科研项目

• 国家重点研发计划《新型超强光场的创建与表征原理和技术研究》（2024.1-2028.12），主要参加者

• 复旦大学义乌研究院研究项目《基于机器学习与高通量计算的新型能源材料预测与物性研究》(2021.10-2023.9)，项目负责人

• 上海市自然科学基金“拓扑材料热电特性及微纳器件性能优化研究”（2019-2022） 项目负责人

• 复旦大学原创科研个性化支持项目《新兴量子材料的新奇量子特性研究》（2018.01-2020.12）项目负责人

• 自然科学基金委面上项目《基于强无序体系光场局域化及散射棱镜的远场超分辨成像机理研究》（2014.1-2017.12），项目负责人

• 科技部863项目子课题《光学微纳结构成像模组制造关键技术》（2012-2014），课题负责人

• 科技部02重大专项子课题《复杂结构光学零部件抛光与关键加工技术的特种装备》（2011-2013），子课题负责人

科研方向

本课题组的研究聚焦在量子材料与能源材料中输运与新奇量子效应研究，包括周期与随机体系中的光输运研究、二维材料（Graphene/MoS2/Stanene等）、拓扑材料、能源材料中的热输运与电子输运现象研究。具体内容如下：

1. 新兴量子材料性质计算与预测 Computations and Predictions of Novel Quantum Materials

• 1) 二维材料的材料物性、激子效应、电声耦合作用；

• 2）拓扑材料的预测与输运特性研究;

• 3)  表面、界面中准粒子行为；

• 4）热输运、电子输运、热电性质的第一性原理研究

• 5）激子凝聚与激子动力学

• 6) 赝势平面波方法密度泛函软件研发

• 7) 电子激发态及光致相变
  

2.非厄米理论与超快非厄米系统设计与仿真 Non-Hermitian Theory and Its Application in Ultrafast Non-Hermitian systems

• 1) 非厄米系统及光学、电路实现；

• 2) 吸收型光参量放大的非厄米理论；

• 3) 拓扑电路设计与仿真；

• 4) 光学非厄米理论和超快激光动力学仿真

3. AI4Science在光电功能材料上的应用 AI4Science and Its Application in Optoelectronic Materials

• 1）机器学习方法、高通量算法；

• 2）钙钛矿光伏电池材料数据库；

科研成果

Selected Papers:

• Juan Zhang, Yujie Xia, Lei Peng, Yiming Zhang, Ben Li, Le Shu, Yan Cen, Jun Zhuang, Heyuan Zhu, Peng Zhan, and Hao Zhang*.Ultra-confined Phonon Polaritons and Strongly Coupled Microcavity Exciton Polaritons in Monolayer MoSi2N4 and WSi2N4. Advanced Science 2023:2307691(2023)

• Yujie Xia, Le Shu, Yiming Zhang, Ying Chen, Lei Peng, Juan Zhang, Ben Li, Hezhu Shao*, Yan Cen, Zhan Sui, Heyuan Zhu*, Hao Zhang*. Full-landscape Condensation Phases for Long-lived Excitons in 2D Tellurium: Crystal-field Splitting and Finite-momentum Excitons. Advanced Functional Materials 2023,2303779(2023) 

• Xia Cai, Fengcai Liu, Anran Yu, Jiajun Qin, Mohammad Hatamvand, Irfan Ahmed, Jiayan Luo, Yiming Zhang, Hao Zhang* and Yiqiang Zhan*. Data-driven Design of High-performance MASnxPb1-xI3 Perovskite Materials by Machine Learning and Experimental Realization. Light: Science & Applications 11:234(2022)

• Xia Cai, Yiming Zhang, Zejiao Shi, Ying Chen, Yujie Xia, Anran Yu, Yuanfeng Xu, Fengxian Xie, Hezhu Shao,Heyuan Zhu, Desheng Fu, Yiqiang Zhan∗ and Hao Zhang*. Discovery of Lead-free Perovskites for High-performance Solar Cells via Machine Learning: Ultrabroadband Absorption, Low Radiative Combination and Enhanced Thermal Conductivities. Advanced Science 2021,2103648 (2021)

• Yu Wu, Bowen Hou, Congcong Ma, Jiang Cao, Ying Chen, Zixuan Lu, Haodong Mei, Hezhu Shao, Yuanfeng Xu*, Heyuan Zhu, Zhilai Fang, Rongjun Zhang* and Hao Zhang*. Thermoelectric performance of 2D materials: band-convergent strategy and strong intervalley scatterings. Materials Horizons 8:1253-1263(2021)
  

• Ke Xu, Xintong Zhang, Kaifa Luo, Rui Yu*, Dan Li and Hao Zhang*. Coexistence of topological edge states and skin effects in the non-Hermitian Su-Schrieffer-Heeger model with long-range nonreciprocal hopping in topoelectric realizations. Phys Rev B 103:125411(2021)
  

• Bo Peng, Hao Zhang*, Weiwen Chen, Bowen Hou, Zhi-Jun Qiu, Hezhu Shao, Heyuan Zhu*, Bartomeu Monserrat, Desheng Fu*, Hongming Weng, Costas M Soukoulis. Sub-picosecond photo-induced displacive phase transition in two-dimensional MoTe2. npj 2D Materials and Applications 4:14 (2020)

• Yu Chen#, Bo Peng#, Chunxiao Cong*, Jingzhi Shang, Lishu Wu, Weihuang Yang, Jiadong Zhou, Peng Yu, Hongbo Zhang, Yanlong Wang, Chenji Zou, Jing Zhang, Sheng Liu, Qihua Xiong, Hezhu Shao, Zheng Liu*, Hao Zhang*, Wei Huang and Ting Yu*.In-Plane Anisotropic Thermal Conductivity of Few-Layered Transition Metal Dichalcogenide Td-WTe2. Advanced Materials, 31 (7):1804979 (2019)
  

• Bo Peng, Changming Yue, Hao Zhang*, Zhong Fang and Hongming Weng*. Dirac semimetals in Sodium Ternary Compounds from Material Design on Na3Bi. npj Computational Materials. 4:68(2018)

• Bo Peng, Hao Zhang*, Hezhu Shao, Hongliang Lu, David Wei Zhang and Heyuan Zhu. High thermoelectric performance of Weyl semimetal TaAs. Nano Energy 30, 225-234 (2016).
  

• 
  

Book Chapter:

• [1] Yiming Zhang, Yuanfeng Xu*, Yujie Xia, Juan Zhang, Hao Zhang* and Desheng Fu*. Photo-induced displacive phase transition in two-dimensional MoTe2 from first-principle calculations. Phase Change Materials - Technology and Applications ISBN 978-1-80356-474-6(2022)

Peer-reviewed Journal Papers:

2024

1. Kai Guo, Juan Zhang,..., Hao Zhang*, In-Plane Overdamping and Out-Plane Localized Vibration Contribute to Ultralow Lattice Thermal Conductivity of Zintl Phase KCdSb. submitted to Advanced Science (2024).

2. Xia, Yujie; Peng, Lei; Shu, Le; Wu, Ao; Shao, Hezhu; Li, Ben; Zhang, Juan; Sui, Zhan; Zhu, Heyuan; Zhang, Hao*. Strong Intervalley Scattering Induced Renormalization of Electronic and Thermal Transport Properties and Selection-rule Analysis in 2D Tellurium. ACS Nano 18:5814(2024).High-impact Journal

3. Luozhijie Jin, Zijian Du, Le Shu, Yan Cen*, Yongfeng Mei and Hao Zhang*. Crystal Transformer Based Universal Atomic Embedding for Accurate and Transferable Prediction of Materials Properties. arXiv (2024).

4. Liu, Chang; Sun, Songsong; Hou, Qingmeng; Song, Yaning; Wang, Hongjing; Ji, Yanju; Zhao, Yingbo; Zhang, Hao*; Xu, Yuanfeng.Overall spontaneous water splitting for calcium bismuthate Ca(BiO2)2: flexible electronics controlled bandedge position and adsorption site modulated bond strength. Langmuir 40:2990(2024)

5. Le Shu, Yujie Xia, Ben Li, Juan Zhang, Lei Peng, Hezhu Shao*, Yan Cen, Heyuan Zhu, Zengxu Wang* and Hao Zhang*. Full-landscape selection rules of electrons and phonons and temperature-induced effects in 2D silicon and germanium allotropes. npj Computational Materials. 10:2(2024)

6. Yudong Tao, Wentao Zhu, Yanfang Zhang, Jingui Ma, Jing Wang, Peng Yuan, Hao Zhang, Heyuan Zhu, and Liejia Qian.Ultrabroadband second-harmonic generation via spatiotemporal-coupled phase matching. Chinese Optics Letters 22:011901(2024)

7. Lei Peng, Ao Wu, Yujie Xia, Haotian Zhang, Yuting Yang, Hezhu Shao, Ying Chen, Juan Zhang, Le Shu, Heyuan Zhu, Yuxiang Zheng* and Hao Zhang*. Suppression of intervalley scattering and enhanced phonon anharmonic interactions in 2D Bi2TeSe2: crystal-field symmetry and band convergence. Journal of Materiomics 10:386(2024). 

   2023

8. Juan Zhang, Yujie Xia, Lei Peng, Yiming Zhang, Ben Li, Le Shu, Yan Cen, Jun Zhuang, Heyuan Zhu, Peng Zhan, and Hao Zhang*.Ultra-confined Phonon Polaritons and Strongly Coupled Microcavity Exciton Polaritons in Monolayer MoSi2N4 and WSi2N4. Advanced Science 2023:2023:2307691(2023)High-impact Journal

9. Yu Wu*, Ying Chen, Qiaoqiao Li, Kui Xue, Hezhu Shao, Hao Zhang*, Liujiang Zhou.Ultralow lattice thermal transport and considerable wave-like phonon tunneling in chalcogenide perovskite BaZrS3. arXiv:2310.13851 The Journal of Physical Chemistry Letters 14:11465-11473(2023)

10. Ben Li, Yanfang Zhang, Jing Wang*, Wenhao Wang, Jingui Ma, Peng Yuan, Dongfang Zhang, Yongfeng Mei, Heyuan Zhu, Hao Zhang*, and Liejia Qian. Non-Hermitian Optical Parametric Systems with Anti-parity-time Symmetry. arXiv:2310.10148 (2023)

11. Xia Cai*, Yan Li, Jianfei Liu, Hao Zhang*, Jianguo Pan*, Yiqiang Zhan. Discovery of All-Inorganic Lead-Free Perovskites with High Photovoltaic Performance via Ensemble Machine Learning. Materials Horizons 10, 5288-5297(2023)High-impact Journal

12. Yujie Xia, Le Shu, Yiming Zhang, Ying Chen, Lei Peng, Juan Zhang, Ben Li, Hezhu Shao*, Yan Cen, Zhan Sui, Heyuan Zhu*, Hao Zhang*. Full-landscape Condensation Phases for Long-lived Excitons in 2D Tellurium: Crystal-field Splitting and Finite-momentum Excitons. Advanced Functional Materials 2023, 2303779(2023) High-impact Journal
    二维碲烯中长寿命激子的凝聚相

13. Ying Chen, Lei Peng, Yu Wu, Congcong Ma, Ao Wu, Hao Zhang∗ and Zhilai Fang∗. Anomalous temperature-dependent phonon anharmonicity and strain engineering of thermal conductivity in β-Ga2O3. The Journal of Physical Chemistry C 127, 13356-13363(2023)

14. 王文昊, 周冰洁, 章艳芳, 王静, 马金贵, 张浩, 钱列加. 基于光参量过程直接产生高重频超短脉冲序列. 强激光与粒子束. 已录用. (2023)

15. WENHAO WANG, YANFANG ZHANG, BEN LI, JING WANG*, JINGUI MA, PENG YUAN, DONGFANG ZHANG, HAO ZHANG*, AND LIEJIA QIAN. Generation of an ultrashort pulse train through ultrafast parity-time symmetry switching. Optics Express 31:19523(2023).

16. Yu Wu*, Ying Chen, Lei Peng, Hao Zhang* and LiuJiang Zhou*. Intervalley scattering induced a significant reduction in lattice thermal conductivities for phosphorene. Nanoscale Horizons 8, 912-920(2023)High-impact Journal
    电子科大长三角研究院&复旦大学: 寻找谷间散射致低晶格热导率材料新思路

17. Congcong Ma, Zhengyuan Wu, Hao Zhang*, Heyuan Zhu, Junyong Kang, Junhao Chu, Zhilai Fang*. P-type nitrogen-doped β-Ga2O3: the role of stable shallow acceptor NO-VGa complexes. Physical Chemistry Chemical Physics 25:13766-13771(2023)

18. Ben Li, Juan Zhang, Yujie Xia, Ke Xu, Lei Peng, Hezhu Shao*, Rui Yu*, Zengxu Wang, Yuanfeng Xu, Heyuan Zhu, and Hao Zhang* Magnetic field effects and excitonic selection rules in monolayer palladium diselenide as a large-gap quantum spin Hall insulator. Phys. Rev. B 107:155401(2023). 

19. Xia, Yujie; Wu, Ao; Li, Ben; Zhang, Juan; Zhang, Yi-Ming; Peng, Lei; Shao, Hezhu*; Cen, Yan; Wang, Zengxu; Liu, Shangdong; Ji, Yimu; Sui, Zhan; Zhu, Heyuan*; Zhang, Hao*. Spin-orbit-coupling Induced Topological Transition and Anomalously Strong Intervalley Scattering in Two-dimensional Bismuth Allotropes with Enhanced Thermoelectric Performances. ACS Applied Materials & Interfaces 15:19545-19559(2023). High-impact Journal  

20. Ao Wu, Yujie Xia, Yiming Zhang, Lei Peng, Hezhu Shao, Yan Cen*, Heyuan Shao, Hao Zhang*. Strong Electron–Phonon and Phonon–Phonon Interactions Lead to High Thermoelectric Performances in Lead Phosphorene via Symmetry Breaking. arXiv:2206.02188, Advanced Theory and Simulations 2023:2300226(2023).

21. Hezhu Shao*, Daquan Ding, Ying Fang, Wei Song, Jielan Huang, Changkun Dong, and Hao Zhang*. Phonon transport in Cu2GeSe3:Effects of spin-orbit coupling and higher-order phonon-phonon scattering. Phys. Rev. B 107:085202(2023).

2022

22. Ying Chen, Ao Wu, Yiming Zhang, Yu Wu, Yujie Xia, Congcong Ma, Heyuan Zhu, Hao Zhang* and Zhilai Fang*. Full-momentum exciton landscape and macroscopic quantum phase diagram in two-dimensional gallium oxides. Materials Today Physics 29:100903(2022) High-impact Journal

23. Xia Cai, Fengcai Liu, Anran Yu, Jiajun Qin, Mohammad Hatamvand, Irfan Ahmed, Jiayan Luo, Yiming Zhang, Hao Zhang* and Yiqiang Zhan*. Data-driven Design of High-performance MASnxPb1-xI3 Perovskite Materials by Machine Learning and Experimental Realization. Light: Science & Applications 11:234(2022)High-impact Journal 
    Light | 数据驱动高性能MASn᙮Pb₁₋᙮I₃钙钛矿设计与实验研究

24. Guangxu Su, Anyuan Gao, Bo Peng, Junzheng Hu, Yi Zhang*, Fanxin Liu*, Hao Zhang*, Peng Zhan*, and Wei Wu. Observation of In-plane Exciton-polaritons in Monolayer WSe 2 Driven by Plasmonic Nanofingers. Nanophotonics (2022) DOI：https://doi.org/10.1515/nanoph-2022-0201

25. Hezhu Shao*, Daquan Ding, Li Zhang, Chang-Kun Dong and Hao Zhang*. High thermoelectric performance in a Si allotrope with ultralow thermal conductivity first-principles study combining phonon-limited electronic transport calculations. Materials Today Physics 27:100756(2022)  
    High-impact Journal

    温州大学发现一种具有极低热导率的硅同素异形体——戊硅并探索其在热电方面的潜在应用

26. Xiao-Xi Li , Guang Zeng , Yu-Chun Li , Hao Zhang , Zhi-Gang Ji , Ying-Guo Yang* , Man Luo , Wei-Da Hu , David Wei Zhang and Hong-Liang Lu. High responsivity and flexible deep-UV phototransistor based on Ta-doped β-Ga2O3. npj flexible electronics 6:47(2022)

27. Congcong Ma, Zhengyuan Wu, Zhuoxun Jiang，Ying Chen, Wei Ruan, Hao Zhang*, Heyuan Zhu, Guoqi Zhang, Junyong Kang, Tong-Yi Zhang, Junhao Chu and Zhilai Fang*. Exploring the feasibility and conduction mechanisms of P-type nitrogen-doped β-Ga2O3 with high hole mobility. Journal of Materials Chemistry C 10, 6673-6681(2022)

28. Yu Wu, Junbo He, Ying Chen, Mingran Kong, Yiming Zhang, Xiaobing Hu, Jianwei Lian, Hao Zhang*, and Rongjun Zhang*. Excellent response to near ultraviolet light and strong intervalley scatterings of electrons in 2D SnS2. Nanoscale 14, 5462-5471 (2022)

29. Xue-Feng Zhao,Shi-Qi Yang,Xiao-Hong Wen,Qi-Wei Huang,Peng-Fei Qiu,Tian-Ran Wei,Hao Zhang,Jia-Cheng Wang,David Wei Zhang,Xun Shi,Hong-Liang Lu. A Fully Flexible Intelligent Thermal Touch Panel Based on Intrinsically Plastic Ag2S Semiconductor. Advanced Materials 2022, 2107479 (2022)

30. Haodong Mei, Yujie Xia, Yiming Zhang, Yu Wu, Ying Chen, Congcong Ma, Mingran Kong, Lei Peng, Heyuan Zhu, and Hao Zhang∗. Finite-momentum excitons and role of electron-phonon couplings to electronic and phonon transport properties in boron arsenide. Phys. Chem. Chem. Phys. 24, 9384-9393 (2022)

31. Yiming Zhang, Bowen Hou, Yu Wu, Ying Chen, Yujie Xia, Haodong Mei, Mingran Kong, Lei Peng, Hezhu Shao, Jiang Cao, Wenjun Liu*, Heyuan Zhu*, and Hao Zhang*. Towards High-temperature Electron-hole Condensate Phases in Monolayer Tetrels Metal Halides: Ultra-long Excitonic Lifetimes, Phase Diagram and Exciton Dynamics. Materials Today Physics 22:100604 (2022) High-impact Journal

2021

32. Xia Cai, Yiming Zhang, Zejiao Shi, Ying Chen, Yujie Xia, Anran Yu, Yuanfeng Xu, Fengxian Xie, Hezhu Shao,Heyuan Zhu, Desheng Fu, Yiqiang Zhan∗ and Hao Zhang*. Discovery of Lead-free Perovskites for High-performance Solar Cells via Machine Learning: Ultrabroadband Absorption, Low Radiative Combination and Enhanced Thermal Conductivities. Advanced Science 2021,2103648(2021).
    High-impact Journal

    复旦大学张浩及詹义强课题组从18万多种物质中成功预测转换效率高达27.5%的无铅钙钛矿太阳能电池材料

33. Liu, Siyu; Wang, Jing; Duan, Zhongtao; Zhang, Hao; Guo, Ruiqian; Xie, Fengxian. Role of organic cation orientation in formamidine based perovskite materials. Scientific Reports 11:20433(2021)

34. Xudan Zhu; Junbo He; Rongjun Zhang; Chunxiao Cong; Yuxiang Zheng; Hao Zhang; Songyou Wang; Haibin Zhao; Meiping Zhu; Shaojuan Li; Shanwen Zhang; Liangyao Chen. Effects of Interlayer Coupling on the Excitons and Electronic Structures of WS2/hBN/MoS2 van der Waals Heterostructures. Nano Research (2021) DOI: doi.org/10.1007/s12274-021-3774-4

35. Wu, Simin; Lu, Zixuan; Hu, Anqi; Miao, Xianchong; Wang, Fanjie; Sun, Zhengzong; Yan, Hugen; Zhang, Hao*; Ji, Minbiao*. Dichroic Photoelasticity in Black Phosphorus Revealed by Ultrafast Coherent Phonon Dynamics. The Journal of Physical Chemistry Letters 12, 5871-5878 (2021)

36. Yu Wu*,Bowen Hou*,Ying Chen,Jiang Cao,Congcong Ma,Hezhu Shao**,Yiming,Zhang,Zixuan Lu,Heyuan Zhu,Zhilai Fang,Rongjun Zhang** and Hao Zhang**. Strong Electron-phonon Coupling and its Influence on Carrier Transport and Thermoelectric Performances in Buckled Group-IV and V Elemental Monolayers. arXiv: 2010.05219 (2020) npj Computational Materials 7:145(2021)
    High-impact Journal

   复旦张浩课题组npj Comput Mater：Ⅳ族及Ⅴ族单层材料中的强电声耦合作用及其对热电性能的影响

   全电-声子耦合：能带汇聚材料热电性能评估的关键因素

37. Ying Chen, Yu Wu, Bowen Hou, Jiang Cao, Hezhu Shao, Yiming Zhang, Haodong Mei, Zhilai Fang*, Heyuan Zhu* and Hao Zhang*. Renormalized thermoelectric figure of merit in band-convergent Sb2Te2Se monolayer: full electron-phonon interactions and selection rules. Journal of Materials Chemistry A 9:16108-16118 (2021) High-impact Journal

38. Jiang Cao*, Yu Wu, Hao Zhang*, Demetrio Logoteta, Shengli Zhang*, Marco Pala. Dissipative Transport and Phonon Scattering Suppression via Valley Engineering in Single-Layer Antimonene and Arsenene Field-Effect Transistors. arXiv:2101.08392 npj 2D Materials and Applications 5:59 (2021)
    High-impact Journal

   2D半导体场效应晶体管中耗散输运和声子散射抑制

39. Yu Wu, Bowen Hou, Congcong Ma, Jiang Cao, Ying Chen, Zixuan Lu, Haodong Mei, Hezhu Shao, Yuanfeng Xu*, Heyuan Zhu, Zhilai Fang, Rongjun Zhang* and Hao Zhang*. Thermoelectric performance of 2D materials: band-convergent strategy and strong intervalley scatterings. arXiv:2001.07499 (2020) Materials Horizons   8:1253-1263 (2021)  
    High-impact Journal

  全电声耦合作用修正热电优值：再议能带汇聚策略

40. Ke Xu, Xintong Zhang, Kaifa Luo, Rui Yu*, Dan Li and Hao Zhang*. Coexistence of topological edge states and skin effects in the non-Hermitian Su-Schrieffer-Heeger model with long-range nonreciprocal hopping in topoelectric realizations. Phys Rev B 103:125411(2021)

41. Xintong Zhang, Ke Xu, Chunmin Liu, Xiaoxiao Song, Bowen Hou, Rui Yu,∗ Hao Zhang,∗ Dan Li and Jing Li∗. Gauge-dependent topology in non-reciprocal systems with pseudo-Hermitian symmetry. Communications Physics 4:166(2021)

2020

42. Xudan Zhu, Junbo He, Rongjun Zhang,* Chunxiao Cong,* Yuxiang Zheng, Hao Zhang, Shanwen Zhang,* and Liangyao Chen. Effects of dielectric screening on the excitonic and critical points properties of WS2/MoS2 heterostructures. Nanoscale 12(46):23732-23739(2020)

43. Xu, Yuanfeng*; Liu, Yifan; Chen, Ying; Zhang, Hao**; Sun, Songsong; Ji, Yanju. Two-dimensional direct semiconductor boron monosulfides γ-BTe: room-temperature single-bound exciton and novel donor material in excitonic solar cells. ACS Applied Materials & Interfaces 12:58349-58359(2020)High-impact Journal

44. Zhuoxun Jiang, Zhengyuan Wu, Congcong Ma, Jianan Deng, Hao Zhang, Yang Xu, Jiandong Ye, Zhilai Fang*, Guoqi Zhang, Junyong Kang , and Tong-Yi Zhang. P-type β-Ga2O3 metal-semiconductor-metal solar-blind photodetectors with extremely high responsivity and gain-bandwidth product. Materials Today Physics 14:100226 (2020)High-impact Journal基金成果快讯

45. Hou, Bowen; Zhang, Yiming; Zhang, Hao*; Shao, Hezhu*; Ma, Congcong; Zhang, Xintong; Chen, Ying; Xu, Ke; Ni, Gang*; Zhu, Heyuan. Room Temperature Bound Excitons and Strain-Tunable Carrier Mobilities in Janus Monolayer Transition-Metal Dichalcogenides.The Journal of Physical Chemistry Letters 11:3116-3128 (2020)

    Presentation: https://pubs.acs.org/doi/suppl/10.1021/acs.jpclett.0c00520/suppl_file/jz0c00520_liveslides.mp4

46. Xu, Yuanfeng*; Xu, Ke; Ma, Congcong; Chen, Ying; Zhang, Hao*; Liu, Yifan; Ji, Yanju. Novel two-dimensional $\beta$-GeSe and $\beta$-SnSe semiconductors: anisotropic high carrier mobility and excellent photocatalytic water splitting. Journal of Materials Chemistry A, 8, 19612-19622 (2020), DOI: 10.1039/D0TA06299E High-impact Journal

47. Xudan Zhu, Dahai Li, RongjunZhang, HaoZhang, Chunxiao Cong, Meiping Zhu, Yuejie Shi, Yu Wu, Songyou Wang, Yuxiang Zheng, Liangyao Chen. Probing Quantum Confinement Effects on the Excitonic Property and Electronic Band Structures of MoS2.  Applied Surface Science 519:146262 (2020).

48. Xue-Feng Zhao,Cheng-Zhou Hang, Xiao-Hong Wen, Meng-Yang, Liu, Hao Zhang, Fan Yang, Ru-Guang Ma, Jia-Cheng Wang,  David Wei Zhang, Hong-Liang Lu.Ultrahigh-Sensitive Finlike Double-Sided E-Skin for Force Direction Detection. ACS Applied Materials & Interfaces 12:14136-14144 (2020).

49. Yifan Liu, Yuanfeng Xu*, Yanju Ji and Hao Zhang**. Monolayer Bi2Se3-xTex: novel two-dimensional semiconductors with excellent stability and high electron mobility. Phys. Chem. Chem. Phys.  22:9685-9692(2020)

50. Yu Wu∗, Ying Chen∗, Congcong Ma∗, Zixuan Lu, Hao Zhang*, Bohayra Mortazavi, Bowen Hou, Ke Xu, Haodong Mei, Timon Rabczuk, Heyuan Zhu*, Zhilai Fang, Rongjun Zhang* and Costas M. Soukoulis. Monolayer C7N6: Room-temperature excitons with large binding energies and high thermal conductivities. Phys Rev Materials 4:064001 (2020)

51. Wenjun Liu, Hemei Zheng, Kahwee Ang, Hao Zhang, Huan Liu, Jun Han, Weiguo Liu, Qingqing Sun, Shijin Ding, David Wei Zhang. Temperature-stable black phosphorus field-effect transistors through effective phonon scattering suppression on atomic layer deposited aluminum nitride. Nanophotonics https://doi.org/10.1515/nanoph-2020-0075 (2020).

52. Bo Peng, Hao Zhang*, Weiwen Chen, Bowen Hou, Zhi-Jun Qiu, Hezhu Shao, Heyuan Zhu*, Bartomeu Monserrat, Desheng Fu*, Hongming Weng, Costas M Soukoulis. Sub-picosecond photo-induced displacive phase transition in two-dimensional MoTe2. arXiv:1903.09757, npj 2D Materials and Applications 4:14 DOI:10.1038/s41699-020-0147-x(2020)
    High-impact Journal
    学校报道 NanoWerk报道
    两江科技评论报道
    npj 2D Materials and Applications 主页 HIGHLIGHT/

53. Xue-Feng Zhao; Cheng-Zhou Hang; Hong-Liang Lu, Ke Xu; Hao Zhang; Fan Yang; Ru-Guang Ma; Jia-Cheng Wang; David Wei Zhang. A Skin-Like Sensor for Intelligent Braille Recognition. Nano Energy 68,104346(2020).

54. Yu Wu*, Congcong Ma*, Ying Chen*, Bohayra Mortazavi, Zixuan Lu, Xintong, Zhang, Ke Xu, Hao Zhang*, Wenjun Liu*, Timon Rabczuk, Heyuan Zhu, Zhilai Fang, and Rongjun Zhang*. New group V-graphyne: 2D direct semiconductors with remarkable carrier mobilities, thermoelectric performance and thermal stability. Materials Today Physics 12:100164(2020) DOI:10.1016/j.mtphys.2019.100164
    High-impact Journal
    材料人报道

2019

55. Lu, Zixuan; Wu, Yu; Ma, Congcong; Chen, Ying; Xu, Ke;  Zhang, Hao*; Zhu, Heyuan; Fang, Zhilai*. Ultrahigh electron mobility induced by strain engineering in directly semiconducting monolayer Bi$_2$TeSe$_2$. Nanoscale 11:20620 - 20629(2019).

56. Ya-Wei Huan*; Ke Xu*; Wen-Jun Liu; Hao Zhang; Dmitriy Anatolyevich Golosov; Chang-Tai Xia; Hong-Yu Yu; Xiao-Han Wu; Qing-Qing Sun; Shi-Jin Ding.Investigation of band alignment for hybrid 2D-MoS2/3D-β-Ga2O3 heterojunctions with nitridation. Nanoscale Research Letters 14:360 (2019)

57. Chen, Ying; Wu, Yu; Xu, Ke; Ma, Congcong; Lu, Zixuan; Zhang, Xintong; Zhang, Hao*; Zhu, Heyuan; Fang, Zhilai*. New Sb2Te3-xSex monolayers with high electron mobilities and wide absorption range. ACS Applied Materials & Interfaces 11:37216-37228 (2019) DOI:10.1021/acsami.9b10682.High-impact Journal

58. Yu Wu*, Ke Xu*, Congcong Ma, Ying Chen, Zixuan Lu, Hao Zhang**,  Zhilai Fang, Rongjun Zhang**. Ultrahigh carrier mobilities and high thermoelectric performance at room temperature optimized by strain-engineering to two-dimensional aw-antimonene. Nano Energy 63:103870 (2019).High-impact Journal

59. Liu, Chunmin; Cheng, Ling; Yuan, Yafei; Su, Jing; Zhang, Xintong; Li, Xiangxiang; Zhao, Haibin; Zhang, Hao; Zheng, Yu-Xiang; Li, Jing. Contrastive investigation on linear optical properties and nonlinear absorption behaviors between Sb2Se3 and Sb2Te3 thin films. Materials Research Express. DOI:10.1088/2053-1591/ab23b0 (2019)

60. Chunmin liu, Yafei Yuan, Ling Cheng, Jing Su, Xintong Zhang, Xiangxiang Li, Hao Zhang, Min Xu and Jing Li. A study on optical properties of Sb2Se3 thin films and resistive switching behavior in Ag/Sb2Se3/W heterojunctions. Results in Physics 13:102228 (2019)

61. Yuanfeng Xu *, Ke Xu, Hao Zhang*, First-principles calculations of angular and strain dependence on effective masses of two-dimensional phosphorene analogues (monolayer group IV monochalcogenides MX). Molecules 24:639(2019)

62. Jiajia Tao, Hong-Liang Lu, Yang Gu, Hong-Ping Ma, Xing Li, Jin-Xin Chen, Wen-Jun Liu, Hao Zhang, Ji-Jun Feng. Investigation of growth characteristics, compositions, and properties of atomic layer deposited amorphous Zn-doped Ga2O3 films. Appl. Surf. Sci. 476, 733 (2019).

63. Peng, Bo; Mei, Haodong; Zhang, Hao*; Shao, Hezhu; Xu, Ke; Ni, Gang; Jin, Qingyuan; Soukoulis, Costas; Zhu, Heyuan. High thermoelectric efficiency in monolayer PbI2 from 300 K to 900 K. arXiv:1811.04244 (2018), Inorganic Chemistry Frontiers 6, 920 - 928 (2019).

64. Yu Chen#, Bo Peng#, Chunxiao Cong*, Jingzhi Shang, Lishu Wu, Weihuang Yang, Jiadong Zhou, Peng Yu, Hongbo Zhang, Yanlong Wang, Chenji Zou, Jing Zhang, Sheng Liu, Qihua Xiong, Hezhu Shao, Zheng Liu*, Hao Zhang*, Wei Huang  and Ting Yu*.In-Plane Anisotropic Thermal Conductivity of Few-Layered Transition Metal Dichalcogenide Td-WTe2. Advanced Materials, 31 (7):1804979 (2019) High-impact Journal

65. Da Xu, Yafei Yuan, Huanfeng Zhu, Ling Cheng, Chunmin Liu, Jing Su,Xintong Zhang, Hao Zhang, Xia Zhang, Jing Li. Nanostructure and optical property investigations of SrTiO3 films deposited by magnetron sputtering. Materials. 12:138 (2019)

2018

66. Ke Xu, Yuanfeng Xu, Hao Zhang*, Bo Peng, Hezhu Shao, Gang Ni, Jing Li, Mingyuan Yao, Hongliang Lu, Heyuan Zhu, Costas M. Soukoulis. Electronic, optical and transport properties of van der Waals Transition-metal Dichalcogenides Heterostructures: A First-principle Study. Phys. Chem. Chem. Phys. 2018, 20, 30351-30364.

67. Bo Peng,Bohayra Mortazavi,Hao Zhang*, Hezhu Shao, Ke Xu, Jing Li, Gang Ni, Timon Rabczuk, Heyuan Zhu. Tuning thermal transport in monolayer C3N by adding and removing carbon atoms. Phys Rev Applied 10,034046(2018).

68. Peng, Bo; Zhang, Hao*; Shao, Hezhu; Xu, Ke; Ni, Gang; Wu, Liangcai; Li, Jing; Lu, Hong-Liang; Jin, Qingyuan; Zhu, Heyuan. Room temperature bound exciton with long lifetime in monolayer GaN. ACS Photonics 5:4081-4088 (2018). 光学一区

69. Bo Peng, Changming Yue, Hao Zhang*, Zhong Fang and Hongming Weng*. Dirac semimetals in Sodium Ternary Compounds from Material Design on Na3Bi. arXiv: 1807.01434 npj Computational Materials. 4:68(2018)
    High-impact Journal
    媒体报道

70. Xinran Cao, Caimin Meng, Jing Li, Jun Wang, Yafei Yuan, Jing Su, Chunmin Liu, Xintong Zhang, Hao Zhang and Jianlu Wang.Characterization of interfacial barrier charging as a resistive switching mechanism in Ag/Sb2Te3/Ag heterojunctions. Phys. Chem. Chem. Phys., DOI:10.1039/C8CP00901E

71. Jin-Xin Chen, Jia-Jia Tao, Hong-Ping Ma, Hao Zhang, Ji-Jun Feng, Wen-Jun Liu, Changtai Xia, Hong-Liang Lu and David Wei Zhang. Band alignment of AlN/β-Ga2O3 heterojunction interface measured by x-ray photoelectron spectroscopy. Appl. Phys. Lett. 112, 261602 (2018)

72. Bo Peng, Ke Xu, Hao Zhang*, Hezhu Shao, Gang Ni, Jing Li, Liangcai Wu,Hongliang Lu, Qingyuan Jin, and Heyuan Zhu.Theoretical investigation of novel electronic, optical, mechanical and thermal properties of metallic hydrogen at 495 GPa. arXiv:1805.10920

73. Yafei Yuan, Chunmin Liu, Jing Su, Ling Cheng, Jie Fang, Xintong Zhang, Yan Sun, Yanqing Wu, Hao Zhang , and Jing Li. Structural and Optical Properties of Ti-Doped InTe Thin Films. J. Phys. Chem. C, 2018, 122 (11), pp 6267–6272

74. Xiaolei Zhang, Min Xu, Xiangqian Jiang, Hao Zhang and Xiangchao Zhang. Accurate reconstruction in digital holographic microscopy using anti-aliasing shift-invariant contourlet transform. Optical Engineering 57(3), 034108 (2018).

75. Tao Wang, Hong-Ping Ma, Jian-Guo Yang, Jing-Tao Zhu, Hao Zhang, Jijun Feng, Shi-Jin Ding, Hong-Liang Lu and David Wei Zhang. Investigation of the optical and electrical properties of ZnO/Cu/ZnO multilayers grown by atomic layer deposition. Journal of Alloys and Compounds. DOI:10.1016/j.jallcom.2018.02.115 (2018)

76. Zhang, Xiaolei; Wang, Jie; Zhang, Xiangchao; Xu, Min; Zhang, Hao; Jiang, Xiangqian. Correction of phase-shifting error in wavelength scanning digital holographic microscopy. Measurement Science and Technology 29, 055002 (2018)

77. Yafei Yuan, Xinran Cao, Yan Sun, Jing Su, Chunmin Liu, Ling Cheng, Yaopeng Li, Lihua Yuan, Hao Zhang, Jing Li. Intrinsic mechanism in nonvolatile polycrystalline zirconium oxide sandwiched structure.Journal of Materials Science: Materials in Electronics. 29:2301–2306 (2018)

78. Zhao, Jing; Ma, Fajun; Ding, Ke; Zhang, Hao; Jie, Jiansheng; Ho-Baillie, Anita; Bremner, Stephen. Transport mechanism in high-efficiency n Si/HNO3-doped graphene solar cell based on advanced interface modelling. Appl. Surf. Sci. 434, 102-111 (2018).

79. Bo Peng, Hao Zhang*, Hezhu Shao, Ke Xu, Gang Ni, Jing Li, Heyuan Zhu and Costas M. Soukoulis. Chemical intuition for high thermoelectric performance in monolayer black phosphorus, α-arsenene and aW-antimonene. J Mater Chem A, 6,2018-2033 (2018)High-impact Journal

80. Xiaolei Zhang; Xiangchao Zhang; Min Xu; Hao Zhang; Xiangqian Jiang.Phase unwrapping in digital holography based on non-subsampled contourlet transform.Opt. Common. 407:367-374(2018)

81. Shao, Hezhu; Jin, Min; Peng, Bo; Zhang, Hao*; Tan, Xiaojian; Liu, Guoqiang; Jiang, Haochuan; Jiang, Jun.First-Principles Study of Manipulating the Phonon Transport of Molybdenum Disulfide by Sodium Intercalating. J Phys Chem C, 122,2632-2640 (2018)

2017

82. Fang, Jie; Wang, Jun; Cao, Xinran; Man, Yixin; Liu, Chunmin; Cheng, Ling; Zhang, Xia; Zhao, Haibin; Zhang, Hao; Li, Jing. Thickness dependence of a giant nonlinear saturable absorption response in GeSb4Te7 thin films. Journal of Physics Communications. DOI: 10.1088/2399-6528/aaa2f3 (2017)

83. Songlin Wan, Xiangchao Zhang, Hao Zhang, Min Xu, Xiangqian Jiang. Modeling and analysis of sub-aperture tool influence functions for polishing curved surfaces. Precision Engineering, DOI: doi.org/10.1016/j.precisioneng.2017.09.013 (2017)

84. Yafei Yuan, Xinran Cao, Yan Sun, Jing Su, Chunmin Liu, Ling Cheng, Lihua Yuan, Hao Zhang and Jing Li. Memresistive behaviors in In2Se3 asymmetrical hetero-structures.  RSC Adv. 7, 46431-46435 (2017).

85. Dequan Zhang, Yuchen Xu, Ke Xu, Hao Zhang*, Jing Li, Heyuan Zhu, Costas Soukoulis. Coupling of evanescent waves into propagation channels within two-dimensional random waveguides. arXiv:1709.03017 submitted to Phys. Rev. B

86. Yuanfeng Xu, Hao Zhang*, Hezhu Shao, Gang Ni, Jing Li, Hongliang Lu, Rongjun Zhang, Bo Peng, Yongyuan Zhu, Heyuan Zhu and Costas M Soukoulis. Electronic, transport and optical properties of monolayer α and β−GeSe: A first-principles study. Phys. Rev. B 96, 245421 (2017)

87. Li, Dahai; Zheng,Hua; Wang, Ziyi; Zhang, Rong-Jun; Zhang, Hao; et.al, Dielectric functions and critical points of crystalline WS2 ultrathin films with tunable thickness. Physical Chemistry Chemical Physics. 19:12022-12031(2017)

88. Bo Peng, Ke Xu, Hao Zhang*, Zeyu Ning, Hezhu Shao, Gang Ni, Jing Li, Yongyuan Zhu, Heyuan Zhu and Costas M Soukoulis. 1D SbSeI, SbSI and SbSBr with high stability and novel properties for microelectronic, optoelectronic, and thermoelectric applications. Advanced Theory and Simulations 1:1700005 (2018) [Cover Story]
    TOP DOWNLOADED PAPER 2018-2019

89. Bo Peng, Dequan Zhang, Hao Zhang*, Hezhu Shao, Gang Ni, Yongyuan Zhu and Heyuan Zhu. The conflicting role of buckled structure in phonon transport. Nanoscale 9, 7397-7407 (2017)[Back-cover Story]
    ESI高被引 (July 2018)

90. Yang, Huailiang; Zhang, Xiangchao; Zhang, Hao; He, Xiaoying; Xiao, Hong; Xu, Min. Feature-preserving filtering for micro-structured surfaces using combined sparse regularizers. Measurement 10.1016/j.measurement.2017.03.034 (2017)

91. Bo Peng, Hao Zhang*, Hezhu Shao, Zeyu Ning, Yuanfeng Xu, Hongliang Lu, David Wei Zhang and Heyuan Zhu. Stability and Strength of Atomically Thin Borophene from First Principles Calculations. Material Research Letters 5(6):399-407 (2017)

92. Yuchen Xu, Hao Zhang*, Yujun Lin, Heyuan Zhu. Light transmission channels in random media with inhomogeneous disorder. Ann. Phys. (Berlin) 529:1600225 (2017)

93. Yuanfeng Xu, Zeyu Ning, Hao Zhang*, Gang Ni, Hezhu Shao, Bo Peng, Xiangchao Zhang, Xiaoying He, Yongyuan Zhu and Heyuan Zhu. The anisotropic ultrahigh hole mobility in strain-engineering two-dimensional penta-SiC2. arXiv:1701.03715 (2017)  RSC Adv. 7:45705-45713 (2017).

94. Yuanfeng Xu, Bo Peng, Hao Zhang*, Hezhu Shao, Rongjun Zhang and Heyuan Zhu,First-principle calculations of optical properties of monolayer arsenene and antimonene allotropes.  Ann. Phys. (Berlin) 529:1600151 (2017)[Back-cover Story]

95. Li, Dahai; Song, Xiongfei; Xu, Jiping; Wang, Ziyi; Zhang, Rong-Jun; Zhou, Peng; Zhang, Hao; Wang, Songyou; Zheng, Yuxiang; Zhang, David Wei; Chen, Liangyao,Optical properties of thickness-controlled MoS2 thin films studied by spectroscopic ellipsometry. Appl. Surf. Sci. 421:884-890 (2017)

2016

96. Bo Peng, Zeyu Ning, Hao Zhang*, Hezhu Shao, Yuanfeng Xu,Gang Ni and Heyuan Zhu. Beyond Perturbation:  Role of Vacancy-Induced Localized Phonon States in Thermal Transport of Monolayer MoS2.  J Phys Chem C 120 (51): 29324–29331 (2016).

97. Chen, Hong-Yan; Lu, Hong-Liang; Sun, Long; Ren, Qing-Hua; Zhang, Hao; Ji, Xin-Ming; Liu, Wen-Jun; Ding, Shi-Jin; Zhang, David Wei. Realizing a facile and environmental-friendly fabrication of high-performance multicrystalline silicon solar cells by employing ZnO nanostructures and an Al2O3 passivation layer. Sci. Rep. 6:38486 (2016)

98. Bo Peng, Hao Zhang*, Hezhu Shao, Hongliang Lu, David Wei Zhang and Heyuan Zhu. High thermoelectric performance of Weyl semimetal TaAs. Nano Energy 30, 225-234 (2016). High-impact Journal

99. Hezhu Shao, Hao Zhang, Bo Peng, Xiaojian Tan, Guo-Qiang Liu, Jun Jiang and Haochuan Jiang. First-principles study on the intrinsic phonon transport of Cu(2)GeSe(3). EPL , 115 26002  (2016).

100. Yuan Zhang, Hong-Liang Lu, Tao Wang, Qing-Hua Ren, Hong-Yan Chen, Hao Zhang, Wen-Jun Liu, Shi-Jin Ding  and David Wei Zhang. Photoluminescence enhancement of ZnO nanowire arrays with atomic layer deposited ZrO2 coatings and thermal annealing. Physical Chemistry Chemical Physics, 18, 16377 (2016)

101. Bo Peng, Hao Zhang*, Hezhu Shao, Yuanfeng Xu, Rongjun Zhang, Hongliang Lu, David Wei Zhang and Heyuan Zhu. First-principles prediction of ultralow lattice thermal conductivity of dumbbell silicene: A comparison with low-buckled silicene. ACS Applied Materials & Interfaces, 8, 20977−20985 (2016)High-impact Journal

102. Bo Peng, Hao Zhang*, Hezhu Shao, Yuanfeng Xu, Gang Ni, Rongjun Zhang and Heyuan Zhu. Ab initio study of phonon-transport properties of two-dimensional group-IV materials. Phys. Rev. B 94, 245420 (2016)

103. Bo Peng, Hao Zhang*, Hezhu Shao, Yuanfeng Xu, Rongjun Zhang, Heyuan Zhu.First-principles calculations of electronic, optical, and thermodynamic properties of borophene. J Mater Chem C, 4, 3592 - 3598 (2016)
     ESI高被引 (Jul/Aug 2016) in Materials

104. Yuchen Xu, Hao Zhang*, Yujun Lin, Heyuan Zhu. Light transport behaviours in quasi-1D disordered waveguides composed of random photonic lattices.arXiv:1512.06489  J Mod Opt 64:1215 (2017)

105. Bo Peng, Hao Zhang*, Hezhu Shao, Yuchen Xu, Xiangchao Zhang, Heyuan Zhu.Thermal conductivity of monolayer MoS2, MoSe2, and WS2: Interplay of mass effect, interatomic bonding and anharmonicity. RSC Adv. 6:5767-5773(2016)
     ESI高被引 (Mar 2017) in Materials

106. Bo Peng, Hao Zhang*, Hezhu Shao, Yuanfeng Xu, Xiangchao Zhang, Heyuan Zhu.Towards intrinsic phonon transport in single-layer MoS2. Ann. Phys. (Berlin), 528(6):504-511 (2016) [Back-cover Story]

107. Bo Peng, Hao Zhang*, Hezhu Shao, Yuchen Xu, Xiangchao Zhang, Heyuan Zhu. Low Lattice Thermal Conductivity in Stanene. Sci. Rep. 6:20225(2016)
     ESI高被引 (Jul/Aug 2016) inPhysics

108. X He, M Xu, X Zhang and H Zhang. A tutorial intruduction to graphene-microfibre waveguide and its applications. Front.  Optoelect. 9 (4), 535-543 (2016)

2015

109. L Li, X Zhang, H Zhang, X He and M Xu. Feature extraction of non-stochastic surfaces using curvelets. Prec. Eng., 2015;39:212-219

110. X Zhang, H Zhang, X He and M Xu. Fast evaluation of minimum zone form errors of NURBS surfaces. Proc. CIRP, 2015;27:23-28

111. Xin Jin, Hao Zhang*,Yuchen Xu, Xiangchao Zhang and Heyuan Zhu. Representation and focusing properties of higher-order radially polarized Laguerre-Gaussian beams. J. Mod. Opt. 62(8):626-632(2015).

Before 2015

112. Linfu Li, Xiangchao Zhang, Hao Zhang, Xiaoying He and Min Xu. Multiscale Analysis of Surface Morphologies by Curvelet and Contourlet Transforms. Surf. Topogr.: Metrol. Prop. 3 015003,2015

113. Yuchen Xu, Hao Zhang*, Xiangchao Zhang, Yongqiang Shen, Heyuan Zhu, Ming Lei, Min Xu. Transport properties of random media composed of core-shell spheres. Appl. Phys. A. 114:1223–1231 (2014)

114. Xiangchao Zhang, Hao Zhang, Xiaoying He and Min Xu. Bias in parameter estimation of form errors. Surf. Topogr. 2:035006 (2014)

115. 卢景红,徐敏,张浩. 透镜阵列模压加压过程型腔充型率的有限元仿真. 《激光与光电子学进展》, 2014(2):186-191

116. Jing Zhao, Hao Zhang*,Xiangchao Zhang, Dahai Li, Hongliang Lu and Min Xu, Abnormal Behaviors of Goos-Hänchen Shift in Hyperbolic Metamaterials Made of AZO Materials. Photon. Res., 1(4):160-163 (2013)

117. Hao Zhang, Yongqiang Shen, Yuchen Xu, Heyuan Zhu, Ming Lei, Xiangchao Zhang, Min Xu. Effective medium theory for two-dimensional random media composed of core-shell cylinders. Opt. Commun., 306:9-16 (2013)

118. X Zhang, M Xu, H Zhang, X He and X Jiang. Chebyshev fitting  of complex surfaces for precision metrology. Measurement2013;46 (9): 3720-2024

119. B Chen, X Zhang, H Zhang, X He and M Xu. Investigation of Error Separation for Three Dimensional Rotary Profile Measuring System. Measurement. 47:627–632(2013)

120. Xiaoying He, Xiangchao Zhang, Hao Zhang and Min Xu. Graphene Covered on Microfiber Exhibiting Polarization and Polarization-dependent Saturable Absorption. IEEE J. Sel. Top. Quant. Elect., 20(1):4500107 (2013)

121. Hao Zhang, Pengfei Zhu, Yuchen Xu, Heyuan Zhu and Min Xu (2011):” Effective medium theory for random media composed of two-layered spheres”. J. Opt. Soc. Am. A 28(11):2292-2297. [Selected by Virtual Journal for Biomedical Optics Vol. 7(1)]

122. Hao Zhang, Pengfei Zhu, Yuchen Xu, Heyuan Zhu and Min Xu (2011): “Modelling the optical properties of lossless multilayered spheres”. J. Opt. 13:095704 (5pp)

123. H. Zhang, H.Y. Zhu and M. Xu (2011): “Transport Properties of Light in Disordered Medium Composed of Two-layered Dispersive Spheres”. Opt. Expr. 19(4):2928–2940.[Selected by Virtual Journal for Biomedical Optics]

124. Hao Zhang, Yan Cen, Lifan Chen, Heyuan Zhu, Liejia Qian and Dianyuan Fan (2010): “Full-Angle Collimations of Two-Dimensional Photonic Crystals with Ultrahigh-Index Materials”. J. Opt.12:045103-045107.

125. Zhixiang Tang, Runwu Peng, Yunxia Ye, Chujun Zhao and Dianyuan Fan, Hao Zhang and Shuangchun Wen(2007): “Optical properties of a square-lattice photonic crystal within the partial bandgap”. J. Opt. Soc. Am. A, 24 (2): 379~384.

126. Zhang, H., Zhu, H., Qian, L., and Fan, D. (2007): “Collimations and negative refractions by slabs of 2D photonic crystals with periodically-aligned tube-type air holes”. Opt. Expr. 15(6):3519–3530.

127. Tang, Z., Zhang, H., Ye, Y., Zhao, C., Peng, R., Wen, S., and Fan, D. (2007): “Negative refraction in a honeycomb-lattice photonic crystal”. Sol. Stat. Commun. 141(4):183–187.

128. Tang, Z., Zhang, H., Peng, R., Ye, Y., Zhao, C., Wen, S., and Fan, D. (2007): “Subwavelength imaging with two symmetrical interfaces by dielectric-tube photonic crystals”. Appl. Phys. A. 87(2):223–225.

129. Tang, Z., Zhang, H., Peng, R., Ye, Y., Zhao, C., Wen, S., and Fan, D. (2006): “Subwavelength imaging by a dielectric-tube photonic crystal”. J. Opt. A-Pur. and Appl. Opt. 8(10):831–834.

130. Tang, Z., Zhang, H., Peng, R., Ye, Y., Shen, L., Wen, S., and Fan, D. (2006): “Scattering by two degenerate anisotropic modes in square-lattice dielectric photonic crystals”. Phys. Rev. B, 73(23):235103-235106.

131. Zhang, H., Zhu, H., Qian, L., and Fan, D. (2006): “Analysis of leaky modes of photonic crystal slabs with deeply patterned lattice”. J. Opt. A-Pur. and Appl. Opt. 8(5):483–488.

132. Tang, Z., Peng, R., Fan, D., Wen, S., Zhang, H., and Qian, L. (2005): “Absolute left-handed behaviors in a triangular elliptical-rod photonic crystal”. Opt. Expr. 13(24): 9796–9803.

133. Hao Zhang and Yongyuan Zhu (2004):”The classification of the general Fibonacci optical superlattices”. J. NanJing Univ. (nat. Sci.). [jnv2004]

Conference Paper

1. X Zhang, H Xiao, H Zhang, X He and M Xu. Uncertainty estmation in form error evaluation of freeform surfaces for precision engineering. Proc SPIE 2016;9903:99031G

2. X He, T Chen, DN Wang, X Zhang, H Zhang, M Xu. A long cavity graphene-based mode-locked fiber laser for high pulse energy output. Asia Communications and Photonics Conference, ATh3A. 77 (2014)

3. X He, D Wang, X Zhang, H Zhang, M Xu. High pulse energy, Q-switched fiber laser based on graphene. Optoelectronic Devices and Integration, JF2A. 13 (2014)

4. X Zhang, H Zhang, X He and M Xu. Fast filtering of surface topography of micro-optics using non-local means. Proc SPIE, 8916:891620(2013)

5. B Chen, X Zhang, H Zhang, X He and M Xu. Uncertainty evaluation for a three dimensional rotary measuring system by a Markov chain Monte Carlo method. Proc SPIE, 8916:891621(2013)

6. JH Lu, JH Wang, M Xu, H Zhang*, et. al. (2012):”Influence of under-bump metallurgy and solder alloys on the crack in the wafer level chip scale packaging”(ISTP)

7. Jinghong LU, Junhua WANG, Min XU and Hao ZHANG*. (2012):”Optimum parameters for precision compression molding of spherical glass-lens arrays, Proc. SPIE 8416:84160Q.

8. Zhang, H., Zhu, H., Qian, L., Fan, D., and Fu, X. (2006): “Optical properties of leaky modes of photonic crystal waveguides”. J. Kor. Phys. Soc. 49(5, Part 1 Sp. Iss. SI):2118–2123.

9. Tang Z, Zhang H., Ye Y., Zhao C., Wen S., and Fan D. (2006): “Low-pass spatial filtering using optically thinner left-handed photonic crystals”. International Symposium on Biophotonics, Nanophotonics and Metamaterials. 488-491 (IEEE).

Others

• 张浩(2011): <信鸽归巢之谜无终解>，Vol. 251《中国社会科学学报》.

专利

• 一种检测UV胶水固化过程动态光学特性的方法，李大海、张浩、徐敏，授权号：CN103969220B

  
  

获奖

• 获2017年度信息学院“院长奖”

• 获2018年首届“睿郡创新奖教金（科研成果奖&优秀研究生导师奖）”

• 获2019年第二届“睿郡创新奖教金”

• 获RSC  2018 Top 1% 高被引中国作者 (2018 Top 1% Highly-cited Chinese Authors)

• 获2020年第三届“睿郡创新奖教金”二等奖&三等奖

• 获2021年第四届“睿郡创新奖教金”一等奖

• 获2022年第五届“睿郡创新奖教金”一等奖

• 获2023年第六届“睿郡创新奖教金”一等奖

  
  

近几年学生获奖情况：

• 2014年指导的本科生李大海获复旦大学优秀毕业论文

• 2015年指导的本科生金鑫获复旦大学优秀毕业论文

• 2015年指导的本科生金鑫获复旦大学“毕业之星”提名奖

• 2016年指导的本科生彭博获复旦大学光华自立奖学术科研类（理科）三等奖

• 2016年指导的本科生彭博获复旦大学“本科生毕业生之星”奖

• 2016年指导的本科生彭博获复旦大学优秀毕业论文

• 2016年11月彭博获第九届全国大学生创新创业年会优秀论文奖并入选闭幕式大会报告(2/200)，见具体报道

• 2017年5月张德全获信息学院年度“科技创新杰出单项奖”

• 2017年与朱鹤元老师共同指导的本科生宁泽钰获复旦大学优秀毕业论文奖

• 2017年6月许园风获IUCr Young Scientist Awards

• 2017年7月彭博获2017 Youth Innovation Competition on Global Governance (YICGG)比赛BPP (Best Performance Player)与MIT (Most Innovation Team)两项大奖。见《Shanghai Daily》报道

• 2017年9月彭博获年度硕士研究生国奖

• 2017年10月彭博获2016-2017年度百人会英才奖(Committee of 100 Leadership Scholarship)

• 2017年11月彭博获2017年度复旦大学优秀学生标兵（研究生）

• 2018年4月许园风获2018年度复旦大学优秀毕业研究生

• 2018年5月彭博获复旦大学第九届“学术之星”称号！

• 2018年9月彭博获年度博士研究生国奖

• 2019年2月彭博同学获第69届林岛诺奖得主大会参会资格

• 2019年4月彭博同学获第十五届王大珩高校学生光学奖

• 2020年6月侯博文同学获复旦大学优秀毕业论文

• 2020年10月吴钰获年度博士研究生国奖

• 2020年10月马聪聪获年度博士研究生国奖

• 2020年10月陆紫煊获年度硕士研究生国奖

• 2021年4月徐轲获2021年度“上海市优秀毕业生（硕士）”

• 2021年4月陆紫煊获2021年度“复旦大学优秀毕业生（硕士）”

• 2021年5月侯博文获2021年度复旦大学“本科生毕业生之星”称号

• 2021年10月陈颖获年度博士研究生国奖

• 2022年3月蔡霞同学荣获“2022年全国光学与光学工程博士生学术联赛”上海赛区二等奖

• 2022年4月蔡霞获2022年度“上海市优秀毕业生（博士）”

• 2022年4月吴钰获2022年度“上海市优秀毕业生（博士）”

• 2022年10月张一鸣获年度硕士研究生国奖

• 2023年3月陈颖获2023年度“复旦大学优秀毕业生（博士）”

• 2023年3月张一鸣获2023年度“上海市优秀毕业生（硕士）”

• 2023年10月夏玉洁获年度博士研究生国奖

• 2024年4月夏玉洁获2024年度“上海市优秀毕业生（博士）”

• 2024年4月彭磊获2024年度“复旦大学优秀毕业生（博士）”

• 2024年4月李犇获2024年度“复旦大学优秀毕业生（硕士）”

• 2024年4月舒乐获2024年度“复旦大学优秀毕业生（硕士）”

  
  

教授课程

• 高中生课程：《新能源材料与器件引论》

• 本科生课程：《大学物理》、《半导体物理》、《半导体器件原理》

• 研究生课程：《偏振光学原理与应用》

• FIST暑期课程：《微电子与光电子器件建模与仿真》

小组成员

Group Member

研究生

• 夏玉洁，2020级博士生

• 彭   磊，2020级博士生

• 张   娟，2021级博士生

• 李   明，2023级博士生

• 李   犇，2021级硕士生

• 舒   乐，2021级硕士生

本科生

• 杜子健，2021级本科生 莙政学者计划

• 金罗智杰，2022级本科生 望道学者计划

• 代梦宇，2020级本科生

• 李期通，2020级本科生

• 练睿骁，2021级本科生

• 邝达，2021级本科生
  

Group Alumni

• 马聪聪 2023届博士毕业 华为公司

• 陈    颖 2023届博士毕业 2023年度复旦大学优秀毕业生（博士）华为公司

• 张一鸣 2023届硕士毕业 2023年度上海市优秀毕业生（硕士） KU Leuven攻博

• 叶宇澄 2023届本科毕业 2023年校优秀毕业论文 上海市优秀毕业生（本科）北京大学物理系攻博

• 王玉敏 2023届本科毕业 舜宇光学

• 蔡    霞 2022届博士毕业 2022年度上海市优秀毕业生（博士）上海师范大学

• 吴    钰 2022届博士毕业 2022年度上海市优秀毕业生（博士）电子科技大学

• 梅浩东 2022届硕士毕业 字节跳动

• 吴    敖 2023届本科毕业 2022年校优秀毕业论文 新加坡南洋理工大学攻博

• 徐    轲 2021届硕士毕业 2021年度上海市优秀毕业生（硕士）中兴通讯

• 陆紫煊 2021届硕士毕业 2021年度复旦大学优秀毕业生（硕士）深圳市龙华高级中学教育集团（高中部）

• 侯博文 2021届本科毕业 2020年校优秀毕业论文 2021年度“复旦大学本科生毕业生之星” Yale University攻博

• 严亚勋 2019届硕士毕业  浙江交通投资集团

• 彭    博 2019届硕士毕业 2016年校优秀毕业论文 2019年度王大珩高校学生光学奖 2016年度“复旦大学本科生毕业生之星”'复旦大学研究生学术之星' Cavendish Lab, Cambridge University攻博

• 许园风 2018届博士毕业  山东建筑大学理学院

• 张德全 2018届本科毕业  华晶光电

• 宁泽钰 2017届本科毕业  2017校优秀毕业论文 University of Maryland / Master Degree

• 徐钰晨 2016届博士毕业 网易游戏

• 林宇骏 2016届本科毕业 Georgia Tech / Master Degree

• 申永强 2015届硕士毕业 SMEE

• 金   鑫 2015届硕士毕业 2015校优秀毕业论文 Lehigh Univ博士

• 卢景红 2014届硕士毕业

• 赵   婧 2014届本科毕业 UNSW博士

• 李大海 2014届本科毕业 2014校优秀毕业论文 复旦大学博士