仲鵬

2003年09月-2007年07月 西安交通大學， 本科

2007年09月-2012年12月 西安交通大學， 博士

2011年02月-2011年08月 新加坡南洋理工大學， 訪問

2013年08月 台灣新竹交通大學， 訪問

2013年05月-2017年6月 西安電子科技大學， 講師

2017年07月-至今 西安電子科技大學， 副教授

1、新型太陽能電池材料與器件（鈣鈦礦、染料敏化、量子點等）；

針對常規太陽能電池（如矽和CIGS薄膜）存在的製備流程複雜、價格偏高、效率已近極限和不能彎曲等問題，開發基於新型半導體材料的太陽能電池（如有機-無機雜化鈣鈦礦太陽能電池），有望進一步提高器件的光電轉換效率，可採用印刷等工藝大幅降低製造成本，並可製成柔性或半透明器件套用於便攜電子、建築物集成等領域，從而滿足人民日益增長的美好生活需要。

2、光電化學、光熱轉換材料與技術（光催化、太陽能海水淡化等）；

針對全球能源危機、環境污染和水資源短缺等問題，拓展太陽能的其他利用形式（例如光電化學轉換和光熱轉換），典型的例子是：利用光催化過程製取氫氣、還原CO₂以及降解大氣和水中的有機污染物；利用光熱轉換過程蒸發海水（或鹹水、污水等），獲得清潔的水資源。重點關注設計和篩選高效的光活性材料及研究上述過程中的物理化學機制，並努力設計並最佳化反應系統。

3、納米材料的製備與套用（製備量子點、納米線/管、二維材料等，並套用於清潔能源、顯示照明、環境資源、無線通訊等領域）

對各種納米結構的製備和套用有廣泛的興趣，例如鈣鈦礦量子點、氧化物半導體納米結構陣列和二維過渡金屬碳/氮化物MXene等等，並探索其在清潔能源、顯示照明、環境資源、無線通訊等領域的潛在套用。

主要承擔國家重點研發計畫-納米科技重點專項課題、國家自然科學基金青年基金、陝西省自然基金-青年人才項目、寧波市自然基金、中央高校基本科研業務費等項目；以骨幹成員身份參與國家863、自然基金重大專項、自然基金面上項目、陝西省平台資源共享項目、套用材料創新基金等。

[1] P. Zhong*, XP. Chen, BQ. Niu, C. Li, YC. Wang. H. Xi, YM. Lei, ZN. Wang, XH. Ma*, Niobium doped TiO₂nanorod arrays as efficient electron transport materials in photovoltaic, Journal of Power Sources, 2020,

[2] YM Lei*, X. Lin, DK Wu, Z. Wang, P. Zhong, XH. Ma*, J. Sun*, Diverse Interface Structures in TiO₂(B)/Anatase Dual‐Phase Nanofibers, Advanced Materials Interfaces, 2020,

[3] C. Li, ZN. Zhu, YM. Wang, Q. Guo, CY. Wang, P. Zhong, Z. Tan*, R. Yang*, Lead acetate produced from lead-acid battery for efficient perovskite solar cells, Nano Energy, 2020

[4] YM. Lei*, X. Lin, QH. Hu, NY. Cui, P. Zhong, XH. Ma, J. Sun*, The Prediction of Carbothermal Reduction Reaction Induced Ti₄O₇/Ti₅O₉ Interface Structures in Titanium Oxide Nanosystems, Advanced Materials Interfaces, 2018,

[5] P. Zhong, H. Xi, XH. Ma*, Passivating ZnO Surface States by C60 Pyrrolidine Tris-Acid for Hybrid Solar Cells Based on Poly(3-hexylthiophene)/ZnO Nanorod Arrays, Polymers, 2018

[6] P. Zhong*, XP. Chen, QY. Jia, GQ. Zhu, YM. Lei, H. Xi, Y. Xie, XJ. Zhou, XH. Ma*, Annealing temperature dependent electronic properties in hydrothermal TiO₂ nanorod arrays, Journal of Solid State Electrochemistry, 2018,

[7] H. Xi,*DZ. Chen,L. Lv,P. Zhong,ZH. Lin,JJ. Chang,H Wang,B. Wang,XH Ma*,CF. Zhang*, High performance transient organic solar cells on biodegradable polyvinyl alcohol composite substrates, RSC Advances, 2017,

[8] P. Zhong*, XP. Chen, H. Xi, YM. Lei, XH. Ma*, Freeze Drying as a Novel Approach to Improve Charge Transport in Titanium Dioxide Nanorod Arrays, Chemelectrochem, 2017,

[9] H. Xi*, S. Tang, XH. Ma, JJ. Chang, DZ. Chen, ZH. Lin, P. Zhong, H. Wang, CF. Zhang*, Performance Enhancement of Planar Heterojunction Perovskite Solar Cells through Tuning the Doping Properties of Hole-Transporting Materials, ACS Omega, 2017,

[10] K. Gu, P. Zhong*,MQ. Guo,J. Ma,Q. Jiang,S. Zhang, XJ. Zhou,Y. Xie,XH. Ma,Y. Wang, Sonication-polished anodic TiO₂ nanotube array-based photoanode for efficient solar energy conversion, Journal of Solid State Electrochemistry, 2016,

[11] XJ. Zhou, SW. Guo*,P. Zhong,Y. Xie,ZM. Li,XH. Ma*,Large scale production of graphene quantum dots through the reaction of graphene oxide with sodium hypochlorite, RSC Advances, 2016,

[12] P. Zhong, XH. Ma*, XP. Chen, R. Zhong, XH. Liu, DJ. Ma, ML. Zhang, ZM. Li, Morphology-controllable TiO₂ nanorod arrays for enhanced electron collection in dye-sensitized solar cells, Nano Energy, 2015,

[13] P. Zhong*, YL. Liao, WX. Que*, QY. Jia, TM. Lei, Enhanced electron collection in photoanode based on ultrafine TiO₂ nanotubes by a rapid anodization process, Journal of Solid State Electrochemistry, 2014,

[14] P. Zhong, WX. Que*, J. Zhang, Y. Yuan, YL. Liao, XT. Yin, LB. Kong, X. Hu, Enhancing the performance of poly(3-hexylthiophene)/ZnO nanorod arrays based hybrid solar cells through incorporation of a third component, Science China-Physics Mechanics & Astronomy, 2014,

[15] YL. Liao*, HW. Zhang*, J. Li,GL. Yu,ZY. Zhong,FM. Bai,LJ. Jia,SH. Zhang,P. Zhong, Ferromagnetism at room temperature in Cr-doped anodic titanium dioxide nanotubes, Journal of Applied Physics, 2014,

[16] P. Zhong, WX. Que*, YN. Liang, XT. Yin, YL. Liao, LB. Kong, X. Hu*, Origin of the boosted exciton separation at fullerene molecule modified ZnO/poly(3-hexylthiophene) interfaces, RSC Advances, 2013,

[17] YL. Liao*, HW. Zhang*, ZY. Zhong, LJ. Jia, FM. Bai, J. Li, P. Zhong, H. Chen, J. Zhang, Enhanced visible-photocatalytic activity of anodic TiO₂ nanotubes film via decoration with CuInSe₂ nanocrystals, ACS Applied Materials & Interfaces, 2013,

[18] YL. Liao*, HW. Zhang*, WX. Que, P. Zhong, ZY. Zhong, FM. Bai, QY. Wen, WH. Chen, Activating the single-crystal TiO₂ nanoparticles film with exposed {001} facets, ACS Applied Materials & Interfaces, 2013,

[19] YL. Liao, WX. Que*, J. Zhang, P. Zhong, Y. Yuan, FY. Shen, Quantum dots coupled ZnO nanowire-array panels and their photocatalytic activities, Journal of Nanoscience and Nanotechnology, 2013,

[20] HX. Xie, WX. Que*, ZL. He, P. Zhong, YL. Liao, Preparation and Photocatalytic Activities of Sb₂S₃/TiO₂ Nanotube Coaxial Heterogeneous Structure Arrays via an Ion Exchange Adsorption Method, Journal of Alloys and Compounds, 2013,

[21] P. Zhong, WX. Que*, J. Chen, X. Hu*, Elucidating the role of ultrathin Pt film in back-illuminated dye-sensitized solar cells using anodic TiO₂ nanotube arrays, Journal of Power Sources, 2012,

[22] P. Zhong, WX. Que*, YL. Liao, J. Zhang, X. Hu*, Improved performance in dye-sensitized solar cells by rationally tailoring anodic TiO₂ nanotube length, Journal of Alloys and Compounds, 2012,

[23] YL. Liao, WX. Que*, QY. Jia, YC. He, J. Zhang, P. Zhong, Controllable synthesis of brookite/anatase/rutile TiO₂ nanocomposites and single-crystalline rutile nanorods array, Journal of Materials Chemistry, 2012,

[24] QY. Jia, WX. Que*, XK. Qiu, P. Zhong, J. Chen, Preparation of hierarchical TiO₂ microspheres for enhancing photocurrent of dye sensitized solar cells, Science China-Physics Mechanics & Astronomy, 2012,

[25] J. Zhang, WX. Que*, Y. Yuan, P. Zhong, YL. Liao, Preparation of Al-doped ZnO nanocrystalline aggregates with enhanced performance for dye adsorption, Science China-Physics Mechanics & Astronomy, 2012,

[26] P. Zhong, WX. Que*, X. Hu, Direct imprinting of ordered and dense TiO₂ nanopore arrays by using a soft template for photovoltaic applications, Applied Surface Science, 2011,

[27] P. Zhong, WX. Que*, J. Zhang, QY. Jia, WJ. Wang, YL. Liao, X. Hu*, Charge transport and recombination in dye-sensitized solar cells based on hybrid films of TiO₂ particles/TiO₂ nanotubes, Journal of Alloys and Compounds, 2011,

[28] FY. Shen, WX Que*, P. Zhong, J. Zhang, XT. Yin, Trigonal pyramidal CuInSe₂ nanocrystals derived by a new method for photovoltaic applications, Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2011,

[29] GQ. Zhu, WX. Que*, J. Zhang, P. Zhong, Photocatalytic activity of SnWO₄ and SnW₃O₉ nanostructures prepared by a surfactant-assisted hydrothermal process, Materials Science and Engineering B-Advanced Functional Solid-State Materials, 2011,

[30] J. Zhang, WX. Que*, QY. Jia, P. Zhong, YL. Liao, XD. Ye, YC. Ding, Novel bil[ant]ayer structure ZnO based photoanode for enhancing conversion efficiency in dye-sensitized solar cells, Journal of Alloys and Compounds, 2011,

[31] YL. Liao, WX. Que*, P. Zhong, J. Zhang, YC. He, A facile method to crystallize amorphous anodized TiO₂ nanotubes at low temperature, ACS Applied Materials & Interfaces, 2011,

[32] YL. Liao, WX. Que*, J. Zhang, P. Zhong, YC. He, A facile method for rapid preparation of individual titania nanotube powders by a two-step process, Materials Research Bulletin, 2011,

[33] P. Zhong, WX. Que*, Highly ordered TiO₂ nano-pore arrays fabricated from a novel polymethylmethacrylate /polydimethylsiloxane soft template, Nano-Micro Letters, 2010,

[34] P. Zhong, WX. Que*, J. Zhang, Fabrication of regular TiO₂ nanoporous films derived by combining nanoimprint technique with sol-gel method, Journal of Nanoscience and Nanotechnology, 2010,

[35] J. Zhang, WX. Que*, P. Zhong, GQ. Zhu, p-Cu₂O/n-ZnO nanowires on ITO glass for solar cells, Journal of Nanoscience and Nanotechnology, 2010,

[36] 仲鵬，闕文修,朱剛強，納米壓印法製備規則TiO₂納米孔陣列薄膜,中國科技論文線上[J]. [2009-12-1].

[1] 一種多層次TiO₂納米結構陣列材料的製備方法，授權公告日：2017年9月29日，發明人：仲鵬，馬曉華，謝涌，周雪皎。

[2] 高介電損耗鈦矽碳粉體微波吸收劑的製備方法，授權公告日：2016年4月20日，發明人：李智敏，黃雲霞，張茂林，馬曉華，仲鵬。

[3] 一種異質結薄膜光伏器件的製備方法，發明人：仲鵬，陳新鵬，馬曉華，賈巧英，習鶴。

[4] 一種基於CuInSe₂/MXene納米複合材料的海水淡化結構，發明人：仲鵬，王騰，王玉，劉媛，張興茂，支元宏，馬曉華。

[5] 一種二維層狀納米材料MXene量子點的製備方法，發明人：仲鵬，張興茂，王昱程，雷毅敏，馬曉華。

1. 陝西高等學校科學技術一等獎，仲鵬，2018年。

2. 全國大學生國家級創新創業項目優秀指導教師獎，仲鵬，2017年。

3. 陝西省高校科協青年人才托舉計畫，仲鵬，2016年。

1.《線性代數》—— 通識教育基礎課，春季學期，40學時；課程入口網站

2.《太陽能利用進展》—— 通識教育選修課，秋季學期，16學時；

1.《功能複合材料》—— 研究生專業選修課，32學時。