Research
Our multidisciplinary group focuses on translational 2D nanotechnology – from materials to devices to circuits, blurring the boundaries among materials science, electronics, physics, chemistry and mechanics. We explore both the fundamental, theoretical nature of new materials and devices, as well as experimental implementations of these theories.
News
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第十七届IEEE纳米技术材料与器件大会在东南大学举办
11月18-20日,国际电子工程师协会纳米委员会(IEEE NTC)和东南大学联合主办的第十七届纳米技术材料和器件大会在宁举办.
2022/11.
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祝贺我组18级硕士研究生顺利通过硕士学位论文答辩!
祝愿大家前程似锦!
2021/05.
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第五届微系统及纳米工程论坛
孙星浩和钟丽杰摘取第五届微系统及纳米工程论坛最佳墙报奖.
IEEE NMDC 线上成功举办
由东南大学承办的第15届国际电气电子工程师协会纳米技术材料与器件会议(IEEE-NMDC)于2020年10月26-27日在线上成功举行.
微电子及纳米工程峰会2018
陶立教授荣膺"2018微系统及纳米工程峰会青年科学家奖".
Publications
Articles
[62] Zhenliang Li, Yujian Rao, Zhehan Wang, Tuo Zhang, Guodong Wu, Litao Sun, Yuan Ren, Li Tao., "Universal Synthesis of Core–Shell-Structured Ordered Mesoporous Transition Metal Dichalcogenides/Metal Oxides Heterostructures with Active Edge Sites", Small Structures , 2024.
[61] Hang Ju, Beibei Zhu, Wenya Wang, Lili Chen, Xianfeng Ni and Li Tao., "Improving the thermoelectric performance of p-type (BixSb1−x)2Te3 thin films via tuning the BixSb1−x layer", J. Mater. Chem. A , 2024.
[60] Yujian Rao, Zhenliang Li, Tuo Zhang, Zhehan Wang, Weisheng Li, Xinran Wang, Litao Sun, Yuan Ren, Li Tao., "Synthesis of Ordered Mesoporous Transition Metal Dichalcogenides by Direct Organic–Inorganic Co-Assembly", Adv. Funct. Mater. , 2024.
[59] Tuo Zhang, Guodong Wu, Jingyao Wang, Ruxia Du, Huiwen Lin, Yuan Ren*, Li Tao*., "Self-Powered ZnO@PdTe2/Si Heterojunction Photodetector with an Ultrafast Response for Color Imaging and Optical Communication", ACS Appl. Mater. Interfaces , 2024.
[58] Du, Ruxia, Wang, Wenhui, Lin, Huiwen, Zhang, Xinlei, Wu, Hao, Zhu, Beibei, Jing, Xu, Gu, Xing, Ni, Zhenhua and Tao, Li., "Fast and broadband spatial-photoresistance modulation in graphene–silicon heterojunctions", Nanophotonics , 2024.
[57] W. Zha, Q. Ruan, L. Ma, M. Liu, H. Lin, L. Sun, Z. Sun, L. Tao., "Highly Stable Photo-Assisted Zinc-Ion Batteries via Regulated Photo-Induced Proton Transfer", Angew. Chem. Int. Ed. , 2024.
[56] Zhehan Wang, Xu Jing, Shengshun Duan, Chang Liu, Dingxuan Kang, Xiao Xu, Jiayi Chen, Yier Xia, Bo Chang, Chengdong Zhao, Beibei Zhu, Tao Xu, Huiwen Lin, Weibing Lu, Yuan Ren, Litao Sun, Jun Wu*, and Li Tao*., "2D PtSe2 Enabled Wireless Wearable Gas Monitoring Circuits with Distinctive Strain-Enhanced Performance", ACS Nano , 2023.
[55] Yangyang Shi, Fengyi Yang, and Li Tao*., "Ni-Activated and Ni–P-Activated Porous Titanium Carbide Ceramic Electrodes as Efficient Electrocatalysts for Overall Water Splitting", ACS Appl. Mater. Interfaces , 2023.
[54] Lili Chen, Beibei Zhu, Jiayi Chen, Shanshan Xing and Li Tao., "2D Bi2Te3/Si heterostructure with high thermoelectric power factor enabled by interface regulated carrier injection", Nanotechnology , 2023.
[53] H. Zhao, Y. Xue, Y. Zhao, J. Chen, B. Chang, H. Huang, T. Xu, L. Sun, Y. Chen, J. Sha, B. Zhu and L. Tao., "Large-area 2D Bismuth Antimonide with Enhanced Thermoelectric Property via Multiscale Electron-Phonon Decoupling", Mater. Horiz , 2023.
More
[52] Jia, C.; Zhu, B*.; Pang, C.; Yuan, C.; Xu, P.; Xu, B,; Bai, J.; Tao, L.; Xue, F*.; Tang, G*., "High thermoelectric performance in ZrNiSn through electron injection and boosting carrier mobility", Materials Today Physics, 2023.
[51] Yang, J.; Zhou, W.; Chen, C.; Zhang, J.; Qu, H.; Ji, Y.; Tao, L*.; Wu, Z.; Zeng, H.; Zhang, S*., "Extreme Anisotropic Dispersion and One-Dimensional Confined Electrons in 2-D SiP₂ FETs With High Transmission Coefficients", IEEE Transactions on Electron Devices, 2023.
[50] Qichao Chen, Chengjie Lu, Boyu Ping, Guiyang Li, Jiayi Chen, ZhengMing Sun, Yuanjian Zhang, Qiushi Ruan, Li Tao., "macA Hydroxyl-induced Carbon Nitride Homojunction with Functional Surface for Efficient Photocatalytic Production of H2O2", Applied Catalysis B: Environmental, 2022.
[49] Jia, C.; Xu, X.; Zhong, L.; Kang, D.; Shen, P.; Xu, B.; Bai, J.; Xue, F.; Yin, K.; Zhu, B.; Tao, L., "Multi-Interface-Induced Thermal Conductivity Reduction and Thermoelectric Performance Improvement in a Cu−Ni Alloy", ACS Applied Energy Materials Article ASAP, 2022.
[48] Chen, Q.; Chen, J.; Xu, X.; Wang, Z., Ding, Y.; Xiong, L.;Zhu B.;Tao, L., "Morphology Optimization of Bi2Se3 Thin Films for Enhanced Thermoelectric Performance", Crystal Growth & Design, 2021, 21(12): 6737-6743.
[47] Ding, Y.; He, P.; Li, S.; Chang, B.; Zhang, S.; Wang, Z.; Chen, J.; Yu, J.; Wu, S.; Zeng, H.; Tao, L., "Efficient Full-Color Boron Nitride Quantum Dots for Thermostable Flexible Displays", ACS Nano, 2021,15 (9),14610-14617.
[46] Duan, S.; Lin, Y.; Wang, Z.; Tang, J.; Li, Y.; Zhu, D.; Wu, J.; Tao, L.; Choi, C.-H.; Sun, L.; Xia, J.; Wei, L.; Wang, B., "Conductive Porous MXene for Bionic, Wearable, and Precise Gesture Motion Sensors", Research , 2021, 9861467.
[45] Dang, Z.; Wang, W.; Chen, J.; Walker, E. S.; Bank, S. R.; Akinwande, D.; Ni, Z.; Tao, L., "Vis-NIR photodetector with microsecond response enabled by 2D bismuth/Si(111) heterojunction", 2D Materials, 2021, 8 (3).
[44] Sun, X.; Zhao, H.; Chen, J.; Zhong, W.; Zhu, B.; Tao, L., "Effects of the thickness and laser irradiation on the electrical properties of e-beam evaporated 2D bismuth", Nanoscale, 2021, 13 (4), 2648-2657.
[43] Zhu, B.; Chen, Q.; Jiang, S.; Holt, M.; Zhu, W.; Akinwande, D.; Tao, L., "Thermoelectric effect and devices on IVA and VA Xenes", InfoMat, 2021, 3(3), 271-292.
[42] Zhong, W.; Zhao, Y.; Zhu, B. B.; Sha, J. J.; Walker, E. S.; Bank, S.; Chen, Y. F.; Akinwande, D.; Tao, L., "Anisotropic thermoelectric effect and field-effect devices in epitaxial bismuthene on Si (111)", Nanotechnology, 2020, 31 (47).
[41] Zhao, H.; Sun, X.; Zhu, Z.; Zhong, W.; Song, D.; Lu, W.; Tao, L.,"Physical vapor deposited 2D bismuth for CMOS technology", Journal of Semiconductors, 2020, 41 (8).
[40] Martella, C.; Faraone, G.; Alam, M. H.; Taneja, D.; Tao, L.; Scavia, G.; Bonera, E.; Grazianetti, C.; Akinwande, D.; Molle, A.,"Disassembling Silicene from Native Substrate and Transferring onto an Arbitrary Target Substrate", Advanced Functional Materials, 2020, 30 (42).
[39] Park, S.; Chang, H. Y.; Rahimi, S.; Lee, A. L.; Tao, L.; Akinwande, D., "Transparent Nanoscale Polyimide Gate Dielectric for Highly Flexible Electronics", Advanced Electronic Materials, 2018, 4 (2).
[38] Molle, A.; Grazianetti, C.; Tao, L.; Taneja, D.; Alam, M. H.; Akinwande, D., "Silicene, silicene derivatives, and their device applications", Chemical Society Reviews, 2018, 47 (16), 6370-6387.
[37] Ge, R. J.; Wu, X. H.; Kim, M.; Shi, J. P.; Sonde, S.; Tao, L.; Zhang, Y. F.; Lee, J. C.; Akinwande, D.,"Atomristor: Nonvolatile Resistance Switching in Atomic Sheets of Transition Metal Dichalcogenides", Nano Letters, 2018, 18 (1), 434-441.
[36] Wang, X. H.; Dolocan, A.; Chou, H.; Tao, L.; Dick, A.; Akinwande, D.; Wilison, C. G., "Direct Observation of Poly(Methyl Methacrylate) Removal from a Graphene Surface", Chemistry of Materials, 2017, 29 (5), 2033-2039.
[35] Grazianetti, C.; Cinquanta, E.; Tao, L.; De Padova, P.; Quaresima, C.; Ottaviani, C.; Akinwande, D.; Molle, A.,"Silicon Nanosheets: Crossover between Multilayer Silicene and Diamond-like Growth Regime", Acs Nano , 2017, 11 (3), 3376-3382.
[34] Ameri, S. K.; Ho, R.; Jang, H. W.; Tao, L.; Wang, Y. H.; Wang, L.; Schnyer, D. M.; Akinwande, D.; Lu, N. S., "Graphene Electronic Tattoo Sensors", Acs Nano, 2017, 11 (8), 7634-7641.
[33] Zanjani, S. M. M.; Sadeghi, M. M.; Holt, M.; Chowdhury, S. F.; Tao, L.; Akinwande, D., "Enhanced sensitivity of graphene ammonia gas sensors using molecular doping", Applied Physics Letters, 2016, 108 (3).
[32] Wang, B.; Huang, M.; Tao, L.; Lee, S. H.; Jang, A. R.; Li, B. W.; Shin, H. S.; Akinwande, D.; Ruoff, R. S.,"Support-Free Transfer of Ultrasmooth Graphene Films Facilitated by Self-Assembled Monolayers for Electronic Devices and Patterns", Acs Nano, 2016, 10 (1), 1404-1410.
[31] Walker, E. S.; Na, S. R.; Jung, D.; March, S. D.; Kim, J. S.; Trivedi, T.; Li, W.; Tao, L.; Lee, M. L.; Liechti, K. M.; Akinwande, D.; Bank, S. R.," Large-Area Dry Transfer of Single-Crystalline Epitaxial Bismuth Thin Films", Nano Letters, 2016, 16 (11), 6931-6938.
[30] Na, S. R.; Rahimi, S.; Tao, L.; Chou, H.; Ameri, S. K.; Akinwande, D.; Liechti, K. M., "Clean graphene interfaces by selective dry transfer for large area silicon integration", Nanoscale, 2016, 8 (14), 7523-7533.
[29] Huang, H. Y.; Tao, L.; Liu, F.; Ji, L.; Hu, Y.; Cheng, M. M. C.; Chen, P. Y.; Akinwande, D.,"Chemical-sensitive graphene modulator with a memory effect for internet-of-things applications", Microsystems & Nanoengineering, 2016, 2.
[28] Cao, Z. Y.; Tao, L.; Akinwande, D.; Huang, R.; Liechti, K. M.,"Mixed-mode traction-separation relations between graphene and copper by blister tests", International Journal of Solids and Structures , 2016, 84, 147-159.
[27] Zhu, W. N.; Yogeesh, M. N.; Yang, S. X.; Aldave, S. H.; Kim, J. S.; Sonde, S.; Tao, L.; Lu, N. S.; Akinwande, D.,"Flexible Black Phosphorus Ambipolar Transistors, Circuits and AM Demodulator. ", Nano Letters, 2015, 15 (3), 1883-1890.
[26] Yogeesh, M. N.; Parrish, K. N.; Lee, J.; Park, S.; Tao, L.; Akinwande, D.,"Towards the Realization of Graphene Based Flexible Radio Frequency Receiver", Electronics, 2015, 4 (4), 933-946.
[25] Tao, L.; Cinquanta, E.; Chiappe, D.; Grazianetti, C.; Fanciulli, M.; Dubey, M.; Molle, A.; Akinwande, D., "Silicene field-effect transistors operating at room temperature", Nature Nanotechnology, 2015, 10 (3), 227-231.
[24] Na, S. R.; Suk, J. W.; Tao, L.; Akinwande, D.; Ruoff, R. S.; Huang, R.; Liechti, K. M., "Selective Mechanical Transfer of Graphene from Seed Copper Foil Using Rate Effects.", Acs Nano, 2015, 9 (2), 1325-1335.
[23] Lee, A. L.; Tao, L.; Akinwande, D., "Suppression of Copper Thin Film Loss during Graphene Synthesis.", Acs Applied Materials & Interfaces, 2015, 7 (3), 1527-1532.
[22] Kim, J. S.; Liu, Y. N.; Zhu, W. N.; Kim, S.; Wu, D.; Tao, L.; Dodabalapur, A.; Lai, K.; Akinwande, D., "Toward air-stable multilayer phosphorene thin-films and transistors", Scientific Reports, 2015, 5.
[21] Cao, Z. Y.; Tao, L.; Akinwande, D.; Huang, R.; Liechti, K. M., "Mixed-Mode Interactions Between Graphene and Substrates by Blister Tests", Journal of Applied Mechanics-Transactions of the Asme, 2015, 82 (8).
[20] Akinwande, D.; Tao, L.; Yu, Q. K.; Lou, X. J.; Peng, P.; Kuzum, D., "Large-Area Graphene Electrodes Using CVD to facilitate applications in commercial touchscreens, flexible nanoelectronics, and neural interfaces", Ieee Nanotechnology Magazine, 2015, 9 (3), 6-14.
[19] Wang, X. H.; Tao, L.; Hao, Y. F.; Liu, Z. H.; Chou, H.; Kholmanov, I.; Chen, S. S.; Tan, C.; Jayant, N.; Yu, Q. K.; Akinwande, D.; Ruoff, R. S., "Direct Delamination of Graphene for High-Performance Plastic Electronics", Small , 2014, 10 (4), 694-698.
[18] Rahimi, S.; Tao, L.; Chowdhury, S. F.; Park, S.; Jouvray, A.; Buttress, S.; Rupesinghe, N.; Teo, K.; Akinwande, D., "Toward 300 mm Wafer-Scalable High-Performance Polycrystalline Chemical Vapor Deposited Graphene Transistors", Acs Nano, 2014, 8 (10), 10471-10479.
[17] Nayak, A. P.; Dolocan, A.; Lee, J.; Chang, H. Y.; Pandhi, T.; Holt, M.; Tao, L.; Akinwande, D.,"INVERSION OF THE ELECTRICAL AND OPTICAL PROPERTIES OF PARTIALLY OXIDIZED HEXAGONAL BORON NITRIDE", Nano, 2014, 9 (1).
[16] Chowdhury, S. F.; Sonde, S.; Rahimi, S.; Tao, L.; Banerjee, S.; Akinwande, D., " Improvement of graphene field-effect transistors by hexamethyldisilazane surface treatment", Applied Physics Letters, 2014, 105 (3).
[15] Cao, Z.; Wang, P.; Gao, W.; Tao, L.; Suk, J. W.; Ruoff, R. S.; Akinwande, D.; Huang, R.; Liechti, K. M., "A blister test for interfacial adhesion of large-scale transferred graphene", Carbon, 2014, 69, 390-400.
[14] Tao, L.; Lee, J.; Li, H. F.; Piner, R. D.; Ruoff, R. S.; Akinwande, D., "Inductively heated synthesized graphene with record transistor mobility on oxidized silicon substrates at room temperature", Applied Physics Letters , 2013, 103 (18).
[13] Piner, R.; Li, H. F.; Kong, X. H.; Tao, L.; Kholmanov, I. N.; Ji, H. X.; Lee, W. H.; Suk, J. W.; Ye, J.; Hao, Y. F.; Chen, S. S.; Magnuson, C. W.; Ismach, A. F.; Akinwande, D.; Ruoff, R. S., "Graphene Synthesis via Magnetic Inductive Heating of Copper Substrates", Acs Nano, 2013, 7 (9), 7495-7499
[12] Lee, J.; Ha, T. J.; Parrish, K. N.; Chowdhury, S. F.; Tao, L.; Dodabalapur, A.; Akinwande, D., "High-Performance Current Saturating Graphene Field-Effect Transistor With Hexagonal Boron Nitride Dielectric on Flexible Polymeric Substrates", Ieee Electron Device Letters, 2013, 34 (2), 172-174.
[11] Chang, H. Y.; Yang, S. X.; Lee, J. H.; Tao, L.; Hwang, W. S.; Jena, D.; Lu, N. S.; Akinwande, D., "High-Performance, Highly Bendable MoS2 Transistors with High-K Dielectrics for Flexible Low-Power Systems", Acs Nano, 2013, 7 (6), 5446-5452.
[10] Tao, L.; Lee, J.; Holt, M.; Chou, H.; McDonnell, S. J.; Ferrer, D. A.; Babenco, M. G.; Wallace, R. M.; Banerjee, S. K.; Ruoff, R. S.; Akinwande, D.,"Uniform Wafer-Scale Chemical Vapor Deposition of Graphene on Evaporated Cu (111) Film with Quality Comparable to Exfoliated Monolayer.", Journal of Physical Chemistry C , 2012, 116 (45), 24068-24074..
[9] Tao, L.; Lee, J.; Chou, H.; Holt, M.; Ruoff, R. S.; Akinwande, D., "Synthesis of High Quality Monolayer Graphene at Reduced Temperature on Hydrogen-Enriched Evaporated Copper (111) Films", Acs Nano, 2012, 6 (3), 2319-2325.
[8] Lee, J.; Tao, L.; Parrish, K. N.; Hao, Y. F.; Ruoff, R. S.; Akinwande, D.,"Multi-finger flexible graphene field effect transistors with high bendability", Applied Physics Letters , 2012, 101 (25).
[7] Lee, J.; Tao, L.; Hao, Y. F.; Ruoff, R. S.; Akinwande, D.,"Embedded-gate graphene transistors for high-mobility detachable flexible nanoelectronics", Applied Physics Letters, 2012, 100 (15).
[6] Tao, L.; Lee, J.; Akinwande, D.," Nanofabrication down to 10 nm on a plastic substrate", Journal of Vacuum Science & Technology B, 2011, 29 (6).
[5] Tao, L.; Ramachandran, S.; Nelson, C. T.; Lin, M.; Overzet, L. J.; Goeckner, M.; Lee, G.; Willson, C. G.; Wu, W.; Hu, W., "Durable diamond-like carbon templates for UV nanoimprint lithography", Nanotechnology, 2008, 19 (10).
[4] Al-Assaad, R. M.; Tao, L.; Hu, W., "Physical characterization of nanoimprinted polymer nanostructures using visible light angular scatterometry", Journal of Micro-Nanolithography Mems and Moems, 2008, 7 (1).
[3] Tao, L.; Crouch, A.; Yoon, F.; Lee, B. K.; Guthi, J. S.; Kim, J.; Gao, J.; Hu, W., "Surface energy induced patterning of organic and inorganic materials on heterogeneous Si surfaces", Journal of Vacuum Science & Technology B , 2007, 25 (6), 1993-1997.
[2] Al-Assaad, R. M.; Regonda, S.; Tao, L.; Pang, S. W.; Hu, W. W.,"Characterizing nanoimprint profile shape and polymer flow behavior using visible light angular scatterometry", Journal of Vacuum Science & Technology B, 2007, 25 (6), 2396-2401.
[1] Ramachandran, S.; Tao, L.; Lee, T. H.; Sant, S.; Overzet, L. J.; Goeckner, M. J.; Kim, M. J.; Lee, G. S.; Hu, W., "Deposition and patterning of diamondlike carbon as antiwear nanoimprint templates", Journal of Vacuum Science & Technology B, 2006, 24 (6), 2993-2997.
Patents
[1] 陶立; 李政雄; 陈启超; 陈佳熠; 朱蓓蓓, "一种银纳米线和石墨烯复合柔性透明导电薄膜及制备方法", ZL 202110600556.4, CN 110797140 B.
[2] 陶立; 丁亚梅; 何平; 于金; 李少晗, "一种可控全光谱发光氮化硼量子点的制备方法", ZL201911105713.3, CN13337280 B.
Books
[1] Tao, Li ; Akinwande, Deji, "Emerging 2D Materials and Devices for the Internet of Things--Information, Sensing and Energy Applications ", Elsevier, 2020.
[2] Tao, Li , "Silicene", Springer Nature, 2018.
Members
Principle Investigator
Li Tao 陶立
Professor Li Tao obtained bachelor's degree from Southeast University in 2004,and received his Ph.D.degree from the University of Texas at Dallas in 2010. Then, he entered the University of Texas at
Austin Microelectronics Research Centerfor post-doctoral research and was promoted to researcher in 2012.
He joined Southeast University as a professor of materials Science and Engineering in 2016. Prof. Tao’s
research interests include micro-nano fine preparation, two-dimensional semiconductor materials and devices,
and the cross-application of micro-systems and nanotechnology in medical health and energy environment.
Published 40 SCI papers, including Nature Nanotechnology, Chemical Society Reviews, Advanced Functional
Materials, ACS Nano, etc., WoS citations over 3000 times (a single article is cited up to 900 times, and 5 ESI
highly cited papers).
Associate Researcher
Yuan Ren 任元
Professor Yuan Ren received his Ph.D degree in inorganic chemistry under the supervision of Prof.Yonghui Dengfrom Fudan University in 2019, During doctoral studies, he worked on ordered mesoporous semiconductor materials
and gas senors.From March 2020 to December 2022, he worked on postdoctoral research at Fudan University.
He then joined Southeast University as a associate research fellow in January 2023. His research focuses on
organic-inorganic self-assembly, mesoporous semiconductor materials, two-dimensional materials,
and micro-nano sensing devices.
Lecturer
Beibei Zhu 朱蓓蓓
Professor Beibei Zhu received her Ph.D degree in Materials Science and Engineering from UNSW(Australia) in 2015.From Jan 2016 to Dec 2017, she worked in NTU(Singapore) as a postdoctoral. Then, she joined Southeast University
as a lecturer in Apr of 2018. Her research focuses on synthesis and characterization of thermoelectric functional
materials.
Postdoctoral researcher
Xu Jing 景旭
Dr. Xu Jing received his Ph.D degree in Materials Science and Engineering under the supervision ofProf. Mario Lanza from Soochow University in 2020.During doctoral studies, he worked on 2D materials
growth research for one year under the supervision of Prof. Deji Akinwande at the University of Texas
at Austin.From July 2020 to May 2021, he worked on postdoctoral research at Soochow University. He
then joined Southeast University as a postdoctoral researcher in June 2021.
Ph.D. Students
Jiayi Chen 陈佳熠
B.E. Southeast University Electrochemical intercalation jiayi_chen@seu.edu.cn
Qichao Chen 陈启超
B.E. NJITPhotocatalysis cqc0023@163.com
Zhehan Wang 王哲涵
B.E. NJUSTFlexible PtSe2 sensor 230198622@seu.edu.cn
Yamei Ding 丁亚梅
Synthesis,morphology control & properties of quantum dots iamymding@163.com
Le Xiong 熊乐
B.E. NUAAHetero-magnetic materials
2844453286@qq.com
YangyangShi石杨杨
M.S. USTCTE materials
stoneyyy@seu.edu.cn
Ruxia Du 杜如霞
M.S. Southeast UniversityOptoelectronic devices
durx@seu.edu.cn
Xuyan Zhang 张旭岩
M.E. SCNUCVD growth of 2D materials
230238701@seu.edu.cn
Tuo Zhang 张拓 M.E. China University of Petroleum (East China)
Topological semi-metallic photodetectors
230238702@seu.edu.cn
Chengdong Zhao 赵成栋 B.E. Southeast University
MoS2 transistor, heterojunction
zhaochengdong.seu@qq.com
Master Students
Master Students
Chang Liu 刘畅
B.E. NJUST
757484656@qq.com
Wentao Zhou 周文韬
B.E. HFUT Photoelectronic of 2D Materials
wtzhou1215@163.com
Wenya Gao 高文雅
B.E. HFUT Optoelectronic materials and devices
w15833787058@163.com
Yuxin Xue 薛雨欣
B.E. Nanjing Tech Universityyuxin_xue@qq.com
Shuhan Zhang 张书涵
B.E. Nanjing Tech University632278707@qq.com
Yujian Rao 饶宇建
B.E. Nanjing Tech University Co-assembly mesoporous materials gas sensor
2303452748@qq.com
Yanling Wu 吴嫣玲
B.E. NJUST752047033@qq.com
Hang Ju 居航
B.E. Nanjing Tech Universityjdhang@126.com
Mingyu Xie 谢明宇
B.E.Southeast University924977165@qq.com
Zhenliang Li 李振良
B.E. Soochow University CVD
220222394@seu.edu.cn
Yao Xia 夏瑶
B.E. Northeastern University2990732937@qq.com
Xueqiong Cui 崔雪琼
B.E. Nanjing Tech University220232563@seu.edu.cn
Zixiang Mao 毛子翔
B.E. Nanjing Tech University1761472203@qq.com
Rui Ma 马瑞
B.E. Hubei University1643942264@qq.com
Shuo Wang 王硕
B.E. Nanjing Tech University1104880363@qq.com
Rui Zhang 张睿
B.E. Nanjing Forestry University1961296045@qq.com
Zi Ye 叶子
B.E. Nanjing Tech University352488451@qq.com
Qinqi Fang 方钦琪
B.E. Chongqing University15391801569@163.com
Yichao Zheng 郑毅超
B.E. Nanjing Agricultural University1756427887@qq.com
Nuo Cheng 程诺
B.E. Anhui Universitychengnuo021018@163.com
Dong Li 李栋
B.E. China University of Petroleum-Beijing1456264484@qq.com
YuQing Zhang 张雨晴
B.E. Southeast University1987136534@qq.com
Miaomiao Wei 位苗苗
B.E. HAUE260346037@qq.com
Alumni
Yongchao Wang (B.E.2018) Tsinghua University
Hailin Bai (B.E.2018) LONGi Solar
Han Xu (B.E.2019) Kyoto University
Mengting Zhou (B.E.2019) Southeast University
Yijie Tao (B.E.2019) Universität Stuttgart (Germany)
Sijie Ma (B.E.2019) Rice University
Zhengxiong Li (M.E.2019) Zhongxing Telecom Equipment
Ke Zhan (B.E.2020) Tsinghua University
Chenxu Bao (B.E.2020) Columbia University
Mingyue Jiang (B.E.2020) University of Chinese Academy of Sciences
Yunting Liu (B.E.2020) (Germany)
Xinghao Sun (M.E.2021) vivo
Wen Zhong (M.E.2021) Nantong city government (Outstanding Talent Recruit)
Lijie Zhong (M.E.2021) HUAWEI
Zhaoying Dang (M.E.2021) Hong Kong Polytechnic University
Xiao Xu (B.E.2020) University of Texas at Austin
Siyao Jiang (B.E.2021) Tsinghua University
Hanliu Zhao (M.E.2022) HONOR
Dongdong Song (M.E.2022) HUAWEI
Dingxuan Kang (B.E.2022) Zhejiang University
SiXin Zhang (B.E.2022) Peking University
Bo Chang (M.E.2023) Geely Automobile
Lili Chen (M.E.2023) GTA Semiconductor
Shanshan Xing (M.E.2023) Hesai Technology
Hao Huang (M.E.2024) NIO
Facilities
E-beam evaporation.
Witec Raman imaging system.
Atomic layer deposition, ALD.
Nanoimprint .
Probe Station.
Materials Preparation Lab.
Contact us
Address
Room 536,Materials Building,2 Southeast University Road,Jiangning District,Nanjing,China
Phone
+86-025-52091046
Email Address
nanovdw@163.com