基本情况曹大威,教授(三级),博士生导师。德国“洪堡学者”,江苏特聘教授,江苏省“六大人才高峰”高层次人才,江苏省双创团队骨干成员。主要从事能源材料与器件以及光电探测等研究,包括光催化、超级电容器、光电探测器等。在Nano Lett., Nat. Commun., Angew. Chemie Int. Ed.等著名期刊发表高质量学术论文八十余篇,先后主持2项国家自然科学基金(面上和青年)、3项省部级项目以及1项横向课题。曾获得江苏省优秀博士毕业论文。目前担任江苏大学集成电路学科带头人,并担任镇江市物理学会理事。主讲本科生课程《物理学导论》《半导体材料物理》和研究生课程《光电子学》《薄膜物理与技术》等课程。Email:dwcao@ujs.edu.cn;手机:13952888797
研究领域与招生专业研究领域:凝聚态物理、能量转换与存储、功能材料物理招生专业:材料科学与工程(博士)、物理学(硕士)、集成电路科学与工程(硕士)、光电信息工程(硕士)
科研项目1.国家自然科学基金项目(面上):基于自激发耦合双势场的Z-scheme产氢光电极构筑及其界面动态调控机制研究,52272213,主持2.江苏省双创团队-子项目,主持3.国家自然科学基金项目(青年):三维纳米阵列铁电光伏电池的制备与研究,51702130,主持4.“江苏特聘教授”人才项目,主持5.江苏省自然科学基金项目:高效智能化铁电光解水器件的制备与机理研究,BK20170550,主持6.江苏省“六大人才高峰”第十四批高层次人才项目,主持7.企业横向项目:基于电解法石墨烯的浆料开发,主持8.江苏大学高级人才启动基金:纳米铁电材料光电极制氢应用研究,主持
学术论文与专著学术论文2024年[82] T. Han, H. Sun, J. Hu, N. Sun, Y. Liu, J. Chen, M. Chen, D. Cao, Self-assembly of porous curly graphene film as an efficient gas diffusion layer for high-performance Zn-air batteries, Carbon 223 (2024) 119025.[81] Z. Zhi, C. Qin, H. Zhang, Y. Xie, C. Zhang, Y. Liu, M. Chen, D. Cao, Enhancing photoelectrochemical properties of α-Fe2O3 using Zr-doped HfO2 ferroelectric nanoparticles, J Alloys Compd 995 (2024) 174851.[80] M. Ashtar, J. Yang, Y. Yang, K.M. Al-Ahmary, D. Cao, Improved photodetection performance of self-powered UV photodetector based on PZT/CuSCN heterojunction, Solar Energy Materials and Solar Cells 270 (2024) 112812.[79] J. Yang, Y. Xie, C. Zhu, S. Chen, J. Wei, Y. Liu, M. Chen, D. Cao, Enhancing ferroelectric performance in hafnia-based MFIS capacitor through interface passivation and bulk doping, Nanotechnology 35 (2024) 235704.[78] S. Jiang, C. Wang, C. Zhang, M. Chen, H. Zhang, Y. Liu, D. Cao, Solution-Processed NiO/Si Heterojunctions for Efficient Self-Powered UV-Vis-NIR Broadband Photodetection, ACS Appl Electron Mater 6 (2024) 2525–2533.[77] S. Chen, M. Chen, H. Zhang, D. Cao, Filterless Narrowband Photodetectors Based on Solution-Processed CH3NH3PbBr3 Microcrystal/Indium Tin Oxide Heterojunctions, ACS Applied Optical Materials 2 (2024) 664–669.2023年[76] P. Cheng, P. Chen, M. Chen, H. Zhang, D. Cao, Q. Wang, Self-sacrifice PbI2 seed layer-assisted crystal growth for improved perovskite thin films for efficient and stable transportation layer-free photodetectors, Appl. Phys. Lett. 123 (2023) 223301.[75] H. Sun, S. Chen, W. Tian, Y. Liu, J. Chen, M. Chen, D. Cao, Universal self-assembly of graphene-based composites as free-standing hierarchical electrodes for high-performance aqueous hybrid capacitors, J. Power Sources. 588 (2023) 233737.[74] P. Cheng, T. Zhao, M. Chen, S. Chen, X. Shen, Y. Liu, S. Yang, Z. Chen, X. Dong, Q. Wang, D. Cao, Improved Perovskite CH3NH3PbI3 Thin Films by ZIF-67 Additive Assisted Co Ion Doping toward High-Performance and Stable Photodetectors, Adv. Opt. Mater. 11 (2023) 2300757.[73] Y. Fu, L. Xu, W. Tian, Y. Liu, D. Cao, Q. Wang, Self-assembly of free-standing surface-oxidized multilayer graphene film for high volumetric supercapacitors, Carbon. 213 (2023) 118286.[72] M. Ashtar, M.A. Marwat, Z. Li, Y. Yang, D. Cao, Optoelectronic and Photocatalytic Properties of SiC and VXY (X=Cl,Br and Y=Se,Te) van der Waals Heterostructures, J. Electron. Mater. 52 (2023) 8038–8049.[71] M. Ashtar, M.A. Marwat, Y. Yang, D. Cao, Two-dimensional ZnO/ZrXY (X, Y = Br, Cl and F) van der Waals heterostructures as promising photocatalysts for high efficiency water splitting, Int. J. Hydrogen Energy. 48 (2023) 32797–32805.[70] J. Song, M. Ashtar, Y. Yang, Y. Liu, M. Chen, D. Cao, Photocatalytic removal of heavy metal ions and antibiotics in agricultural wastewater: A review, J. Semicond. 44 (2023) 111701.[69] P. Qin, C. Zhu, M. Ashtar, M. Li, Y. Liu, M. Chen, D. Cao, Y. Yang, PZT ferroelectric polarization-enhanced ZnO thin film photodetector, Funct. Mater. Lett. 16 (2023) 2351006.[68] M. Ashtar, M.A. Marwat, Z. Li, Y. Yang, D. Cao, Self-powered ultraviolet/visible photodetector based on CuBi2O4/PbZr0.52Ti0.48O3 heterostructure, J. Lumin. 260 (2023) 119855.[67] P. Cheng, J. Qiu, T. Zhao, Y. Wang, M. Chen, H. Zhang, Y. Liu, D. Cao, X. Dong, Q. Wang, Improved performance and stability in CH3NH3PbI3/Si heterojunction photodetectors realized by ZIF-67 additive assisted Co ion doping, Appl. Phys. Lett. 123 (2023) 033301.[66] S. Chen, P. Qin, J. Yang, M. Chen, Q. Du, Y. Kong, Y. Liu, D. Cao, Ferroelectricity in the Al doped HfO2, J. Alloys Compd. 965 (2023) 171456.[65] C. Zhang, P. Chandan Solanki, D. Cao, H. Zhao, Y. Lei, Integration of Cointercalation and Adsorption Enabling Superior Rate Performance of Carbon Anodes for Symmetric Sodium-Ion Capacitors, ACS Appl. Mater. Interfaces. 15 (2023) 24459–24469.[64] X. Ding, J. Shi, Y. He, Y. Yang, Y. Liu, M. Chen, W. Xue, D. Cao, Boosting piezo/photo-induced charge transfer of a bi-piezoelectrics BaTiO3/CdS isotype junction for kinetic optimization, J Alloys Compd. 931 (2023) 167434.2022年[63] X. Shen, S. Chen, Y. Liu, M. Chen, H. Lei, J. Cai, J. Su, S. Yang, Y. Liu, Q. Wang, D. Cao, C. Xu, Realization of self-powered bidirectional photoresponse in the ultraviolet/visible wavelength region in ferroelectric heterojunctions, Appl Phys Lett. 120 (2022) 091107.[62] Z. Liang, W. Tian, Y. Liu, Y. Du, W. Zhang, L. Lin, M. Chen, D. Cao, Preparation of Co3O4 Electrodes with Different Morphologies for the Investigation of Magnetic Response in Hybrid Capacitors, ChemElectroChem. 9 (2022) 1–9.[61] J. Cai, T. Zhao, M. Chen, J. Su, X. Shen, Y. Liu, D. Cao, Ion Migration in the All-Inorganic Perovskite CsPbBr3and Its Impacts on Photodetection, Journal of Physical Chemistry C. 126 (2022) 10007–10013.[60] P. Cheng, M. Chen, X. Shen, S. Chen, Y. Liu, D. Cao, Q. Wang, Heterojunction structure for suppressing dark current toward high-performance ZnO microrod metal-semiconductor-metal ultraviolet photodetectors, Micro and Nanostructures. 171 (2022) 207422.[59] M. Chen, Y. Yuan, Y. Liu, D. Cao, C. Xu, High-quality all-inorganic CsPbBr3 single crystals prepared by a facile one-step solution growth method, RSC Adv. 12 (2022) 14838–14843.[58] Z. Liang, J. Chen, W. Tian, Y. Liu, M. Chen, D. Cao, Preparation of multi-function graphene materials through electrode-distance controlled electrochemical exfoliation, Nanotechnology. 33 (2022) 375601.[57] W. Zhang, Z. Liang, W. Tian, Y. Liu, Y. Du, M. Chen, D. Cao, 3D porous carbon conductive network with highly dispersed Fe–N x sites catalysts for oxygen reduction reaction, Nanotechnology. 33 (2022) 455701.[56] Y. Yang, D. Cao, Observation of the topological phase transition from the spatial correlation of a biphoton in a one-dimensional topological photonic waveguide array, Opt Express. 30 (2022) 37899.[55] X. Ding, T. Chen, Y. He, J. Zhu, Y. Yang, J. Chen, N. Nasori, Y. Liu, M. Chen, D. Cao, The strong interfacial coupling effect of Nafion between LaFeO3/electrolyte for efficient photoelectrochemical water reduction, Nanotechnology. 33 (2022) 105404.[54] X. Shen, S. Yang, M. Chen, J. Su, J. Cai, P. Cheng, Y. Liu, Q. Wang, D. Cao, Interfacial Engineering with Aluminum Oxide toward an Improved Self‐Powered Narrowband Visible‐Light Photodetection in Lead Halide Perovskite CH3NH3PbBr3/p‐Si Heterojunctions, Adv Mater Interfaces. (2022) 2102305.[53] Y. Yang, J. Zhu, Y. He, M. Li, Y. Liu, M. Chen, D. Cao, Charge transfer in photocatalysis of direct Z-scheme g-C3N4-based ferroelectric heterojunction, J Alloys Compd. 893 (2022) 162270.[52] Y. Yuan, M. Chen, S. Yang, X. Shen, Y. Liu, D. Cao, G. Xing, Z. Tang, Improved CsPbBr3 visible light photodetectors via decoration of sputtered au nanoparticles with synergistic benefits, Nano Select. 3 (2022) 178–187.[51] M. Chen, X. Shen, C. Zhou, D. Cao, W. Xue, High-performance self-powered visible-blind ultraviolet photodetection achieved by ferroelectric PbZr0.52Ti0.48O3 thin films, J Alloys Compd. 897 (2022) 163208.[50] Y. He, X. Ding, Y. Yang, Y. Liu, M. Chen, Y. Yin, D. Cao, X. Yan, Strategy to Achieve Augmented Photoelectrochemical Water Oxidation via Heteroband Structure Engineering and In Situ Interface Activation, Inorg. Chem. 61 (2022) 2351–2359.2021年[49] S. Yang, M. Chen, X. Shen, Y. Yuan, Y. Liu, Q. Wang, D. Cao, Self-powered narrowband visible-light photodetection enabled by organolead halide perovskite CH 3 NH 3 PbBr 3 / p -Si heterojunction, Appl. Phys. Lett. 119 (2021) 121107.[48] Y. Qian, F. Tan, J. Liu, Q. Li, K. Ren, Y. Huang, X. Li, D. Cao, K. Liu, C. Zhao, Y. Li, Z. Wang, S. Qu, Photocatalytic Water Oxidation Directly Using Plasmonics from Single Au Nanowires without the Contact with Semiconductors, ACS Catal. 11 (2021) 12940–12946.[47] Y. Yang, Z. Zuo, D. Cao, Biphoton topology in a quadratic nonlinear waveguide array under the Su-Schrieffer-Heeger model, Phys. Rev. A. 104 (2021) 043710.[46] D. Cao, M. Li, J. Zhu, Y. He, T. Chen, Y. Liu, M. Chen, Y. Yang, Enhancement of photoelectrochemical performance in ferroelectric films via the introduction of an Au buffer layer, J. Semicond. 42 (2021) 112701.[45] Y. He, P. Shen, Y. Liu, M. Chen, D. Cao, X. Yan, Integrated heterostructure of PZT/CdS containing the synergistic effect between heterojunction structure and ferroelectric polarization for photoelectrochemical applications, Mater. Sci. Semicond. Process. 121 (2021) 105351.[44] N. Nasori, D. Cao, Z. Wang, U. Farahdina, A. Rubiyanto, Y. Lei, Tunning of Templated CuWO4 Nanorods Arrays Thickness to Improve Photoanode Water Splitting, Molecules. 26 (2021) 2900.[43] M. Chen, S. Yang, Y. Yuan, X. Shen, Y. Liu, Q. Wang, D. Cao, C. Xu, Thermal Quenching and Antiquenching of Photoluminescence in Solution-Grown Cs 4 PbBr 6 Perovskite Single Crystals, J. Phys. Chem. C. 125 (2021) 11278–11284.[42] J. Zhu, Y. He, Y. Yang, Y. Liu, M. Chen, D. Cao, BiFeO3/Cu2O Heterojunction for Efficient Photoelectrochemical Water Splitting Under Visible-Light Irradiation, Catal. Letters. 151 (2021) 382–389.[41] Y. He, J. Zhu, Y. Yuan, Y. Yang, Y. Liu, M. Chen, D. Cao, X. Yan, Dual-regulation charges separation tactics with synergistic effect of 1D/0D heterostructure and inserted ferroelectric layer for boosting photoelectrochemical water oxidation, J. Mater. Chem. A, 12 (2021) 7594-7605.2020年[40] W. Ke, J. Yang, Y. Liu, J. Chen, X. Deng, M. Chen, D. Cao, Fe 0.8 Zn 0.2 Nanoparticles Wrapped in Mesoporous Nitrogen-Doped Carbon Layers as Electrocatalysts for an Efficient Oxygen Reduction Reaction, Energy & Fuels. 34 (2020) 16800–16809.[39] M. Chen, Y. Yuan, X. Zhang, X. Wang, D. Xu, Y. Liu, D. Cao, G. Xing, Z. Tang, Boosting the performance of ZnO microrod metal-semiconductor-metal photodetectors via surface capping of thin amorphous Al2O3shell layer, Nanotechnology. 31 (2020) 485207.[38] W. Ke, S. He, W. Le, Y. Liu, F. Zhang, T. Tang, Y. Zheng, J. Chen, M. Chen, D. Cao, Synthesis of nitrogen-superdoped and graphene fiber-supported three-dimensional graphene foam for supercapacitors, J. Mater. Sci. 55 (2020) 6952–6962.[37] M. Chen, Y. Yuan, Z. Wang, X. Shen, Y. Liu, D. Cao, Optical Property Behaviors of CsPbBr3Colloidal Nanoparticles in a Ligand-Assisted Reprecipitation Process, Cryst. Growth Des. 20 (2020) 4855–4860.[36] P. Wang, J. Xing, Y. He, Y. Liu, Y. Yang, M. Chen, D. Cao, Enhancement of Photoelectrochemical Reduction by LaFeO3 Photocathodes Coated with Electroless Deposited Nickel Boride Catalyst, Catal. Letters. 150 (2020) 555–561.[35] Y. Qian, J. Liu, B.T. Zhang, Y. Huang, D. Cao, K. Ren, H. Tang, Y. Sun, Q. Li, C. Yang, S. Qu, Z. Wang, Y. Li, Observation of plasmon boosted photoelectrochemical activities on single Au/Cu2O nanoelectrode, J. Phys. D. Appl. Phys. 53 (2020) 165102.[34] Y. Yuan, M. Chen, S. Yang, X. Shen, Y. Liu, D. Cao, Exciton recombination mechanisms in solution grown single crystalline CsPbBr3 perovskite, J. Lumin. 226 (2020) 117471.2019年[33] P. Wang, Y. He, Y. Mi, J. Zhu, F. Zhang, Y. Liu, Y. Yang, M. Chen, D. Cao, Enhanced photoelectrochemical performance of LaFeO3 photocathode with Au buffer layer, RSC Adv. 9 (2019) 26780–26786.[32] Y. Wang, J. Liu, Y . Huang, Z. Wang, Q. Li, S. Yue, K. Liu, S. Yan, M. Liu, D. Cao, Y. Li, Z. Wang, X. Yang, S. Qu, Insights on the Origination of Ambipolar Photocurrent of Ferroelectric and the Improvement of Photoanodic Current, J. Electrochem. Soc. 166 (2019) H418–H424.[31] N. Nasori, T. Dai, X. Jia, A. Rubiyanto, D. Cao, S. Qu, Z. Wang, Z. Wang, Y. Lei, Realizing super-long Cu2O nanowires arrays for high-efficient water splitting applications with a convenient approach, J. Semicond. 40 (2019) 052701.[30] Y. Huang, J. Liu, D. Cao, Z. Liu, K. Ren, K. Liu, A. Tang, Z. Wang, L. Li, S. Qu, Z. Wang, Separation of hot electrons and holes in Au/LaFeO3 to boost the photocatalytic activities both for water reduction and oxidation, Int. J. Hydrogen Energy. 44 (2019) 13242–13252.[29] Y. Liu, J.N. Chen, X. Li, Y.T. Shi, M.M. Chen, D. Cao, Fluorination of graphene oxide at ambient conditions, Diam. Relat. Mater. 91 (2019) 107–111.[28] Y. Liu, T.T. Shi, T. Chen, W.J. He, M.M. Chen, D. Cao, The naked-eye NH3 sensor based on fluorinated graphene, Sensors Actuators B: Chem. 281 (2019) 789–794.[27] Y. Liu, P. Shen, L. he Feng, Y. Wu, M. ming Chen, Y. yuan Sun, Q. Feng, D. Cao, Mutual modulation of F-distribution and N-configuration in F and N dual-functionalized graphene, Appl. Surf. Sci. 465 (2019) 880–887.[26] Y. He, P. Wang, J. Zhu, Y. Yang, Y. Liu, M. Chen, D. Cao, X. Yan, Synergistical Dual Strategies Based on in Situ-Converted Heterojunction and Reduction-Induced Surface Oxygen Vacancy for Enhanced Photoelectrochemical Performance of TiO2, ACS Appl. Mater. Interfaces. 11 (2019) 398–403.[25] X. Shen, M. Chen, L. Shi, F. Chen, Y. Liu, D. Cao, C. Xu, Lasing behaviors in solution processed all-inorganic CsPbBr3 perovskite microsized crystals, Opt. Commun. 453 (2019) 124354.2018年[24] Y. Liu, Y. Shi, Q. Feng, M. Chen, D. Cao, Distribution-dependent capacitive and magnetic properties of Mn3O4 nanoparticles on reduced graphene oxide, Diam. Relat. Mater. 84 (2018) 169–177.2017年[23] S. Yue, K. Liu, R. Xu, M. Li, M. Azam, K. Ren, J. Liu, Y. Sun, Z. Wang, D. Cao, X. Yan, S. Qu, Y. Lei, Z. Wang, Efficacious engineering on charge extraction for realizing highly efficient perovskite solar cells, Energy Environ. Sci. 10 (2017) 2570–2578.[22] S. Yue, S. Lu, K. Ren, K. Liu, M. Azam, D. Cao, Z. Wang, Y. Lei, S. Qu, Z. Wang, Insights into the Influence of Work Functions of Cathodes on Efficiencies of Perovskite Solar Cells, Small. 13 (2017) 1700007.2016年[21] Y. Mi, L. Wen, Z. Wang, D. Cao, R. Xu, Y. Fang, Y. Zhou, Y. Lei, Fe(III) modified BiOCl ultrathin nanosheet towards high-efficient visible-light photocatalyst, Nano Energy. 30 (2016) 109–117.[20] D. Cao, N. Nasori, Z. Wang, L. Wen, R. Xu, Y. Mi, Y. Lei, Facile surface treatment on Cu2O photocathodes for enhancing the photoelectrochemical response, Appl. Catal. B Environ. 198 (2016) 398–403.[19] F. Tan, Z. Wang, S. Qu, D. Cao, K. Liu, Q. Jiang, Y. Yang, S. Pang, W. Zhang, Y. Lei, Z. Wang, A CdSe thin film: A versatile buffer layer for improving the performance of TiO2 nanorod array:PbS quantum dot solar cells, Nanoscale. 8 (2016) 10198–10204.[18] D. Cao, N. Nasori, Z. Wang, Y. Mi, L. Wen, Y. Yang, S. Qu, Z. Wang, Y. Lei, P-Type CuBi2O4: An easily accessible photocathodic material for high-efficiency water splitting, J. Mater. Chem. A. 4 (2016) 8995–9001.[17] S. Tarish, A. Al-Haddad, R. Xu, D. Cao, Z. Wang, S. Qu, G. Nabi, Y. Lei, The shift of the optical absorption band edge of ZnO/ZnS core/shell nanotube arrays beyond quantum effects, J. Mater. Chem. C. 4 (2016) 1369–1374.[16] Y. Mi, L. Wen, R. Xu, Z. Wang, D. Cao, Y. Fang, Y. Lei, Constructing a AZO/TiO2 Core/Shell Nanocone Array with Uniformly Dispersed Au NPs for Enhancing Photoelectrochemical Water Splitting, Adv. Energy Mater. 6 (2016) 1501496.[15] Y. Mi, L. Wen, Z. Wang, D. Cao, H. Zhao, Y. Zhou, F. Grote, Y. Lei, Ultra-low mass loading of platinum nanoparticles on bacterial cellulose derived carbon nanofibers for efficient hydrogen evolution, Catal. Today. 262 (2016) 141–145.[14] L. Fang, F. Nan, Y. Yang, D. Cao, Enhanced photoelectrochemical and photocatalytic activity in visible-light-driven Ag/BiVO4 inverse opals, Appl. Phys. Lett. 108 (2016) 093902.[13] Z. Wang#, D. Cao#, L. Wen, R. Xu, M. Obergfell, Y. Mi, Z. Zhan, N. Nasori, J. Demsar, Y. Lei, Manipulation of charge transfer and transport in plasmonic-ferroelectric hybrids for photoelectrochemical applications, Nat. Commun. 7 (2016) 10348.[12] Z. Wang#, D. Cao#, R. Xu#, S. Qu, Z. Wang, Y. Lei, Realizing ordered arrays of nanostructures: A versatile platform for converting and storing energy efficiently, Nano Energy. 19 (2016) 328–362.2015年[11] D. Chi, S. Lu, R. Xu, K. Liu, D. Cao, L. Wen, Y. Mi, Z. Wang, Y. Lei, S. Qu, Z. Wang, Fully understanding the positive roles of plasmonic nanoparticles in ameliorating the efficiency of organic solar cells, Nanoscale. 7 (2015) 15251–15257.[10] Y. Mi, L. Wen, Z. Wang, D. Cao, Y. Fang, Y. Lei, Building of anti-restack 3D BiOCl hierarchitecture by ultrathin nanosheets towards enhanced photocatalytic activity, Appl. Catal. B Environ. 176–177 (2015) 331–337.2014年[9] D. Cao, Z. Wang, Nasori, L. Wen, Y. Mi, Y. Lei, Switchable charge-transfer in the photoelectrochemical energy-conversion process of ferroelectric BiFeO3 photoelectrodes, Angew. Chemie - Int. Ed. 53 (2014) 11027–11031.2013年[8] C. Wang, D. Cao, F. Zheng, W. Dong, L. Fang, X. Su, M. Shen, Photocathodic behavior of ferroelectric Pb(Zr, Ti)O3 films decorated with silver nanoparticles, Chem. Commun. 49 (2013) 3769–3771.2012年[7] D. Cao, C. Wang, F. Zheng, L. Fang, W. Dong, M. Shen, Understanding the nature of remnant polarization enhancement, coercive voltage offset and time-dependent photocurrent in ferroelectric films irradiated by ultraviolet light, J. Mater. Chem. 22 (2012) 12592–12598.[6] D. Cao, C. Wang, F. Zheng, W. Dong, L. Fang, M. Shen, High-efficiency ferroelectric-film solar cells with an n-type Cu 2O cathode buffer layer, Nano Lett. 12 (2012) 2803–2809.[5] P. Zhang, D. Cao, C. Wang, M. Shen, X. Su, L. Fang, W. Dong, F. Zheng, Enhanced photocurrent in Pb(Zr 0.2Ti 0.8)O 3 ferroelectric film by artificially introducing asymmetrical interface Schottky barriers, Mater. Chem. Phys. 135 (2012) 304–308.2011年[4] D. Cao, H. Zhang, L. Fang, W. Dong, F. Zheng, M. Shen, Polarization effect on the photocurrent of Pt sandwiched multi-crystalline ferroelectric films, Mater. Chem. Phys. 129 (2011) 783–786.2010年[3] D. Cao, H. Zhang, L. Fang, W. Dong, F. Zheng, M. Shen, Interface layer thickness effect on the photocurrent of Pt sandwiched polycrystalline ferroelectric Pb (Zr,Ti) O3 films, Appl. Phys. Lett. 97 (2010) 102104.[2] D. Cao, J. Xu, L. Fang, W. Dong, F. Zheng, M. Shen, Interface effect on the photocurrent: A comparative study on Pt sandwiched (Bi3.7 Nd0.3) Ti3 O12 and Pb (Zr0.2 Ti0.8) O3 films, Appl. Phys. Lett. 96 (2010) 192101.2009年[1] J. Xu, D. Cao, L. Fang, F. Zheng, M. Shen, X. Wu, Space charge effect on the photocurrent of Pt-sandwiched Pb (Zr 0.20Ti0.80) O3 film capacitors, J. Appl. Phys. 106 (2009) 113705.
表彰奖励1. 2014获江苏省优秀博士毕业论文2. 2014年获德国洪堡(AvH)奖学金3. 2020年江苏省研究生创新实践大赛一等奖 指导老师4. 2021年江苏大学“青年文明号”、“新长征突击手”荣誉称号5. 2022年江苏大学“优秀教师”荣誉称号
其他欢迎物理、化学、材料、能源方向的学生报考硕士和博士!联系方式:Email:dwcao@ujs.edu.cn;手机:13952888797