宫 建 茹

 特聘研究员,博士生导师


    北校区能源材料化学研究院311

 邮箱:gongjr@imu.edu.cn


 

 


教育及工作背景

2001-2005  中国科学院化学研究所                 理学博士

2005-2008  美国哈佛大学化学与生物化学系         博士后

2009-2012  国家纳米科学中心                     副研究员

2012-2024  国家纳米科学中心                     研究员       

2024至今  内蒙古大学绿色化学与环境研究院/化学化工学院    骏马计划A3特聘研究员

 

学术兼职

2020        Chinese Journal of Catalysis             Guest editor

2010至今   Journal of Bioterrorism and Biodefense     Editorial Board member

 

荣誉与奖励

2017       国家自然科学二等奖(排名第四)

2014       国家自然科学基金“优秀青年基金”获得者

2010       茅以升北京青年科技奖

2011       中国科学院卢嘉锡青年人才奖

2006       中国分析测试协会一等奖(排名第二)

2004       中国科学院宝洁荣誉奖

2021       北京市优秀指导教师

 

研究领域

1.     纳米光电材料和器件

2.     光电催化

 

教学

主讲化学化工学院大三《纳米技术与器件》

 

研究项目

1.  中国科学院知识创新工程重要方向,新兴与交叉学科布局试点项目,石墨烯在新能源器件领域的基础应用研究,2012/01-2016/12200万,主持。

2.  中国科学院青年创新促进会青年人才资助项目,光(电)解水制氢新型纳米催化剂研究, 2012/01-2015/12120万,主持。

3.  国家自然科学基金优秀青年基金项目,21422303,物理化学(基于石墨烯纳米材料的新型光电器件),2015/01-2017/12100万,主持。

4.  国家自然科学基金面上项目,21573049,新型手性石墨烯量子点的设计合成及选择性抗菌应用研究,2016.01 - 2019.1272万元,主持。

5.  国家自然科学基金面上项目,21872043,梯度掺杂的石墨型氮化碳纳米棒阵列光阳极制备及产氧性能研究,2019.01 - 2022.1266万元,主持。

6.  国家自然科学基金面上项目,22179028,利用微电极原位研究石墨烯基限域电催化剂, 2022/01-2025/1260 万元,主持。

7.  国家自然科学基金重大研究计划培育项目,91123003,石墨烯纳米场效应器件新制造方法的研究,2012/01-2014/1260万,主持。

8.  中国科学院院长特别基金项目,石墨烯电子能带结构调控的新方法研究,2009/10-2011/1060万,主持。

9.  北京市自然科学基金面上项目,2142036,基于多维石墨烯的光催化分解水制氢器件研究,2014/01-2016/1218万,主持。

10.   中国科学院河南产业技术创新与育成中心开放性课题,2024138,分解水制氢耦合醇氧化的电解槽研制,2014/01-2016/1220万,主持。

11.   中国科学院战略性先导科技专项(B类),XDB36000000,催化功能纳米结构构筑,2020/01-2024/124000万,科研骨干。

12.   中国科学院“一带一路”专项,纳米技术与太阳能综合利用,2018/01-2020/12285万,科研骨干。

13.   国家重点研发计划-纳米科技专项,2016YFA0201600,医用及工业纳米材料的毒理学机制与安全性评价研究, (课题1)医用及工业应用纳米材料对血液和免疫系统的作用机制,2016/06-2021/062650万,科研骨干。

14.   国家重点研发计划-纳米科技专项,2011CB933401,重要纳米材料的生物效应机制与安全性评价研究,(课题1)工作场所中纳米颗粒的释放,职业暴露与安全性研究,2011/01-2026/013050万,科研骨干。

 

代表性成果

Adv. Mater.Matter, Nano Lett.J. Am. Chem. Soc.Nano EnergyAdv. Funct. Mater.Proc. Natl. Acad. Sci. USASCI国际知名学术期刊发表文章近百篇,包括”中国百篇最具影响国际学术论文”,单篇他引2395次;主编了三本纳米材料英文书籍,撰写了三本光电催化英文书籍部分章节;授权国家发明专利近20项;在国内外高水平学术会议上做邀请报告近30次。

论文

1.       G. Xie, X.L. Liu, B. Guo, Ting Tan, J. R. Gong*. Porous 2D Catalyst Covers Improve Photoelectrochemical Water-Oxidation Performance. Advanced Materials 2024, 36, 2211008.

2.       S. Zhou, C. Jiang, J. Han, Y. Mu, J. Zhang, J. R. Gong*. High-performance Self-powered PEC Photodetectors Based on 2D BiVO4/MXene Schottky Junction. Advanced Functional Materials 2024, 2416922.

3.       C. Jiang, S. Zhou, J. Han, G. Xie, Y. Mu, J. R. Gong*, J. Zhang. SiOx Interfacial Engineering of UV/Ozone Oxidation for an Efficient Water-Reduction Metal−Insulator− Semiconductor Silicon Photocathode. ACS Catalysis 2024, 14, 17945.

4.       Y. Mu, J. Yang, G. Xie, Z. Wang, B. Guo, J. R. Gong*. Homo-type a-In2Se3/PdSe2 ferroelectric van der Waals heterojunction photodetectors with high-performance and broadband. Advanced Functional Materials 2024, 34, 2315543.

5.       G. Xie, B. Guo, J. R. Gong*. Metal Oxide/Graphene/Metal Sandwich Structure for Efficient Photoelectrochemical Water Oxidation. Advanced Functional Materials 2023, 33, 2210420.

6.       Q. Xin; H. Shah; A. Nawaz; W. Xie; M. Z. Akram; A. Batool; L. Tian; S. U. Jan; R. Boddula; B. Guo; Q. Liu; J. R. Gong*. Antibacterial Carbon-Based Nanomaterials. Advanced Materials 2018, e1804838.

7.       G. Xie; K. Zhang; B. Guo; Q. Liu; L. Fang; J. R. Gong*. Graphene-based materials for hydrogen generation from light-driven water splitting. Advanced Materials 2013, 25, 3820.

8.       Q. Li; B. Guo; J. Yu; J. Ran; B. Zhang; H. Yan; J. R. Gong*. Highly Efficient Visible-Light-Driven Photocatalytic Hydrogen Production of CdS-Cluster -Decorated Graphene Nanosheets. Journal of the American Chemical Society 2011, 133, 10878. (中国百篇最具影响国际学术论文)                                

9.       B. Guo; Q. Liu; E. Chen; H. Zhu; L. Fang; J. R. Gong*. Controllable N-doping of graphene. Nano Letters 2010, 10, 4975. (NPG Asia Materials研究亮点报道)                                 

10.    L. Tian , Q. Xin, C. Zhao, G. Xie, M. Z. Akram, W. Wang, R. Ma, X. Jia, B. Guo, J. R. Gong*. Nanoarrays for artiticial photosynthesis. Small 2021, 2006530.           

11.    Rajender Boddula, Guancai Xie, Beidou Guo, Jian Ru Gong*. Role of transition-metal electrocatalysts for oxygen evolution with Si-based photoanodes. Chinese Journal of Catalysis 2021, 42, 1387.                                       

12.    Yanlong Lv, Jian Ru Gong*. In-situ growth of MOF derived ultrafine molybdenum carbides nanoparticles supported on Ni foam as efficient hydrogen evolution electrocatalysts, Journal of materials chemistry A, 2021, 9, 15246.                       

13.    Kai Zhang, Tao Chen, Yasir Abbas, Saad Ullah Jan, Zhaohui Zhou, Shengqi Chu, Guanca Xie, Sana Ullah, Muhammad Zain Akram, Jing Zhang, Yimin Xuan, Jian Ru Gong*. Atomic arrangement matters: Bandgap variation in composition-tunable (Ga1-xZnx)(N1-xOx) nanowires. Matter 2021, 4, 1054.                              

14.    B. Guo; A. Batool; G. Xie; R. Boddula; L. Tian; S. U. Jan; J. R. Gong*. Facile Integration between Si and Catalyst for High-Performance Photoanodes by a Multifunctional Bridging Layer. Nano Letters 2018, 18, 1516.                                 

15.    M. Z. Akram; V. Atla; A. Nambo; B. P. Ajayi; J. B. Jasinski; J. He; J. R. Gong*. M. Sunkara. Low-Temperature and Fast Kinetics for CO2 Sorption Using Li6WO6 Nanowires. Nano Letters 2018, 18, 4891.                                            

16.    B. Guo; L. Tian; W. Xie; A. Batool; G. Xie; Q. Xiang; S. U. Jan; R. Boddula; J. R. Gong*. Vertically Aligned Porous Organic Semiconductor Nanorod Array Photoanodes for Efficient Charge Utilization. Nano Letters, 2018, 18, 5954.                       

17.  K. Zhang; Y. Dai; Z. Zhou; S. U. Jan; L. Guo; J. R. Gong*. Polarization-induce Saw-tooth-like Potential Distribution in Zincblende-Wurtzite Superlattice for Efficient Charge Separation. Nano Energy 2017, 41, 101.               

18.    Q. Xin; H. Zhang; Q. Liu; Z. Dong; H. Xiang; J. R. Gong*. Extracellular Biocoordinated Zinc Nanofibers Inhibit Malignant Characteristics of Cancer Cell. Nano Letters 2015, 15, 6490.                                                           

19.    G. Xie.; S. U. Jan.; Z. Dong.; Y. Dai.; R. Boddula.; Y. Wei.; C. Zhao.; Q. Xin.; J. N. Wang.; Y. Du.; L. Ma.; B. Guo; J. R. Gong*. GaP/GaPN core/shell nanowire array on silicon for enhanced photoelectrochemical hydrogen production, Chinese Journal of Catalysis, 2020, 41, 2.     

20.    S. Cao; Y. Wang; B Zhu; G. Xie; J. Yu; J. R. Gong*. Enhanced Photochemical CO2 Reduction in the Gas Phase by Graphdiyne. Journal of materials chemistry A 2020, 8, 7671.

21.    G. Xie.; L. Guan.; L. Zhang.; B. Guo.; A. Batool.; Q. Xin.; R. Boddula.; S. U. Jan.; and J. R. Gong*. Interaction-Dependent Interfacial Charge-Transfer Behavior in Solar Water-Splitting Systems. Nano Letters, 2019, 19, 1234.                

22.    W. Wang; B. Guo.; H. Dai.; C. Zhao.; G. Xie.; R. Ma.; M.Z. Akram.; H. Shan.; C. Cai.; Z. Fang; J. R. Gong*. Improving the Water Oxidation Efficiency with a Light-Induced Electric Field in Nanograting Photoanodes. Nano Letters 2019, 19, 6133.                 

23.    Q. Li; H. Meng; P. Zhou; Y. Zheng; J. Wang; J. Yu, J. R. Gong*. Zn1–xCdxS Solid Solutions with Controlled Bandgap and Enhanced Visible-Light Photocatalytic H2-Production Activity. ACS Catalysis 2013, 3, 882.                                              

24.    Q. Liu; B. Guo; Z. Rao; B. Zhang; J. R. Gong*. Strong two-photon-induced fluorescence from photostable, biocompatible nitrogen-doped graphene quantum dots for cellular and deep-tissue imaging. Nano Letters 2013, 13, 2436.                    

25.    K. Zhang; Q. Liu; H. Wang; R. Zhang; C. Wu; J. R. Gong*. TiO2 single crystal with four-truncated-bipyramid morphology as an efficient photocatalyst for hydrogen production. Small 2013, 9, 2452.                                     

26.    C. Li; G. R. Xu; B. Zhang; J. R. Gong*. High selectivity in visible-light-driven partial photocatalytic oxidation of benzyl alcohol into benzaldehyde over single-crystalline rutile TiO2 nanorods. Applied Catalysis B: Environmental 2012, 115-116, 201.      

27.    J. Zhang; J. Yu; M. Jaroniec; J. R. Gong*. Noble Metal-Free Reduced Graphene Oxide- ZnxCd1–xS Nanocomposite with Enhanced Solar Photocatalytic H2-Production Performance. Nano Letters 2012, 12, 4584.

28.    Y. T. Shen; K. Deng; X. M. Zhang; W. Feng; Q. D. Zeng; C. Wang; J. R. Gong*. Switchable ternary nanoporous supramolecular network on photo-regulation. Nano Letters 2011, 11, 3245.                                        

29.    J. Zhang; J. Yu; Y. Zhang; Q. Li; J. R. Gong*, Visible Light Photocatalytic H2-Production Activity of CuS/ZnS Porous Nanosheets Based on Photoinduced Interfacial Charge Transfer. Nano Letters 2011, 11, 4774. 

30.    J. R. Gong*. Label-free attomolar detection of proteins using integrated nanoelectronic and electrokinetic devices. Small 2010, 6, 967.

31.    J. R. Gong; H. Yan; Q. Yuan; L. Xu, Z. Bo, L. J. Wan. Controllable distribution of single molecules and peptides within oligomer template investigated by STM. Journal of the American Chemical Society 2006, 128, 12384. 

32.    J. R. Gong; L. J. Wan; Q. H. Yuan; C. L. Bai; H. Jude; P. J. Stang. Mesoscopic self-organization of a self-assembled supramolecular rectangle on highly oriented pyrolytic graphite and Au(111) surfaces. Proceedings of the National Academy of Sciences of the United States of America 2005, 102, 971.     

专著

1.   Graphene-Synthesis, Characterization, Properties and Applications. Edited by J. R. Gong. InTech: Croatia, 2011, ISBN 978-953-307-292-0.

2.   Graphene-Simulation. Edited by J. R. Gong. InTech: Croatia, 2011, ISBN 978-953-307-556-3.

3.   New Progress on Graphene Research. Edited by J. R. Gong. InTech: Croatia, 2013, ISBN 978-953-51-1091-0.

4.   J. R. Gong for Chapter: Roles of Reduced Graphene Oxide in Improving Photocatalytic Hydrogen Generation Performance over Metal Sulphide Nanocomposites in Nanomaterials in Energy and Environmental Applications. Edited by Junhui He. Pan Stanford Publishing: Singapore, 2015, ISBN 9789814463782.

5.   J. R. Gong for Chapter: Graphene-Based Solar-Driven Water-Splitting Devices in Graphene-Based Energy Devices. Edited by A. Rashid bin Mohd Yusoff. Wiley-VCH: Weinheim, 2015, ISBN 978-3-527-33806-1.

6.   J. R. Gong for Chapter: Chemical Modification of Graphene for Optoelectronic applications in Chemical Functionalization of Carbon Nanomaterials: Chemistry and Applications. Edited by Vijay Kumar Thakur, Manju Kumari Thakur. Taylor & Francis: Oxford, 2015, ISBN 9781482253948.