纳米材料物理与器件
主要研究内容包括制备一维或二维纳米材料（如碳纳米管、石墨烯、纳米线等），利用微纳加工技术制作纳米尺度电子学/光学器件，并研究器件的基本的物理特性。
 

   

1995-1999 山东大学物理系，本科
1999-2004 中科院物理研究所，硕博联读
 2002-2003 德国弗朗合费研究所，交换学生
2004-2008 美国斯坦福大学化学系，博士后

1999 山东大学物理系，学士
2004 中科院物理研究所，博士

2002-2003 德国弗朗合费研究所
2004-2008 美国斯坦福大学化学系

   

2008.5-2009.2 中科院物理研究所纳米实验室N04组，****研究员
2009.3-- 中科院物理研究所纳米实验室N07组，课题组长

   

2004 中科院院长奖学金特别奖
2004 54届德国林岛诺贝尔奖获得者报告会中国学生代表
2005 中科院50篇优秀博士毕业论文奖
2006 全国百篇优秀博士毕业论文奖

欧洲专利一项 （已捐出）
美国专利两项

   

[1] 吴帆帆, 季怡汝, 杨威, 张广宇. 二硫化钼的电子能带结构和低温输运实验进展. 物理学报[J]. 2022, 71(12): 272-282, http://lib.cqvip.com/Qikan/Article/Detail?id=7107488755.
[2] Wang, Yu, Wu, Linlu, Wei, Zheng, Liu, Zijia, Cheng, Peng, Zhang, Yiqi, Feng, Baojie, Zhang, Guangyu, Ji, Wei, Wu, Kehui, Chen, Lan. Real-space detection and manipulation of two-dimensional quantum well states in few-layer MoS2. PHYSICAL REVIEW B[J]. 2022, 105(8): http://dx.doi.org/10.1103/PhysRevB.105.L081404.
[3] 田金朋, 王硕培, 时东霞, 张广宇. 垂直短沟道二硫化钼场效应晶体管. 物理学报. 2022, 71(21): 359-364, http://lib.cqvip.com/Qikan/Article/Detail?id=7108318343.
[4] Liao, Mengzhou, Nicolini, Paolo, Du, Luojun, Yuan, Jiahao, Wang, Shuopei, Yu, Hua, Tang, Jian, Cheng, Peng, Watanabe, Kenji, Taniguchi, Takashi, Gu, Lin, Claerbout, Victor E P, Silva, Andrea, Kramer, Denis, Polcar, Tomas, Yang, Rong, Shi, Dongxia, Zhang, Guangyu. UItra-low friction and edge-pinning effect in large-lattice-mismatch van der Waals heterostructures. NATURE MATERIALS[J]. 2022, 21(1): 47-+, http://dx.doi.org/10.1038/s41563-021-01058-4.
[5] Zhao, Yanchong, Du, Luojun, Yang, Shiqi, Tian, Jinpeng, Li, Xiaomei, Shen, Cheng, Tang, Jian, Chu, Yanbang, Watanabe, Kenji, Taniguchi, Takashi, Yang, Rong, Shi, Dongxia, Sun, Zhipei, Ye, Yu, Yang, Wei, Zhang, Guangyu. Interlayer exciton complexes in bilayer MoS2. PHYSICAL REVIEW B[J]. 2022, 105(4): http://dx.doi.org/10.1103/PhysRevB.105.L041411.
[6] Li, Jiawei, Li, Na, Wang, Qinqin, Wei, Zheng, He, Congli, Shang, Dashan, Guo, Yutuo, Zhang, Woyu, Tang, Jian, Liu, Jieying, Wang, Shuopei, Yang, Wei, Yang, Rong, Shi, Dongxia, Zhang, Guangyu. Highly Stretchable MoS2-Based Transistors with Opto-Synaptic Functionalities. ADVANCED ELECTRONIC MATERIALS[J]. 2022, 8(9): http://dx.doi.org/10.1002/aelm.202200238.
[7] 张广宇, 龙根, 林生晃, 冼乐德, 姜岩, 吴昊, 王硕培, 李娜. 二维材料：从基础到应用. 中国科学院院刊[J]. 2022, 37(3): 368-374, http://lib.cqvip.com/Qikan/Article/Detail?id=7107006842.
[8] 赵岩翀, 薄涛, 杜罗军, 田金朋, 李晓梅, Kenji, Watanabe, Takashi, Taniguchi, 杨蓉, 时东霞, 孟胜, 杨威, 张广宇. Thermally induced band hybridization in bilayer-bilayer MoS2/WS2 heterostructure*. CHINESE PHYSICS B[J]. 2021, 30(5): 170-175, https://www.webofscience.com/wos/woscc/full-record/WOS:000647653900001.
[9] 吴闯文, 崔宝山, 朱增泰, 张广宇, 于国强, 梁世恒, 王浩. 零场下自旋轨道矩驱动垂直磁矩翻转. 中国材料进展[J]. 2021, 40(12): 972-981, http://lib.cqvip.com/Qikan/Article/Detail?id=7106714574.
[10] Shen, Cheng, Ying, Jianghua, Liu, Le, Liu, Jianpeng, Li, Na, Wang, Shuopei, Tang, Jian, Zhao, Yanchong, Chu, Yanbang, Watanabe, Kenji, Taniguchi, Takashi, Yang, Rong, Shi, Dongxia, Qu, Fanming, Lu, Li, Yang, Wei, Zhang, Guangyu. Emergence of Chern Insulating States in Non-Magic Angle Twisted Bilayer Graphene. CHINESE PHYSICS LETTERS[J]. 2021, 38(4): 96-102, http://dx.doi.org/10.1088/0256-307X/38/4/047301.
[11] Du, Jianyu, Xie, Donggang, Zhang, Qinghua, Zhong, Hai, Meng, Fanqi, Fu, Xingke, Sun, Qinchao, Ni, Hao, Li, Tao, Guo, Erjia, Guo, Haizhong, He, Meng, Wang, Can, Gu, Lin, Xu, Xiulai, Zhang, Guangyu, Yang, Guozhen, Jin, Kuijuan, Ge, Chen. A robust neuromorphic vision sensor with optical control of ferroelectric switching. NANO ENERGY[J]. 2021, 89: http://dx.doi.org/10.1016/j.nanoen.2021.106439.
[12] Shen, Cheng, Ying, Jianghua, Liu, Le, Liu, Jianpeng, Li, Na, Wang, Shuopei, Tang, Jian, Zhao, Yanchong, Chu, Yanbang, Watanabe, Kenji, Taniguchi, Takashi, Yang, Rong, Shi, Dongxia, Qu, Fanming, Lu, Li, Yang, Wei, Zhang, Guangyu. Emergence of Chern insulating states in non-Magic angle twisted bilayer graphene. 2021, http://arxiv.org/abs/2010.03999.
[13] Tang, Jian, He, Congli, Tang, Jianshi, Yue, Kun, Zhang, Qingtian, Liu, Yizhou, Wang, Qinqin, Wang, Shuopei, Li, Na, Shen, Cheng, Zhao, Yanchong, Liu, Jieying, Yuan, Jiahao, Wei, Zheng, Li, Jiawei, Watanabe, Kenji, Taniguchi, Takashi, Shang, Dashan, Wang, Shouguo, Yang, Wei, Yang, Rong, Shi, Dongxia, Zhang, Guangyu. A Reliable All-2D Materials Artificial Synapse for High Energy-Efficient Neuromorphic Computing. ADVANCED FUNCTIONAL MATERIALS[J]. 2021, 31(27): http://dx.doi.org/10.1002/adfm.202011083.
[14] Meng, Linan, Xin, Na, Wang, Jinying, Xu, Jiyu, Ren, Shizhao, Yan, Zhuang, Zhang, Miao, Shen, Cheng, Zhang, Guangyu, Guo, Xuefeng, Meng, Sheng. Atomically Precise Engineering of Single-Molecule Stereoelectronic Effect. ANGEWANDTE CHEMIE-INTERNATIONAL EDITION[J]. 2021, 60(22): 12274-12278, http://dx.doi.org/10.1002/anie.202100168.
[15] Cui, Baoshan, Yu, Dongxing, Shao, Ziji, Liu, Yizhou, Wu, Hao, Nan, Pengfei, Zhu, Zengtai, Wu, Chuangwen, Guo, Tengyu, Chen, Peng, Zhou, HengAn, Xi, Li, Jiang, Wanjun, Wang, Hao, Liang, Shiheng, Du, Haifeng, Wang, Kang L, Wang, Wenhong, Wu, Kehui, Han, Xiufeng, Zhang, Guangyu, Yang, Hongxin, Yu, Guoqiang. Neel-Type Elliptical Skyrmions in a Laterally Asymmetric Magnetic Multilayer. ADVANCED MATERIALS[J]. 2021, 33(12): http://dx.doi.org/10.1002/adma.202006924.
[16] Guangyu Zhang. From magic angle twisted bilayer graphene to moiré superlattice quantum simulator. Acta Phys. Sin.. 2021, [17] 何聪丽, 许洪军, 汤建, 王潇, 魏晋武, 申世鹏, 陈庆强, 邵启明, 于国强, 张广宇, 王守国. 基于二维材料的自旋-轨道矩研究进展. 物理学报[J]. 2021, 70(12): 47-58, http://lib.cqvip.com/Qikan/Article/Detail?id=7104924835.
[18] Zhao, Jing, Wei, Zheng, Yang, Xixi, Zhang, Guangyu, Wang, Zhonglin. Mechanoplastic tribotronic two-dimensional multibit nonvolatile optoelectronic memory. NANO ENERGY[J]. 2021, 82: http://dx.doi.org/10.1016/j.nanoen.2020.105692.
[19] Wei, Zheng, Tang, Jian, Li, Xuanyi, Chi, Zhen, Wang, Yu, Wang, Qinqin, Han, Bo, Li, Na, Huang, Biying, Li, Jiawei, Yu, Hua, Yuan, Jiahao, Chen, Hailong, Sun, Jiatao, Chen, Lan, Wu, Kehui, Gao, Peng, He, Congli, Yang, Wei, Shi, Dongxia, Yang, Rong, Zhang, Guangyu. Wafer-Scale Oxygen-Doped MoS2 Monolayer. SMALL METHODS[J]. 2021, 5(6): http://dx.doi.org/10.1002/smtd.202100091.
[20] Zhang, Yu, Xu, Hongjun, Yi, Changjiang, Wang, Xiao, Huang, Yuan, Tang, Jian, Jiang, Jialiang, He, Congli, Zhao, Mingkun, Ma, Tianyi, Dong, Jing, Guo, Chenyang, Feng, Jiafeng, Wan, Caihua, Wei, Hongxiang, Du, Haifeng, Shi, Youguo, Yu, Guoqiang, Zhang, Guangyu, Han, Xiufeng. Exchange bias and spin-orbit torque in the Fe3GeTe2-based heterostructures prepared by vacuum exfoliation approach. APPLIED PHYSICS LETTERS[J]. 2021, 118(26): [21] 季怡汝, 褚衍邦, 冼乐德, 杨威, 张广宇. 从“魔角”石墨烯到摩尔超晶格量子模拟器. 物理学报[J]. 2021, 70(11): 1-10, http://lib.cqvip.com/Qikan/Article/Detail?id=7104805284.
[22] Zheng Wei, Qinqin Wang, Lu Li, Rong Yang, Guangyu Zhang. Monolayer MoS2 epitaxy. NANO RESEARCH[J]. 2021, 14(6): 1598-1608, https://www.webofscience.com/wos/woscc/full-record/WOS:000561979800002.
[23] 张颂歌, 陈雨彤, 王宁, 柴扬, 龙根, 张广宇. 二维CrI_（3）晶体的磁性测量与调控. 物理学报[J]. 2021, 70(12): 78-89, http://lib.cqvip.com/Qikan/Article/Detail?id=7104924838.
[24] Guangyu Zhang. Structural Superlubricity in 2D van der Waals Heterojunctions. Nanotechnology. 2021, [25] Luo, Hailan, Li, Xuanyi, Zhao, Yanchong, Yang, Rong, Bao, Lihong, Hao, Yufeng, Gao, Yunan, Shi, Norman N, Guo, Yang, Liu, Guodong, Zhao, Lin, Wang, Qingyan, Zhang, Zhongshan, Zhang, Guangyu, Sun, Jiatao, Huang, Yuan, Gao, Hongjun, Zhou, Xingjiang. Simultaneous generation of direct- and indirect-gap photoluminescence in multilayer MoS2 bubbles. PHYSICAL REVIEW MATERIALS[J]. 2020, 4(7): https://www.webofscience.com/wos/woscc/full-record/WOS:000550760900004.
[26] Shen, Cheng, Chu, Yanbang, Wu, QuanSheng, Li, Na, Wang, Shuopei, Zhao, Yanchong, Tang, Jian, Liu, Jieying, Tian, Jinpeng, Watanabe, Kenji, Taniguchi, Takashi, Yang, Rong, Meng, Zi Yang, Shi, Dongxia, Yazyev, Oleg, V, Zhang, Guangyu. Correlated states in twisted double bilayer graphene. NATURE PHYSICS[J]. 2020, 16(5): 520-+, [27] Li, Na, Wang, Qinqin, Shen, Cheng, Wei, Zheng, Yu, Hua, Zhao, Jing, Lu, Xiaobo, Wang, Guole, He, Congli, Xie, Li, Zhu, Jianqi, Du, Luojun, Yang, Rong, Shi, Dongxia, Zhang, Guangyu. Large-scale flexible and transparent electronics based on monolayer molybdenum disulfide field-effect transistors. NATURE ELECTRONICS[J]. 2020, 3(11): 711-717, [28] 褚衍邦, 刘乐, 袁亚龙, 沈成, 杨蓉, 时东霞, 杨威, 张广宇. A review of experimental advances in twisted graphene moiré superlattice. 中国物理B:英文版[J]. 2020, 29(12): 17-23, http://lib.cqvip.com/Qikan/Article/Detail?id=7103588629.
[29] Liao, Mengzhou, Wei, Zheng, Du, Luojun, Wang, Qinqin, Tang, Jian, Yu, Hua, Wu, Fanfan, Zhao, Jiaojiao, Xu, Xiaozhi, Han, Bo, Liu, Kaihui, Gao, Peng, Polcar, Tomas, Sun, Zhipei, Shi, Dongxia, Yang, Rong, Zhang, Guangyu. Precise control of the interlayer twist angle in large scale MoS2 homostructures. NATURE COMMUNICATIONS[J]. 2020, 11(1): [30] Jiang Wei Wang, Meng Li, Guang Yu Zhang, Hao Rui Zhang, Cheng Qun Yu. Growing Season Precipitation Rather than Growing Season Length Predominates Maximum Normalized Difference Vegetation Index in Alpine Grasslands on the Tibetan Plateau. SUSTAINABILITY[J]. 2020, 12(3): https://doaj.org/article/04a7341a04a84c76a6164b0a65fcdc84.
[31] Wang, Qinqin, Li, Na, Tang, Jian, Zhu, Jianqi, Zhang, Qinghua, Jia, Qi, Lu, Ying, Wei, Zheng, Yu, Hua, Zhao, Yanchong, Guo, Yutuo, Gu, Lin, Sun, Gang, Yang, Wei, Yang, Rong, Shi, Dongxia, Zhang, Guangyu. Wafer-Scale Highly Oriented Monolayer MoS2 with Large Domain Sizes. NANOLETTERS[J]. 2020, 20(10): 7193-7199, https://www.webofscience.com/wos/woscc/full-record/WOS:000598727300034.
[32] Guangyu Zhang. Yanchong Zhao, Luojun Du*, Wei Yang, Cheng Shen, Jian Tang, Xiaomei Li, Yanbang Chu, Jinpeng Tian, Kenji Watanabe, Takashi Taniguchi, Rong Yang, Dongxia Shi, Zhipei Sun, and Guangyu Zhang*, Observation of logarithmic Kohn anomaly in monolayer graphene. Phys. Rev. B. 2020, [33] Wei, Zheng, Liao, Mengzhou, Guo, Yutuo, Tang, Jian, Cai, Yongqing, Chen, Hanyang, Wang, Qinqin, Jia, Qi, Lu, Ying, Zhao, Yanchong, Liu, Jieying, Chu, Yanbang, Yu, Hua, Li, Na, Yuan, Jiahao, Huang, Biying, Shen, Cheng, Yang, Rong, Shi, Dongxia, Zhang, Guangyu. Scratching lithography for wafer-scale MoS(2)monolayers. 2D MATERIALS[J]. 2020, 7(4): http://dx.doi.org/10.1088/2053-1583/aba99f.
[34] Zhao, Yanchong, Du, Luojun, Yang, Wei, Shen, Cheng, Tang, Jian, Li, Xiaomei, Chu, Yanbang, Tian, Jinpeng, Watanabe, Kenji, Taniguchi, Takashi, Yang, Rong, Shi, Dongxia, Sun, Zhipei, Zhang, Guangyu. Observation of logarithmic Kohn anomaly in monolayer graphene. PHYSICAL REVIEW B[J]. 2020, 102(16): http://dx.doi.org/10.1103/PhysRevB.102.165415.
[35] Chu, Yanbang, Liu, Le, Yuan, Yalong, Shen, Cheng, Yang, Rong, Shi, Dongxia, Yang, Wei, Zhang, Guangyu. A review of experimental advances in twisted graphene moire superlattice*. CHINESE PHYSICS B[J]. 2020, 29(12): https://www.webofscience.com/wos/woscc/full-record/WOS:000600802000001.
[36] Tang, Jian, Wei, Zheng, Wang, Qinqin, Wang, Yu, Han, Bo, Li, Xiaomei, Huang, Biying, Liao, Mengzhou, Liu, Jieying, Li, Na, Zhao, Yanchong, Shen, Cheng, Guo, Yutuo, Bai, Xuedong, Gao, Peng, Yang, Wei, Chen, Lan, Wu, Kehui, Yang, Rong, Shi, Dongxia, Zhang, Guangyu. In Situ Oxygen Doping of Monolayer MoS(2)for Novel Electronics. SMALL[J]. 2020, 16(42): https://www.webofscience.com/wos/woscc/full-record/WOS:000570363300001.
[37] Lu, Xiaobo, Tang, Jian, Wallbank, John R, Wang, Shuopei, Shen, Cheng, Wu, Shuang, Chen, Peng, Yang, Wei, Zhang, Jing, Watanabe, Kenji, Taniguchi, Takashi, Yang, Rong, Shi, Dongxia, Efetov, Dmitri K, Falko, Vladimir, I, Zhang, Guangyu. High-order minibands and interband Landau level reconstruction in graphene moire superlattices. PHYSICAL REVIEW B[J]. 2020, 102(4): https://www.webofscience.com/wos/woscc/full-record/WOS:000546191800005.
[38] Tang, Jian, Wang, Qinqin, Wei, Zheng, Shen, Cheng, Lu, Xiaobo, Wang, Shuopei, Zhao, Yanchong, Liu, Jieying, Li, Na, Chu, Yanbang, Tian, Jinpeng, Wu, Fanfan, Yang, Wei, He, Congli, Yang, Rong, Shi, Dongxia, Watanabe, Kenji, Taniguchi, Takashi, Zhang, Guangyu. Vertical Integration of 2D Building Blocks for All-2D Electronics. ADVANCED ELECTRONIC MATERIALS[J]. 2020, 6(12): http://dx.doi.org/10.1002/aelm.202000550.
[39] Guo, Xiangdong, Liu, Ruina, Hu, Debo, Hu, Hai, Wei, Zheng, Wang, Rui, Dai, Yunyun, Cheng, Yang, Chen, Ke, Liu, Kaihui, Zhang, Guangyu, Zhu, Xing, Sun, Zhipei, Yang, Xiaoxia, Dai, Qing. Efficient All-Optical Plasmonic Modulators with Atomically Thin Van Der Waals Heterostructures. ADVANCED MATERIALS[J]. 2020, 32(11): http://dx.doi.org/10.1002/adma.201907105.
[40] Zhang, Haorui, Li, Shaowei, Zhang, Guangyu, Fu, Gang. Response of Soil Microbial Communities to Warming and Clipping in Alpine Meadows in Northern Tibet. SUSTAINABILITY[J]. 2020, 12(14): https://doaj.org/article/480f40fd79704cf199095d0a0f16a0d7.
[41] Li, Jia, Yang, Xiangdong, Liu, Yang, Huang, Bolong, Wu, Ruixia, Zhang, Zhengwei, Zhao, Bei, Ma, Huifang, Dang, Weiqi, Wei, Zheng, Wang, Kai, Lin, Zhaoyang, Yan, Xingxu, Sun, Mingzi, Li, Bo, Pan, Xiaoqing, Luo, Jun, Zhang, Guangyu, Liu, Yuan, Huang, Yu, Duan, Xidong, Duan, Xiangfeng. General synthesis of two-dimensional van der Waals heterostructure arrays. NATURE[J]. 2020, 579(7799): 368-+, https://www.webofscience.com/wos/woscc/full-record/WOS:000519162500011.
[42] Dai, Yunyun, Wang, Yadong, Das, Susobhan, Xue, Hui, Bai, Xueyin, Hulkko, Eero, Zhang, Guangyu, Yang, Xiaoxia, Dai, Qing, Sun, Zhipei. Electrical Control of Interband Resonant Nonlinear Optics in Monolayer MoS2. ACS NANO[J]. 2020, 14(7): 8442-8448, https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7735744/.
[43] He, Congli, Tang, Jian, Shang, DaShan, Tang, Jianshi, Xi, Yue, Wang, Shuopei, Li, Na, Zhang, Qingtian, Lu, JiKai, Wei, Zheng, Wang, Qinqin, Shen, Cheng, Li, Jiawei, Shen, Shipeng, Shen, Jianxin, Yang, Rong, Shi, Dongxia, Wu, Huaqiang, Wang, Shouguo, Zhang, Guangyu. Artificial Synapse Based on van der Waals Heterostructures with Tunable Synaptic Functions for Neuromorphic Computing. ACS APPLIED MATERIALS & INTERFACES[J]. 2020, 12(10): 11945-11954, https://www.webofscience.com/wos/woscc/full-record/WOS:000526609100065.
[44] Meng, JianLing, Wei, Zheng, Tang, Jian, Zhao, Yanchong, Wang, Qinqin, Tian, Jinpeng, Yang, Rong, Zhang, Guangyu, Shi, Dongxia. Employing defected monolayer MoS2 as charge storage materials. NANOTECHNOLOGY[J]. 2020, 31(23): https://www.webofscience.com/wos/woscc/full-record/WOS:000521955900001.
[45] Xin, Na, Kong, Xianghua, Zhang, YuPeng, Jia, Chuancheng, Liu, Lei, Gong, Yao, Zhang, Weining, Wang, Shuopei, Zhang, Guangyu, Zhang, HaoLi, Guo, Hong, Guo, Xuefeng. Control of Unipolar/Ambipolar Transport in Single-Molecule Transistors through Interface Engineering. ADVANCED ELECTRONIC MATERIALS[J]. 2020, 6(6): http://dx.doi.org/10.1002/aelm.201901237.
[46] Dai, Bo, He, Yuqing, Zhang, Guangyu, Gu, Feng, Yang, Liying, Xu, Weiliang. Wind disturbance rejection for unmanned aerial vehicles using acceleration feedback enhanced H-infinity method. AUTONOMOUS ROBOTS[J]. 2020, 44(7): 1271-1285, https://www.webofscience.com/wos/woscc/full-record/WOS:000552242800001.
[47] Lee, Kyunghoon, Utama, M Iqbal Bakti, Kahn, Salman, Samudralas, Appalakondaiah, Lecontes, Nicolas, Yang, Birui, Wang, Shuopei, Watanabe, Kenji, Taniguchi, Takashi, Altoe, M Virginia P, Zhang, Guangyu, WeberBargioni, Alexander, Crommie, Michael, Ashby, Paul D, June, Jeil, Wang, Feng, Zettl, Alex. Ultrahigh-resolution scanning microwave impedance microscopy of moire lattices and superstructures. SCIENCEADVANCES[J]. 2020, 6(50): http://dx.doi.org/10.1126/sciadv.abd1919.
[48] Linan Meng, Na Xin, Chen Hu, Jinying Wang, Bo Gui, Junjie Shi, Cheng Wang, Cheng Shen, Guangyu Zhang, Hong Guo, Sheng Meng, Xuefeng Guo. Side-group chemical gating via reversible optical and electric control in a single molecule transistor. NATURE COMMUNICATIONS[J]. 2019, 10(1): 1-8, https://doaj.org/article/a44db9a2c7eb4321a62f28052d836c49.
[49] 王硕培, 何聪丽, 汤建, 杨蓉, 时东霞, 张广宇. Electronic synapses based on ultrathin quasi-two-dimensional gallium oxide memristor. 中国物理B:英文版[J]. 2019, 183-188, http://lib.cqvip.com/Qikan/Article/Detail?id=90718776504849574849484952.
[50] Li, Na, Wei, Zheng, Zhao, Jing, Wang, Qinqin, Shen, Cheng, Wang, Shuopei, Tang, Jian, Yang, Rong, Shi, Dongxia, Zhang, Guangyu. Atomic Layer Deposition of Al2O3 Directly on 2D Materials for High-Performance Electronics. ADVANCED MATERIALS INTERFACES[J]. 2019, 6(10): http://dx.doi.org/10.1002/admi.201802055.
[51] Du, Luojun, Zhao, Yanchong, Jia, Zhiyan, Liao, Mengzhou, Wang, Qinqin, Guo, Xiangdong, Shi, Zhiwen, Yang, Rong, Watanabe, Kenji, Taniguchi, Takashi, Xiang, Jianyong, Shi, Dongxia, Dai, Qing, Sun, Zhipei, Zhang, Guangyu. Strong and tunable interlayer coupling of infrared-active phonons to excitons in van der Waals heterostructures. PHYSICAL REVIEW B[J]. 2019, 99(20): https://www.webofscience.com/wos/woscc/full-record/WOS:000467726400007.
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[1] 天津 第一届石墨烯研讨会，南开大学，2008

[2] 中国物理学会秋季学术会议，山东大学，2008

[3]中德纳米会，北京-昆明，2008

[4] G. Y. Zhang, P. F. Qi, X. R. Wang, Y. R. Lu, X. L. Li, R. Tu, S. Bangsarantip, D. Mann, L. Zhang & H. Dai, Selective etching of metallic carbon nanotubes by gas-phase reaction, 4^th Annual Foundations of Nanoscience Conference (07), Salt Lake City, April 18-21, 2007 (Keynote talk).

[5] G. Y. Zhang, P. F. Qi, X. R. Wang, Y. R. Lu, X. L. Li, R. Tu, S. Bangsarantip, D. Mann, L. Zhang & H. Dai, High current all-semiconductor carbon nanotube electronics, APS March Meeting, Denver, March 5-9, 2007

[6] G. Y. Zhang & X. Jiang, PECVD fabrication of carbon cones and helices on a metal tip,

 8th Applied Diamond Conference/NanoCarbon 2005 Joint Conference, Argonne National Laboratory, Chicago, May 15-19, 2005 (invited talk).

[7] G. Y. Zhang, X. Jiang & E. G. Wang, A new nanostructure: Tubular Graphite Cones,

1^st Academic Forum for Chinese Doctoral Candidates, Beijing, China, Oct. 17-19, 2003.

[8] G. Y. Zhang, X. Jiang & E. G. Wang, A new nanostructure: Tubular Graphite Cones, Chinese Physics Society (CPS) 2003 Fall Meeting, Hefei, China, Sep. 18-21, 2003.

[9] G. Y. Zhang & E. G. Wang, A new method to filling the carbon nanotubes with copper, German-Chinese Symposium on Self-Organization of Functional Nanomaterials, Münster, Germany, May 27-29, 2002.

[10] G. Y. Zhang, D. Y. Zhong, S. Liu

& E. G. Wang

, Polymerized carbon nitride nanobells and heterojunctions, The International Conference on Surface and Interface Science and Technology (SISE'2001), Shenzhen, China, July 31-Aug. 2, 2001.

   

中科院微电子所
中科院化学所
美国斯坦福大学化学系

杨蓉，硕博联读生
史志文，硕博联读生
张连昌，硕博联读生
程颖丽，联合培养硕士生