Wang... & 云斯宁. (2019). Recent advancements in bio-based carbon enhanced bimetal oxides as counter electrode catalysts for dye-sensitized solar cells. (eds.) 第六届新型太阳能电池材料科学与技术学术研讨会论文集 (pp.390).  

[51] 党姣娥,Feng Han,Yongwei Zhang,Yiming Si,Yasir Abbas,Asim Arshad... & 云斯宁. (2019). Integrated Approach to Improve Electrocatalytic Activity of Tantalum Derivatives as Counter Electrode in Dye-sensitized Solar Cells. (eds.) 第六届新型太阳能电池材料科学与技术学术研讨会论文集 (pp.391).  

[52] 韩凤,Chen Wang,Yiming Si,Yangliang Zhang,Jingwen Li,Xinying Qiao... & 云斯宁. (2019). Bio-based carbon supported molybdenum-based oxides as counter electrode for dye-sensitized solar cells. (eds.) 第六届新型太阳能电池材料科学与技术学术研讨会论文集 (pp.392).  

[53] 乔昕莹,Jingwen Li,Feng Han,Yiming Si,Yangliang Zhang,Yasir Abbas... & 云斯宁. (2019). Tantalum-based bimetallic oxide deposited on bio-carbon as counter electrode catalysts for dye-sensitized solar cells. (eds.) 第六届新型太阳能电池材料科学与技术学术研讨会论文集 (pp.393).  

[54] 王晨,Hongfei Xu,Ziqi Wang,Feng Han,Yangliang Zhang,Yiming Si... & 云斯宁. (2019). Dual functional application of pomelo peel-derived bio-based carbon with controllable morphologies: An efficient catalyst for triiodide reduction and accelerant for anaerobic digestion. (eds.) 第六届新型太阳能电池材料科学与技术学术研讨会论文集 (pp.394).  

[55] 王子齐,Chen Wang,Yangliang Zhang,Yiming Si,Feng Han,Yasir Abbas... & 云斯宁. (2019). Acorn shell-derived porous bio-based carbon for high-performance dye-sensitized solar cells and supercapacitors. (eds.) 第六届新型太阳能电池材料科学与技术学术研讨会论文集 (pp.395).  

[56] 张阳亮,Chen Wang,Ziqi Wang,Hongfei Xu,Yiming Si,Feng Han... & 云斯宁. (2019). Bio-based carbon supported flower-like CoWO₄ as counter electrode catalysts in dye-sensitized solar cells. (eds.) 第六届新型太阳能电池材料科学与技术学术研讨会论文集 (pp.396).  

[57] 王子齐, Chen Zhang, Chen Wang, Hongfei Xu, Yangliang Zhang &  云斯宁. (2018). Honeycomb-like bio-based carbon for high-performance dye-sensitized solar cells and anaerobic digestion. (eds.) 第五届新型太阳能电池学术研讨会摘要集（纳晶敏化太阳能电池篇） (pp.49).  

[58] 徐鸿飞, Weng Fang, Chen Wang, Ziqi Wang, Yangliang Zhang &  云斯宁. (2018). Application of carbon material derived from biomass in dye-sensitized solar cells and anaerobic digestion. (eds.) 第五届新型太阳能电池学术研讨会摘要集（纳晶敏化太阳能电池篇） (pp.50).  

[59] 王晨, Ziqi Wang, Hongfei Xu, Yangliang Zhang, Feng Han, Yiming Si &  云斯宁. (2018). Niobium-based bimetallic compounds as counter electrode in dye-sensitized solar cells. (eds.) 第五届新型太阳能电池学术研讨会摘要集（纳晶敏化太阳能电池篇） (pp.32). 

[60] 方雯, Xiao Zhou, Yuzhi Hou, Xiaodong Wang, Ziqi Wang, Yangliang Zhang &  云斯宁. (2018). Application of bio-based carbon in dye-sensitized solar cells and anaerobic digestion. (eds.) 第五届新型太阳能电池学术研讨会摘要集（纳晶敏化太阳能电池篇） (pp.47).  

[61] 后玉芝, Xiao Zhou, Chen Wang &  云斯宁. (2018). Molybdenum-based oxide as counter electrode catalysts in dye-sensitized solar cells. (eds.) 第五届新型太阳能电池学术研讨会摘要集（纳晶敏化太阳能电池篇） (pp.48).  

[62] 张婷婷 & 云斯宁. (2018). Single-atom catalyst of transition metals(Mo,Nb,W,Ta/Co) composite with nitrogen-doped carbon for dye-sensitized solar cells. (eds.) 第五届新型太阳能电池学术研讨会摘要集（纳晶敏化太阳能电池篇） (pp.51). 

[63] 张阳亮, Ziqi Wang, Chen Wang, Hongfei Xu, Jiageng Chen, Jingwen Li &  云斯宁. (2018). Bio-carbon enhanced tungsten-based bimetal oxides as counter electrode catalysts in dye-sensitized solar cells. (eds.) 第五届新型太阳能电池学术研讨会摘要集（纳晶敏化太阳能电池篇） (pp.52). 

[64] 周笑, Yuzhi Hou, Yangliang Zhang, Hongfei Xu, Jiageng Chen &  云斯宁. (2018). Bio-based spherical carbon supported tantalum-based bimetallic oxides as counter electrodes catalysts for dye-sensitized solar cells. (eds.) 第五届新型太阳能电池学术研讨会摘要集（纳晶敏化太阳能电池篇） (pp.53). 

[65] 后玉芝, Xiao Zhou, Wen Fang, Chen Wang &  云斯宁. (2017). Molybdenum-Based Compounds as Counter Electrode Catalysts in Dye-Sensitized Solar Cells. (eds.) 第四届新型太阳能电池学术研讨会论文集 (pp.360). 西安建筑科技大学,材料与矿资学院,功能材料研究所;陕西省纳米材料与纳米技术重点实验室;

[66] 李晶, Xiao Zhou, Yuzhi Hou, Wen Fang, Taihong Zhang, Yanfang Liu &  云斯宁. (2017). Incorporating Transition Metals(Ta/Co) into Nitrogen-Doped Carbon as CEs for DSSCs. (eds.) 第四届新型太阳能电池学术研讨会论文集 (pp.361).  

[67] 王晨, Yuzhi Hou, Xiao Zhou, Ziqi Wang, Hongfei Xu &  云斯宁. (2017). Application of Niobium-based Bimetal Oxides in Dye-sensitized Solar Cells. (eds.) 第四届新型太阳能电池学术研讨会论文集 (pp.363).  

[68] 王子齐, Yanfang Liu, Wen Fang, Chen Zhang, Chen Wang, Hongfei Xu &  云斯宁. (2017). Application of Tungsten-Based Compounds in Renewable Energy. (eds.) 第四届新型太阳能电池学术研讨会论文集 (pp.364). 

[69] 周笑, Yunzhi Hou, Wen Fang, Jing Li, Hongfei Xu &  云斯宁. (2017). Application of Novel Tantalum-Based Oxides in DSCs. (eds.) 第四届新型太阳能电池学术研讨会论文集 (pp.365). 西安建筑科技大学,材料与矿资学院,功能材料研究所;陕西省纳米材料与纳米技术重点实验室;

[70] 方雯, Xiao Zhou, Yuzhi Hou, Xiaodong Wang, Ziqi Wang, Yangliang Zhang &  云斯宁. (2017). Biomass-Derived Carbon as Catalysts and Accelerant for Dye-Sensitized Solar Cells and Anaerobic Digestion. (eds.) 第四届新型太阳能电池学术研讨会论文集 (pp.459).  

[71] 王晓东,Wen Fang,Chen Zhang,Xue Li,Ziqi Wang,Hongfei Xu... & 云斯宁. (2017). Promising Porous Carbon Derived from Waste Biomass for Dye-Sensitized Solar Cells and Electrochemical Capacitors. (eds.) 第四届新型太阳能电池学术研讨会论文集 (pp.460).  

[72] 张琛, Wen Fang, Xiaodong Wang, Ziqi Wang, Feng Han, Siyao Wan &  云斯宁. (2017). Application of Biochar Materials in Dye-Sensitized Solar Cells and Anaerobic Digestion. (eds.) 第四届新型太阳能电池学术研讨会论文集 (pp.461). 

[73] 张太宏,Xue Li,Xinlei Huang,Yuzhi Hou,Yanfang Liu,Xiao Zhou... & 云斯宁. (2017). Fabrication of Niobium-Based Compounds and Their Applications in Dye-Sensitized Solar Cells and Anaerobic Digestion. (eds.) 第四届新型太阳能电池学术研讨会论文集 (pp.462).  

[74] 刘艳芳, Xiao Zhou, Yuzhi Hou, Ziqi Wang, Taihong Zhang &  云斯宁. (2017). Intrinsic Origin of Superior Catalytic Properties of Tungsten-based Catalysts in Dye-sensitized Solar Cells. (eds.) 第四届新型太阳能电池学术研讨会论文集 (pp.362).  

[75] 云斯宁, 张太宏, 刘行, 刘艳芳 &  孟胜. (2016). Physical and chemical origin of transition metal compounds counter electrode catalysts for dye-sensitized solar cells. (eds.) 第三届新型太阳能电池学术研讨会论文集 (pp.211).  

[76] 方雯, Yanfang Liu, Taihong Zhang, Xiao Zhou, Yuzhi Hou, Jing Li &  云斯宁. (2016). Carbon derived from waste biomass as catalysts and accelerant for dye-sensitized solar cells and anaerobic digestion. (eds.) 第三届新型太阳能电池学术研讨会论文集 (pp.212).  

[77] 李晶, Yanfang Liu, Taihong Zhang, Xiao Zhou, Yuzhi Hou, Wen Fang &  云斯宁. (2016). A nitrogen-doped carbon-based catalyst hybridizing non-precious mental for dye-sensitized solar cells. (eds.) 第三届新型太阳能电池学术研讨会论文集 (pp.213).  

[78] 刘艳芳, Xiao Zhou, Taihong Zhang, Yuzhi Hou, Wen Fang, Jing Li &  云斯宁. (2016). First-principle calculations and molecular dynamics simulations of dye-sensitized solar cells with tungsten-based compounds catalysts. (eds.) 第三届新型太阳能电池学术研讨会论文集 (pp.214).  

[79] 后玉芝, Taihong Zhang, Yanfang Liu, Xiao Zhou, Wen Fang, Jing Li &  云斯宁. (2016). Hafnium and nitrided hafnium as catalysts for dye-sensitized solar cells. (eds.) 第三届新型太阳能电池学术研讨会论文集 (pp.304).  

[80] 张琛, Taihong Zhang, Yanfang Liu, Xiao Zhou, Yuzhi Hou, Wen Fang &  云斯宁. (2016). A novel biochar derive from water hyacinth:Apply to solar cells and anaerobic digestion. (eds.) 第三届新型太阳能电池学术研讨会论文集 (pp.305). 

[81] 张太宏, Yunzhi Hou, Yanfang Liu, Xiao Zhou, Wen Fang, Jing Li &  云斯宁. (2016). Use of niobium-based oxides/oxynitrides/nitrides in dye-sensitized solar cells and anaerobic digestion. (eds.) 第三届新型太阳能电池学术研讨会论文集 (pp.306).  

[82] 周笑, Yanfang Liu, Taihong Zhang, Yunzhi Hou, Wen Fang, Jing Li &  云斯宁. (2016). Application of tantalum-based compounds in renewable energy. (eds.) 第三届新型太阳能电池学术研讨会论文集 (pp.307).  

[83] 云斯宁. (2015). TMCs多功能催化剂在DSSC和AF的应用. (eds.) 2015中国（国际）功能材料科技与产业高层论坛摘要集 (pp.67-68). 

[84] 云斯宁, Taihong Zhang, Yanfang Liu, Xiao Zhou, Yuzhi Hou, Wen Fang &  张培新. (2015). An Integrated Device based on Dye-sensitized Solar Cells and Li-ion Battery. (eds.) 第二届新型太阳能电池学术研讨会论文集 (pp.134). 

[85] 张太宏, Yanfang Liu, Xiao Zhou, Yuzhi Hou, Wen Fang, Jing Li &  云斯宁. (2015). Investigation of Bi-metal and their compounds as catalysts for solar cells. (eds.) 第二届新型太阳能电池学术研讨会论文集 (pp.206).  

[86] 刘艳芳, Taihong Zhang, Xiao Zhou, Yuzhi Hou, Wen Fang, Jing Li &  云斯宁. (2015). First-principle calculations and molecular dynamics simulations of transition metal compounds catalysts for counter electrode of dye-sensitized solar cells. (eds.) 第二届新型太阳能电池学术研讨会论文集 (pp.221). 

[87] 杜婷婷, Jiang Zhu, Xinlei Huang, Xianmei Zhang, Chen Zhang, Xue Li &  云斯宁. (2015). Synthesis of transition metal oxides and their applications as multifunctional catalysts in solar cells and anaerobic fermentation. (eds.) 第二届新型太阳能电池学术研讨会论文集 (pp.228).  

[88] 云斯宁 & 马廷丽. (2014). Pt-free Counter Electrode of Dye-Sensitized Solar Cells with High Efficiency. (eds.) 第一届新型太阳能电池暨钙钛矿太阳能电池学术研讨会论文集 (pp.114).  

研究团队(Research Team)

1) 功能材料研究所→新能源材料教学团队:

团队带头人：云斯宁 (教授 博导)

2) 材料科学与工程学院→新能源材料科研团队:

团队带头人：云斯宁 (教授 博导)

3) 陕西省纳米材料与纳米技术重点实验室→新能源纳米材料与器件化技术应用团队

方向负责人：云斯宁 (教授 博导)

4) 西安建筑科技大学新能源材料科技创新“引智基地”

基地负责人：云斯宁 (教授 博导)

所获荣誉：

1. 2018年，获陕西省“特支计划”科技创新领军人才。

2. 2017年，获陕西省中青年科技创新领军人才。

3.云斯宁.西安建筑科技大学，宝钢优秀教师奖，2018。

4.云斯宁.西安建筑科技大学，青年教师标兵，2014。

所获奖励：

1.云斯宁. 西安建筑科技大学科技进步奖一等奖（第一完成人），2017。

2.云斯宁.陕西高等学校科学技术奖一等奖（第一完成人），2018。

3.云斯宁.陕西省科学技术奖二等奖（第一完成人），2018。

4.云斯宁.《染料敏化太阳能电池—从理论基础到技术应用》，中国石油和化学工业优秀出版物奖（图书奖），中国石油和化学工业联合会，二等奖，2014。

5.云斯宁.“圣和圣”杯最受学生欢迎的主讲教师提名奖，西安建筑科技大学，2011。

6.云斯宁.西安交通大学优秀博士论文 (14/423)，西安交通大学，学位论文奖，2007。

7.云斯宁.Wiley材料学高峰论坛-西安Highly-cited Author Award（高被引作者奖）, 2016。

8.云斯宁.2017年获中国国际光伏大会Best Presentation Award（最佳报告奖），2017。

国际会议(International Conferences)

1.2015中国(国际)功能材料科技与产业高层论坛大会 组织委员会委员

Member of Organizing Committee, 2015 China/international Functional Materials

Technology and Industry Forum, Oct.30-Nov.1, 2015, Xiangtan, China.

2.2017中国新能源材料与器件第一届学术会议 学术委员会委员

Member of Scientific Committee, the 1stConference on New Energy Materials and Devices,Sep. 20-22, 2017, Changsha, China.

3.2017 中国（赣州）国际新能源汽车动力电池高峰论坛暨第九届中国储能与动力电池及其关键材料学术研讨与技术交流会 学术委员会委员

Member of Scientific Committee, 2017 China (Ganzhou) International New Energy Vehicle Power Battery Summit Forum and the 9thChina Energy and Power Battery and its Key Materials Academic Seminar and Technical Exchange, Oct. 13-16, 2017, Ganzhou, Jiangxi, China.

http://www.cailiaoniu.com/101846.html

4.中国-欧洲先进燃料电池论坛暨第三届江苏-欧洲新能源国际会议氢能与燃料电池专场会议 学术委员会委员

Member of Scientific Committee, the 3rd Jiangsu-Europe International Conference on New Energy and Hydrogen & Fuel Cells Forum, Dec. 8-Dec.13, 2017, Nanjing and Wuhan, China.

http://www.seu-solarcenter.org/newsSelect.php?n_id=sjjsozxnyzg

http://www.seu-solarcenter.org/newsSelect.php?n_id=sjjsozxnyzg1

5.2017第十二届绿色能源国际会议 共同主席

Co-Chair, the 12thInternational Green Energy Conference (IGEC-XII),July 31-August 3, 2017, Xi an, China.

http://www.igec12-xjtu.com/lists/conferencecommittees.html

Slide

大会宣传板

6.2017第三届表面、涂层及纳米结构材料亚太地区国际会议 共同主席

Co-Chair, the 3rdInternational Conference on Surfaces, Coatings and Nanostructured

Materials-Asia (NANOSMAT-Asia), Dec.4-7, 2017, Hongkong, China.

http://www.nanosmat-asia.com/

7.2018纳米技术、纳米材料和薄膜材料能源应用国际学术会议 共同主席

Co-Chair, the 5thInternational Conference on Nanotechnology,

Nanomaterials & Thin Films for Energy Applications, July 18-20, Potugal, 2018.

http://www.nanoenergy.co.uk/about.html

8.2018纳米技术、纳米材料和薄膜材料能源应用国际学术会议 国际咨询委员会委员

Member of International Advisory Board, 5thInternational Conference on Nanotechnology, Nanomaterials & Thin Films for Energy Applications, July 18-20, Potugal, 2018.

http://www.nanoenergy.co.uk/committees.html

9.2018 NANOSMAT国际学术会议 国际咨询委员会委员

Member of International Advisory Board, 2018 NANOSMAT Conference, Sep.11-14, Warsas, Poland, 2018.

http://www.nanosmat-conference.com/committees.asp

10.2019第四届表面、涂层及纳米结构材料亚太地区国际会议 主席

Chair, the 4th International Conference on Surfaces, Coatings and Nanostructured Materials-Asia (NANOSMAT-Asia), Oct.11-14, 2019, Xi an, China.

http://www.nanosmat-asia.com/

国际合作(International Collaboration)

1.Kyushu Institute of Technology (Japan)

Prof. Tingli Ma

2.Ecole polytechnique fédérale de Lausanne (EPFL) (Switzerland)

Prof. Anders Hagfeldt

3.University of Wisconsin-Milwaukee (USA)

Prof. Junhong Chen

4.Abengoa Research, C/ Energía Solar no1(Spain)

Prof. Shahzada Ahmad

5.University of Campinas-Unicamp(Brazil),

Prof. Ana F. Nogueira

6.Yonsei University (South Korean)

Prof. Sangwoo Lim

7.Aalto University (Finland)

Prof. Peter D. Lund

8.Fraunhofer Institute for Solar Energy Systems ISE (Germany)

Prof. Andreas Hinsch

9.University of Reading (UK)

Dr. Ricardo Grau-Crespo

10.Fonctions Optiques pour les Télécommunications (FOTON) (France)

Prof. Jacky Even

个人友情链接(Research Link):

Sining Yun’s Baidu Search website:

http://www.baidu.com/s?word=%E4%BA%91%E6%96%AF%E5%AE%81&tn=sitehao123&ie=utf-8&f=3&rsp=0

Sining Yun’s Researchgate website:

https://www.researchgate.net/profile/Sining_Yun?ev=hdr_xprf

Sining Yun’s XAUAT Research Link:

http://clxy.xauat.edu.cn/info/1028/1204.htm

http://gs.xauat.edu.cn:8021/jsp/dsDetail.jsp?id=00000001524

Sining Yun’s Frontiers Loop Website:

http://loop.frontiersin.org/people/157968/overview

Sining Yun’s Private Website:

http://xy.xauat.edu.cn/gnclyjs/listyjdw.asp?id=262&bh=2080

染料敏化太阳能电池的破局之道

——记新能源材料研究专家、西安建筑科技大学云斯宁教授

如果电池有心，想必今时今日也会感到前所未有的压力。自从《华尔街日报》发文称“科技世界正在因电池技术进展缓慢而百般烦恼”之后，未来科技就被描摹成了强悍而无奈的巨型机器人——制作精良、无所不能，却因缺乏一枚高效、稳定的新能源电池而无法施展万般抱负。西安建筑科技大学教授、新能源材料专家云斯宁因此在实验室度过了更多周末时光，与“革命性突破”等浮夸的字眼相比，他相信脚踏实地才能更迫近真理，才能让梦想照进现实。

坚守初心

2013年，云斯宁教授与大连理工大学马廷丽教授牵头，由国内众多科研单位成就卓越的科学家参编，共同编著的《染料敏化太阳能电池——从理论基础到技术应用》一书正式出版。作为我国第一本全面介绍染料敏化太阳能电池（DSSC）的专业书籍，它的问世，让世界看到了在新一代太阳能电池研究领域更多的“中国可能”。与此同时，这位杰出的青年科技工作者所取得的创新性国际重要研究成果，也大大提升了西安建筑科技大学无机非金属材料学科在国内外的行业影响力，促进了功能材料新办专业的学科发展、推动行业技术进步和产业化进程。

那么，何谓DSSC？他又是如何与之结缘的呢？

如大家所知，太阳能作为资源丰富的可再生能源，具有独特的开发利用潜能，而DSSC就是新一代太阳能电池的一种。“它主要是模仿光合作用原理研制的。”云斯宁向记者介绍说，“植物进行光合作用的时候，是把太阳能转化为电能，然后再转化为化学能，而DSSC是一个电气化学系统。植物进行光合作用，是叶绿素在起作用，而DSSC是用染料来捕获太阳光，把光能转化为电能进行发电。”

2003年，云斯宁在西安交通大学攻读博士学位，从事钙钛矿铁电压电陶瓷介电弛豫行为的研究。在广阔的科技世界走马观花已经无法满足他的求胜心，“致用”开始成为这个科研新兵最为关注的命题。偶然的机会，他看到了美国能源署和中科院关于能源科学与技术未来发展展望的行业报告，开展科研的定位逐渐清晰了起来。“当时了解到我们国家碳纳米管的研究在国际上比较超前，后来我就比较关注新能源，经过逐步积累，对国家的政策、需求了解多了，焦点就集中在能源危机和环境污染两个关键点上了。我们做科研必须要符合国家重大战略需求才有意义，太阳能和生物质能又是新能源里边两大核心。”因此，云斯宁教授将研究定位在：一方面立足于太阳能，另一方面立足于生物质能，开展低成本、高附加值资源化循环综合利用的基础研究和技术开发。

因为出色的表现，云斯宁博士毕业之后，其学位论文获2007年西安交通大学优秀博士论文，而后他又作为“引进人才”进入西安建筑科技大学工作，随后赴韩国延世大学研修，开始涉足DSSC。“在韩国，主要是搞光阳极研究，回国之后与马廷丽教授合作，逐渐开展对电极催化剂的研究。”他说自己近期在开展捕能与储能一体化新能源集成器件研究。

从国外到国内，从光阳极到对电极再到集成器件，云斯宁及其研究团队一直沿着一条主线进行探索。而这条线就是——可再生能源中对太阳能和生物质能的利用。他解释说：“随着人口的增加和人们生活水平的逐渐提高，对能源的需求日益增加，能源危机和环境污染日益严重。面对这种挑战，我们力图通过新能源材料的研究和开发，解决国家发展过程中的重大能源需求，并且立足于资源化循环综合利用。”

卓越的科研才华，让云斯宁从众多青年科研工作者中脱颖而出，他很快被破格提升为教授和博士研究生导师，并成为了西安建筑科技大学功能材料研究所“新能源材料”研究团队和陕西省纳米材料与技术重点实验室“新能源材料器件化应用”研究团队的方向负责人。　　他和他的研究团队一起，对国际上该领域的研究现状、难点、热点开展深度研究、联合攻关。近年，参与完成、主持国家级、省部级、地市级、校级各类项目20余项，并协助国家基金委评审青年、面上、重大项目共38项。

持续突破

和当初预料的一样，在巨大的能源缺口面前，DSSC因其光电转化效率高、成本低、环境友好、透明等特点，顺理成章地成为了全世界瞩目的科研焦点。而他与“战友们”的坚守，也为我国在该领域国际竞争力的加强，原创性成果的争夺提供了坚实的保障。“中国发表的研究论文，位居世界第二；知识产权数量也仅此于日本和韩国，领先于美国和其他发达国家。而国内的产业化研究也基本与世界同步，早期仅能建成500瓦的示范小工程，预计今年我国能达到20兆瓦规模的水平。”云斯宁教授对我国的科研充满信心。

蓝海似乎近在咫尺，想要突破边界，挑战仍然不可小觑。“研究DSSC的目的最终在于应用。而产业化面临两个问题：一个是DSSC的效率约为13%，与成熟的硅基电池相比有点偏低；另外一个是它的长期稳定性欠佳。其次，商业化应用还面临着一个成本问题，虽然DSSC成本仅占硅基电池的1/5〜1/10，但想要产业化，还需进一步降低成本。”只有解决了效率、稳定、成本等诸多问题，DSSC才能真正走上康庄大道，云斯宁教授倍感压力，他认识到，“只有开展新原理、新结构、新方法的应用基础研究，开发出具有自主知识产权的关键核心技术，跟国际上的清洁能源技术竞争，才能从容应对。”

真抓实干、各个击破，在他看来是登顶成功的唯一途径。作为陕西省科技计划评审专家，他最常强调的就是“坚持”与“超越”。“如果一天工作8个小时，生活可以很轻松，但科研这个东西，只有不停地付出，几十年如一日的坚持，才有可能取得突破。”自2012年以来，云斯宁教授开始以每年一项新突破刷新西安建筑科技大学科研成果的发表纪录，在《Prog Polym Sci》《Energy Environ Sci》《Adv Mater》《Adv Energy Mater》《ChemSusChem》《J Mater Chem A》《Nanoscale》等国际知名期刊发表学术论文40余篇，拥有20余项专利技术，主编专著1部，参编中国、法国、印度等大学教授专著3部，之一下载量已超过99000余次。研究成果先后被陕西省人民政府、陕西省教育厅、中国建筑学会、西安建筑科技大学、《西安建大报》、精细化工国家重点实验室等多家媒体和网站报道，相关理论、方法或结果已被国内外同行采用或作为其研究的基础或起点。

2014年8月，由他撰写的综述性文章《无铂的染料敏化太阳能电池对电极》在国际材料领域权威刊物《先进材料》发表之后，更是引起了国际同行的关注。在他看来，无铂催化材料有独具优势的创新点。一方面是原材料容易获得，价格比贵金属铂要便宜很多；另一方面，制备工艺比较环保，基本对环境没污染。他举例说，目前的这种薄膜太阳能电池，希望像塑料纸一样印刷出来，这样更容易实现产业化，而溶液工艺与卷对卷大面积印刷生产是非常匹配的。此外，他们开发的无铂催化剂性能卓越，成本低廉，原材料易得，在太阳能电池、燃料电池、超级电容器、制氢、生物传感器、有机物降解、污染控制等领域具有潜在的应用前景。

揽海听风

荣誉、鲜花与掌声纷至沓来，他却波澜不惊地说：“想要满足国家的发展需求，我们就不能满足于在国内拿几个项目，而应该更关注国际上同行之间的竞争与合作。”他不仅积极参加国内外该领域的学术会议，开展科研合作，而且与日本、瑞典、美国、韩国、芬兰、德国、巴西、西班牙等国际知名机构的科学家保持长期稳定的科研合作，并且长期担任20余种国际主流SCI期刊的通讯评议人。为此，《西安建大报》刊发“国际合作我受益良多”一文，特别报道了他的国际科研合作。

在他的推荐下，相关研究成果刷新了国际同行对中国在新能源材料研究领域巨大潜力的认识。越来越多的国际同行也记住了这位年轻有为的中国青年科学家。在接受采访时，他说：“由于多学科交叉研究的特点，未来开展国际科研合作的需要会更多、更频繁。但能否建立良好的合作关系，取决于双方彼此的信任和坦诚相待，取决于自己的层次和实力。所以，不断地虚心学习、不耻下问，不断提高自己、完善自己，使自己的综合能力不断提高，才有和更高层次优秀团队合作的基础和信心。”

如他所言，新能源材料研究领域，还有更多主题亟待攻克——国际合作需要主持，科研人才需要哺育……等待中国的，是要用“创新”改变的产业格局，也是要用“坚持”写就的破局之道。

来源：科学中国人 2016年第1期