师资队伍

张振龙

发布日期: 2015年06月04日 00:00


张振龙,男,教授,硕士生导师。

个人经历

1992.09 – 1996.07beat365网页版登录官网,获理学学士学位

2001.09 – 2004.07beat365网页版登录官网,获理学硕士学位

2004.10 – 2008.03日本综合研究大学院大学,获理学博士学位

2008.4–现在beat365网页版登录官网,副教授,教授


研究方向及讲授课程

主要承担本科生的《光电子技术》和《光电检测技术》等课程。目前主要从事光电功能材料与器件的研究。


科研业绩

1.发表论文

(1) Q. Zhou, W.B. Ma,Z.L. Zhang*(通讯作者), Y.F. Liu, H.F. Zhang, Y.L. Mao, Double-layered hole transport material of CuInS2/Spiro for highly efficient and stable perovskite solar cells. Org. Electron., 2021, 96:106249.

(2) M.E. Ma, Q. Zhou, W.B. Ma,Z.L. Zhang*(通讯作者), M. Kang, W. Gao, X.Q. Ma, Y.F. Liu, Y.L. Mao, Alloyed (Cu2SnS3)x(ZnS)1-xQuantum Dots as a Hole-transporting Layer for Efficient and Stable Perovskite Solar Cells. Solar Energy, 2021, 224:1170.

(3) Z.L. Zhang, Y.Y. Liu, P.Y. Zhang, Y.L. Mao, Natural passivation of the perovskite layer by oxygen in ambient air to improve the efficiency and stability of perovskite solar cells simultaneously. Org. Electron., 2021, 88:106007.

(4) S.K. Yang, W.B. Ma,Z.L. Zhang*(通讯作者), J.C. Zhu, Y.F. Liu, H.F. Zhang, Y.L. Mao, Inverted perovskite solar cells based on inorganic hole transport material of CuInS2with high efficiency and stability. Solar Energy, 2021, 230:485.

(5) Y. Zhang,Z.L. Zhang*(通讯作者), Y.F. Liu, H.P. Gao, Y.L. Mao, Short-chain ligands capped CuInSe2quantum dots as hole transport material for inverted perovskite solar cells. Materials Science in Semiconductors Processing, 2020, 120:105267.

(6) W.B. Ma,Z.L. Zhang*(通讯作者), M.E. Ma, Y.F. Liu, G.C. Pan, H.P. Gao, Y.L. Mao, CuGaS2quantum dots with controlled surface defects as an hole-transport material for high-efficient and stable perovskite solar cells. Solar Energy, 2020, 211:55-61.

(7) Y.L. Liu,Z.L. Zhang*(通讯作者), H.P. Gao, H.F. Zhang, Y.L. Mao, A novel inorganic hole-transporting material of CuInS2 for perovskite solar cells with high efficiency and improved stability. Organic Electronics, 2019, 75:105430.

(8) Y. Zhang,Z.L. Zhang*(通讯作者), Y.Y. Liu, H.P. Gao. Y.L. Mao, An inorganic hole-transport material of CuInSe2for stable and efficient perovskite solar cells. Org. Electron., 2019, 67:168.

(9) J.Q. Qin,Z.L. Zhang*(通讯作者), W.J. Shi, Y.Y. Liu, H.P. Gao. Y.L. Mao,Enhanced Performance of Perovskite Solar Cells by Using Ultrathin BaTiO3Interface Modification. ACS Appl. Mater. Interfaces, 2018, 10:36067.

(10)Z.L. Zhang, D.N. Li, W.J. Shi,Y.Y. Liu, Y. Zhang,Liu,Y.F. Liu, H.P. Gao, Y.L. Mao. A new up-conversion material of Ho3+-Yb3+-Mg2+tri-doped TiO2and its applications to perovskite solar cells.Nanoscale Res. Lett., 2018, 13:262.

(11) W.J. Shi,Z.L. Zhang*(通讯作者),J.Q. Qin, Y. Zhang, Y.Y. Liu,Y.F. Liu, H.P. Gao, Y.L. Mao. Interface modification by up-conversion material of Ho3+-Yb3+-Li+tri-doped TiO2to improve the performance of perovskite solar cells. J. Alloy Compd., 2018, 754:124.

(12)Z.L. Zhang, J.Q. Qin, W.J. Shi, Y.Y. Liu, Y. Zhang, .F. Liu, H.P. Gao. Y.L. Mao. Enhanced power conversion efficiency of perovskite solar cells with an up-conversion material of Er3+-Yb3+-Li+tri-doped TiO2. Nanoscale Res. Lett., 2018, 13:147.

(13) J.Q. Qin,Z.L. Zhang*(通讯作者), W.J. Shi, Y.F. Liu, H.P. Gao. Y.L. Mao. The optimum titanium precursor of fabricating TiO2compact layer for perovskite solar cells.Nanoscale Res. Lett., 2017, 12:640.

(14) X.L. Wang,Z.L. Zhang*(通讯作者), J.Q. Qin, W.J. Shi, Y.F. Liu, H.P. Gao, Y.L. Mao, Enhanced Photovoltaic Performance of Perovskite Solar Cells Based on Er-Yb Co-doped TiO2Nanorod Arrays. Electrochim. Acta, 2017, 245:839-845.

(15)Z.L. Zhang, J.F. Li, X.L. Wang, J.Q. Qin, Y.F. Liu, W.J. Shi, H.P. Gao, Y.L. Mao, Enhancement of perovskite solar cells efficiency using N-doped TiO2nanorod arrays as electron transfer layer.Nanoscale Res. Lett., 2017, 12:43.

(16)Z.L. Zhang, J.F. Li, X.L. Wang, J.Q. Qin, Y.F. Liu, W.J. Shi, H.P. Gao, Y.L. Mao, Growth of Zr/N-codoped TiO2nanorod arrays for enhanced photovoltaic performance of perovskite solar cells.RSC Adv., 2017, 7:13325.

(17)Z.L. Zhang, B.Q. Men, Y.F. Liu, H.P. Gao, Y.L. Mao, Effects of precursor composition on the performance and I-V hysteresis of CH3NH3PbI3-xClxbased perovskite solar cells.Nanoscale Res. Lett., 2017, 12:84.

(18) J.F. Li,Z.L. Zhang*(通讯作者), H.P. Gao, Y.Zhang, Y.L. Mao, Effect of solvents on the growth of TiO2nanorods and their perovskite solar cells.J. Mater. Chem. A, 2015, 3:19476-19482.

(19)Z.L. Zhang, M.L. Wang, Y.L. Mao, Effects of trap density on separation efficiency of photogenerated carriers for Sb-SnO2/TiO2heterojunction semiconductors.Materials Technology, 2015, 30:2.

(20)Z.L. Zhang, W.H. Ma, Y.L. Mao,Enhanced separation efficiency of photoinduced charges for antimony-doped tin oxide (Sb-SnO2)/TiO2heterojunction semiconductors with varied Sb doping concentration. Journal of Applied Physics, 2014, 116: 094902.

(21)Z.L. Zhang, J.C. Zhu, S.J. Li, X.Y. Liu, Y.L. Mao, Enhanced photoelectrochemical properties of TiO2nanotube arrays sensitized with energy-band tunable (Cu2Sn)x/3Zn1-xS nanoparticles,Int. J. Hydrogen Energ.,2014, 39:4198-4205.

(22)Z.L. Zhang, J.C.Zhu, S.J. Li, Y.L. Mao, Contributions of conduction band offset to the enhanced separation efficiency of photoinduced charges for SrTiO3/Bi2O3heterojunction semiconductor.J. Solid State Chem.,2014, 211:120.

(23)Z.L. Zhang, G.S. Liu, Y.L. Mao, Improved Separation Efficiency of Photogenerated Carriers for Fe2O3/SrTiO3Heterojunction Semiconductor,Int. J. Hydrogen Energ., 2013, 38:9349.

(24)Z.L. Zhang, D.N Li,Y.L. Mao, Effects of trap density on the surface-enhanced Raman scattering of molecules adsorbed on TiO2(Degussa P25),J. Raman Spectrosc., 2012, 43: 1920.

2.主持项目

(1)河南省自然科学基金面上项目,基于FA0.83Cs0.17Pb(I1-xBrx)3的稳定性好能吸收近红外光的钙钛矿太阳电池研究,2017.1-2018.12。

(2)河南省科技厅项目,Cu2ZnSn(SxSe1-x)4/TiO2纳米管阵列光生电荷行为及其太阳能电池研究,2014.02-2016.02。

(3)中国博士后科学基金面上项目,Cu2ZnSn(SxSe1-x)4/TiO2纳米管阵列光生电荷行为研究,No.2013M531664,2014.01-2015.12

(4)教育部留学回国人员科研启动基金,新型TiO2基复合染料敏化太阳能电池电极材料光电性质研究,2014.01-2015.12。

(5)河南省高等学校重点科研项目,Cu2ZnSnS4半导体纳米晶的制备及其在太阳能电池中的应用,No.13A140099,2013.01-2014.12。

(6)河南省教育厅科学研究重点项目,基于TiO2纳米柱阵列的CH3NH3I3-xClx钙钛矿太阳电池研究,No.17A140005,2017.01-2018.12。

3.授权专利:

(1)张振龙、石文佳、毛艳丽。TiO2掺杂材料及其制备方法和应用,授权日:2020.11.24。

(2)张振龙、毛艳丽、张艳。一种基于无机量子点铜铟硒的钙钛矿太阳能电池及其制备方法,授权日:2020.9.7。

(3)张振龙、石文佳、毛艳丽。一种钬-镱-锂共掺杂二氧化钛纳米材料、其制备方法和钙钛矿太阳能电池,授权日:2020.8.18。

(4)张振龙、毛艳丽、石文佳。一种钬镱镁掺杂二氧化钛量子点的制备方法及其在钙钛矿电池中的应用,授权日:2020.5.5。

(5)张振龙、秦建强、毛艳丽。一种基于钛酸钡界面修饰层的钙钛矿太阳能电池及其制备方法,授权日:2019.12.3。

(6)毛艳丽、张振龙、马梦恩。一种铜锡硫与ZnS合金量子点及用其制备的钙钛矿电池,授权日:2021.4.20。