姓名

姜全國

性别

男

民族

漢

籍貫

山東

出生年月

1984.11

政治面貌

中共黨員

最高學曆

研究生

最高學位

博士

現任職務

無

技術職稱

副研究員

通訊☯⚜☯

南京市江甯區佛城西路8号 河海大學力學與材料學院

電話

Email

quanguoc110@163.com

學習、工作經曆、主要研究方向、業績成果（教學、科研等）、榮譽稱号：

近年來發表學術論文30餘篇，其中以第一/共同第一作者發表論文16篇，總引用400餘次，單篇最高引用78次，H-index：14   (ISI網站數據)。獲江蘇省科學技術獎、江蘇省教育科學研究成果獎各一項。主持國家自然科學基金、國家博士後基金、中央高校業務費、企業橫向等多項課題。擔任Applied Energy, J. Phys.   Chem.C等多個國際著名SCI期刊的審稿人。

學習經曆：

2004.09-2008.07，畢業于吉林大學，金屬材料工程，獲工學學士學位；

2008.09-2014.06，畢業于吉林大學，材料學專業，獲工學博士學位；

2012.12-2013.12，新南威爾士大學 (悉尼)，材料學專業，博士聯合培養。

工作經曆：

2014.07-至今，力學與材料學院，材料科學與工程系，副研究員（碩導）。

主要研究方向：

(1)環境功能材料設計；

(2)燃料電池電極材料設計；

(3)電子信息材料設計。

獲獎榮譽：

(1)2016年度“江蘇省科學技術獎”三等獎（排名5）；

(2)2016年度“江蘇省教育科學研究成果獎（自然科學獎）”三等獎（排名5）。

代表性期刊論文：

(1)Q.G. Jiang, J.F. Zhang, H.J. Huang, Y.P. Wu, Z.M. Ao. Strain   Effect on the Dissociation of Water Molecules on Silicene: Density Functional   Theory Study. J. Phys. Chem. C 2019,   0.1021/acs.jpcc.9b00426. (IF= 4.484)

(2) Q.G.   Jiang, J.F. Zhang, Z.M. Ao, H.J. Huang, H.Y He, Y.P. Wu. First   Principles Study on the CO Oxidation on Mn-Embedded Divacancy Graphene. Front.   Chem. 2018, 6, 1-11. (IF=4.155)

(3) Q.G.   Jiang, J.F. Zhang, Z.M. Ao, Y.P. Wu, H.J. Huang. Tuneable electronic   and magnetic properties of hybrid silicene/silicane nanoribbons induced by   nitrogen doping. Thin Solid Films 2018, 653, 126-135.   (IF=1.939)

(4) Minmin   Yan†, Quanguo Jiang†(共同一作), Tao Zhang, Jiayu Wang, Lu Yang, Zhiyong Lu, Haiyan He,Yongsheng Fu,   Xin Wang, and Huajie Huang. Three-dimensional low-defect carbon   nanotube/nitrogen-doped graphene hybrid aerogel-supported Pt nanoparticles as   efficient electrocatalysts toward methanol oxidation reaction. J.   Mater. Chem. A 2018, 6, 18165-18172. ( IF=9.931)

(5) Miaomiao   Li†, Quanguo Jiang†(共同一作), Minmin Yan, Yujie Wei, Jianbo Zong, Jianfeng Zhang, Yuping Wu,and   Huajie Huang. Three-Dimensional Boron- and Nitrogen-Codoped Graphene   Aerogel-Supported Pt Nanoparticles as Highly Active Electrocatalysts for   Methanol Oxidation Reaction. ACS Sustainable Chem. Eng. 2018,   6 (5), 6644-6653. (IF=6.140)

(6) Q.G.   Jiang, W.C. Wu, J.F. Zhang, Z.M. Ao, Y.P. Wu, H.J. Huang. Defections   induced hydrogenation of silicene: a density functional theory calculation   study. RSC Advances 2016, 6, 69861. (IF=2.936)

(7) Q.G.   Jiang, J.F. Zhang, Z.M. Ao, Y.P. Wu. Density functional theory study   on the electronic properties and stability of silicene/silicane   nanoribbons. J. Mater. Chem. C 2015, 3(16), 3954-3959.   (IF=5.976)

(7) Q.G.   Jiang, J.F. Zhang, Z.M. Ao, Y.P. Wu. First Principles Study on the   Electronic Structure and Interface Stability of Hybrid   Silicene/Fluorosilicene Nanoribbons. Sci. Rep. 2015, 5, 15734. (   IF=4.122)

(8) Q.G.   Jiang, Z.M. Ao, S. Li, Z. Wen. Density Functional Theory   Calculations on the CO Catalytic Oxidation on Al-Embedded Graphene. RSC   Advances 2014, 4, 20290. (IF=2.936)

(9)Q.G.   Jiang, Z.M. Ao, W.T. Zheng, S. Li, Q. Jiang. Enhanced Hydrogen   Sensing Properties of Graphene by Introducing Mono-atom-vacancy, Phys.   Chem. Chem. Phys. 2013, 15, 21016. (IF=3.906)

(10) Q.G.   Jiang, Z.M. Ao, Q. Jiang. First principles study on the hydrophilic   and conductive graphene doped with Al atom, Phys. Chem. Chem. Phys. 2013,   15, 10859. (IF=3.906)

(11) Q.G.   Jiang, Z.M. Ao, D.W. Chu, Q. Jiang. Reversible transition of graphene   from hydrophobic to hydrophilic in the presence of an electric field, J.   Phys. Chem. C 2012, 116, 19321. (IF= 4.484)

(12) Q.G.   Jiang, Z. Wen, Q. Jiang. Enhanced doping efficiency of the remotely p-doped InAs/InP   core-shell nanowires: The first principles study, Solid State Commun.   2012, 152, 2120. (IF=1.549)

(13) X.M. Guo, J.Y. Ji, Q.G. Jiang,   L.L. Zhang, Z.M. Ao, X.B. Fan, S.B. Wang, Y. Li, F.B. Zhang, G.L. Zhang, W.C.   Peng.Few-layered Trigonal WS₂ Nanosheets Coated Graphite Foam   as an Efficient Free-standing Electrode for Hydrogen Evolution   Reaction. ACS Appl. Mater. Interfaces 2017, 9 (36),   30591-30598. ( IF=8.097)

(14) H.J. Huang, J.X. Zhu, D.B Li, C. Shen, M.M Li, X. Zhang, Q.G.   Jiang, J.F. Zhang, Y.P. Wu. Pt nanoparticles grown on 3D RuO₂-modified   graphene architectures for highly efficient methanol oxidation. J.   Mater. Chem. A 2017, 5(9) 4560-4567. ( IF=9.931)

(15) X. Zhang, J.F. Zhang, H.J. Huang, Q.G.   Jiang, Y.P. Wu. Platinum nanoparticles anchored on graphene   oxide-dispersed pristine carbon nanotube supports: High-performance   electrocatalysts toward methanol electrooxidation. Electrochimica   Acta 2017 ( IF=5.116)

(16) H.B.Wang, J.F. Zhang, Y.P. Wu, H.J. Huang, Q.G. Jiang.   Achieving high-rate capacitance of multi-layer titanium carbide (MXene) by   liquid-phase exfoliation through Li-intercalation. Electrochemistry   Communications 2017, 81, 48-51. ( IF=4.660)

(17) H. J. Huang, L.L. Ma, C.S. Tiwary, Q.G. Jiang, K.B.   Yin, W. Zhou, P.M. Ajayan. Worm-Shape   Pt Nanocrystals Grown on Nitrogen-Doped Low-Defect Graphene Sheets: Highly   Efficient Electrocatalysts for Methanol Oxidation Reaction.Small 2016,   13(10) 1603013.( IF=9.598)

(18) H.J. Huang, J.X. Zhu, W.Y. Zhang, C.   S. Tiwary, J.F. Zhang, X. Zhang, Q.G. Jiang, H.Y. He, Y.P. Wu, W. Huang, P.M. Ajayan, Q.Y. Yan. Controllable   Codoping of Nitrogen and Sulfur in Graphene for Highly Efficient Li-Oxygen   Batteries and Direct Methanol Fuel Cells. Chem. Mater. 2016,   28, 1737−1745. ( IF=9.890)

(19) X. Zhang, C.M. Tang, Q.G. Jiang. Electric field   induced enhancement of hydrogen storage capacity for Li atom decorated   graphene with Stone-Wales defects. Int. J. Hydrogen. Energy. 2016,   41, 10776–10785. ( IF=4.229)

(20) Z.M. Ao, Q.G. Jiang, S. Li, H. Liu, F. M.   Peeters, Sean Li, G.X. Wang. Enhancement of the stability of fluorine atoms   on defective graphene and at graphene/fluorographene interface. ACS   Appl. Mater. Interfaces 2015, 7 (35), 19659–19665. ( IF=8.097)

課題組擁有豐富的高性能計算資源、充足的研究經費，歡迎具有材料、物理、化學等專業背景的研究生和本科生加入。

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