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LU Nianduan
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Update time: 2016-02-04
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Name:LU Nianduan

Gender:Male

Title:Associate professor

Nationality:P. R. China

Education:Ph.D

E-Mail:lunianduan@ime.ac.cn

Department:Key Laboratory of Microelectronic Devices & Integrated Technology,Institute of Microelectronics of Chinese Academy of Sciences

Address:No. 3 Beitucheng West Road, Chaoyang District, Beijing, PR China

Postcode:100029

Tel:86-10-82995582

Fax:86-10-82995583

Education Background:

9/2006-7/2010, Ph.D in Materials Science and Engineering, Beijing University of Technology

9/2004-7/2006, M.E. in Materials Science and Engineering, Beijing University of Technology

9/1998-7/2002, B.S. in Materials Science and Engineering, Inner Mongolia University of Science and Technology

Professional Experience:

10/2013-present Associate Professor, IMECAS

8/2012-10/2013 Assistant Professor, IMECAS

10/2010-8/2012 Postdoctoral, Tsinghua University

7/2002-8/2004 Assistant engineer, Wuhan Iron and Steel Company

Research Interests:

Physics of semiconductor devices, thermoelectric materials, organic solar cell, nonvolatile memory technology, first-principles calculations

International conference:

1.        Nianduan Lu, Pengxiao Sun, Ling Li, Ming Liu, Yingtao Li, Su Liu, “Simulaiton of thermal crosstalk of resistive switching memory in three-dimensional crossbar structure”, SISPAD 2015, September 9-11, 2015, Washington, DC, USA. pp 438-441.

2.        Nianduan Lu, Ling Li, Pengxiao Sun, Ming Wang, Qi Liu, Hangbing Lv, Shibing Long, and Ming Liu, “A novel approach to identify the carrier transport path and its correlation to the current variation in RRAM”, International Memory Workshop (IMW), Moterey CA, USA, 2015.5.17-20.

3.        Nianduan Lu, “Carrier thermoelectric transport in organic semiconductor based on hopping theory”, 2015 EMN Qingdao Meeting, Qingdao, China, 2015.6.14-17.(Invited)

4.        Nianduan Lu, “Physical Model of Thermopower in Organic Thin-film Transistor”, The 6th International Conference on Computer Aided Design for Thin-Film Transistors, Nanjing , 15-17 October, 2014.

Publications:

1.        Nanduan Lu, Ling Li, Writam Banerjee, and Ming Liu, “Physical model of Seebeck coefficient under surface dipole effect in organic thin-film transistors”, Organic Electronics, 29: 27-32 (2016).

2.        Nianduan Lu, Ling Li, and Ming Liu, “Universal carrier thermoelectric-transport model based on percolation theory in organic semiconductors”, Phys. Rev. B, 91: 195205 (2015).

3.        Nianduan Lu, Pengxiao Sun , Ling Li, Yingtao Li, Hong Wang, Hangbing Lv, Qi Liu, Shibing Long, Su Liu, and Ming Liu, “Thermal crosstalk in 3-dimensional RRAM crossbar arrays”, Scientific Reports, 5:13504(2015).

4.        Nianduan Lu, Ling Li, Writam Banerjee, Pengxiao Sun, Nan Gao, and Ming Liu, “Charge carrier hopping transport based on Marcus theory and variable-range hopping theory in organic semiconductors”, Journal of Applied Physics, 118:045701 (2015).

5.        Nianduan Lu, Ling Li, Pengxiao Sun, Ming Wang, Qi Liu, Hangbing Lv, Shibing Long, Writam Banerjee, and Ming Liu, “Carrier-transport-path-induced switching parameter fluctuation in oxide-based resistive switching memory”, Material Research Express, 2: 046304 (2015).

6.        Nianduan Lu, Ling Li, and Ming Liu, “Polaron effect and energetic disorder dependence of Seebeck coefficient in organic transistors”, Organic Electronics, 16:113-117 (2015).

7.        Nianduan Lu, Ling Li, Pengxiao Sun, Ming Wang, Qi Liu, Hangbing Lv, Shibing Long, and Ming Liu, “A novel method of identifying carrier transport path in metal oxide resistive random access memory”, Journal of Physics D: Applied Physics, 48: 065101 (2015).

8.        Nianduan Lu, Guangwei Xu, Wei Wang, Ling Li, Nag Gao, Zhuoyu Ji, Ling Li, and Ming Liu, “Univeral description of exciton diffusion length in organic photovoltaic cell”, Organic Electronics, 23: 53-56 (2015).

9.        Nianduan Lu, Long Wang, , Ling Li, Zhuoyu Ji, Writam Banerjee, and Ming Liu, “Compact model for organic thin-film transistor with Gaussian density of states”, AIP Advances, 5: 047123 (2015).

10.        Jiebin Niu*, Nianduan Lu*, Ling Li, and Ming Liu, “Polaron effect dependence of thermopower in organic semiconductors”, Physics Letters A, 378:3579-3581 (2014). (*共同第一作者).

11.        Nianduan Lu, Ling Li, and Ming Liu, “Short-circuit current model of organic solar cells”, Chemical Physics Letters, 614:27-30 (2014).

12.        Nianduan Lu, Ling Li, Pengxiag Sun, Writam Banerjee, and Ming Liu, “A unified physical model of Seebeck coefficient in amorphous oxide semiconductor thin film transistors”, Journal of Applied Physics, 116:104502 (2014).

13.        Nianduan Lu, Ling Li, and Ming Liu, “Temperature dependent magnetic properties of Co-P films”, Advanced Materials Research, 952: 7 (2014).

14.        Nianduan Lu, Ling Li, Pengxiao sun, and Ming Liu, “Charge carrier relaxation model in disordered organic semiconductors”, AIP Advances, 3:112119 (2013).

15.        Nianduan Lu, Donghua yang, and Liangliang Li, “Interfacial reaction between Sn-Ag-Cu solder and Co-P films with various microstructures”, Acta Materialia, 61: 4581 (2013).

16.        Nianduan Lu, J. Cai, L. L. Li. Dependence of interfacial adhesion of Co-P film on its microstructure. Surface & Coatings Technology. 2012, 206: 4822-4827.

17.        Nianduan Lu, Y. Q. Li, J. Cai, L. L. Li, Synthesis and Characterization of Ultrasonic-Assisted Electroplated Co–P Films With Amorphous and Nanocrystalline Structures. IEEE Trans. Magn. 2011, 47: 2158074-4.

18.        Nianduan Lu, X. Y. Song, J. X. Zhang. Crystal Structure and Magnetic Properties of Ultrafine Nanocrystalline SmCo3 Compound. Nanotechnology. 2010, 21:115708-7.

19.        Nianduan Lu, X. Y. Song, X. M. Liu, J. X. Zhang. Preparation and Magnetic Properties of Amorphous and Nanocrystalline Sm2Co17 alloys. Intermetallics. 2010, 18:1180-1184.

20.        Nianduan Lu, X. Y. Song, M. Seyring, M. Rettenmayr, J. X. Zhang. Preparation and Properties Characterization of the Single-phased Sm2Co17 Nanocrystalline Alloy. Journal of Nanoscience and Nanotechnology. 2009, 9:5141-5144.

21.        Nianduan Lu, X. Y. Song, J. X. Zhang. Microstructure and Fundamental Properties of Nanostructured Gadolinium (Gd). Materials Letters. 2009, 63:1089-1092.

22.        Nianduan Lu, X. Y. Song, J. X. Zhang, X. M. Liu, G. Z. Zhang. Structure and Properties of Nanocrystalline Rare Earth Bulks Prepared by Spark Plasma Sintering. Journal of Rare Earths. 2009, 27(6):961-966.

23.        Nianduan Lu, X. Y. Song, J. X. Zhang, X. Q. Yan, M. Rettenmayr. Preparation and Characterization of Dysprosium (Dy) Ultrafine Nanocrystalline Structures. Journal of Nanoscience and Nanotechnology. 2008, 8(2):961-966.

24.        Keke Zhang, Nianduan Lu#, Ling Li, and Ming Liu, “Resistance-switching mechanism of SiO2:Pt-based Mott memory”, J. Appl. Phys. 118 : 245701 (2015). (#Corresponding author)

25.        Lingfei Wang, Wei Wang, Guangwei Xu, Zhuoyu Ji, Nianduan Lu #, Ling Li, and Ming Liu, “Analytical carrier density and quantum capacitance for graphene”, Appl. Phys. Lett. 108, 013503 (2016). (# Corresponding author)

26.        Ling Li, Nianduan Lu, Ming Liu and Heinz B?ssler, “General Einstein relation model in disordered organic semiconductors under quasiequilibrium”, Phys. Rev. B, 90: 214107 (2014).

27.        Ling Li, Nianduan Lu, and Ming Liu, “Physical origin of nonlinear transport in organic semiconductor at high carrier densities”, Journal of Applied Physics, 116:164504 (2014).

28.        Ling Li, Nianduan Lu, and Ming Liu, “Limitation of the concept of transport energy in disordered organic semiconductors”, Europhysics letters, 106:17005 (2014).

29.        Ling Li, Nianduan Lu, and Ming Liu, “Field Effect Mobility Model in Oxide Semiconductor Thin Film Transistors with Arbitrary Energy Distribution of Traps”, IEEE Electron Device Letters, 35(2):226-228 (2014).

30.        Ling Li, Nianduan Lu, and Ming Liu, “Effect of dipole layer on the density-of-states and charge transport in organic thin film transistors”, Appl. Phys. Lett., 103:253303 (2013).

31.        Ling Li, Nianduan Lu, and Ming Liu, “Influence of mobility on the dissociation probability of electron-hole pair in hopping system”, Appl. Phys. Lett., 101:043302 (2012).

32.        X. Y. Song, Nianduan Lu, X. M. Liu, Q. M. Lu, L. X. Sun. M. Rettenmayr, F. X. Yin, J. X. Zhang, M. L. Zhou. Preparation and Characterization of Nano Rare Earths. New Journal of Physics. 2008, 10:023024-023038.

33.        X. Y. Song, Nianduan Lu, M. Seyring, M. Rettenmayr, W. W. Xu, Z. X. Zhang, J. X. Zhang. Abnormal Crystal Structure Stability of Nanocrystalline Sm2Co17 Permanent Magnet. Applied Physics Letters. 2009, 94(2):023102-023105.

34.         X. Y. Song, Nianduan Lu, W. W. Xu, Z. X. Zhang, J. X. Zhang. Phase Transformation in Nanocrystalline Sm2Co17 Permanent Magnet. Journal of Applied Crystallography. 2009, 42:691-696.

35.        Ling Li, Nan Gao, Nianduan Lu, Ming Liu and Bassler, “Spin diffusion in disordered organic semiconductors”, Phys. Rev. B, 92, 214438 (2015).

36.        Lingfei Wang, Ling Li, Nianduan Lu, Zhuoyu Ji, Wei Wang, Zhiwei Zong, Guangwei Xu, and Ming Liu, “An improved cut-off frequency model with a modified small-signal equivalent circuit in grapheme field-effect transistors”, IEEE Electron Device Letters, 36,1351 (2015).

37.        Zhiwei Zong, Ling Li, Jin Jang, Nianduan Lu, and Ming Liu, “Analytical surface-potential compact model for amorphous-IGZO thin-film transistors”, Journal of Applied Physics, 117: 215705 (2015).

38.        Pengxiao Sun, Ling Li, Nianduan, Hangbing Lv, Ming Liu, and Su Liu, “Physical model for electroforming process in valence change”, J. Comput. Electron., 14: 146-150 (2015).

39.         Pengxiao Sun, Ling Li, Nianduan Lu, Yingtao Li, Ming Wang, Hongwei Xie, Su Liu, and Ming Liu, “Physical model of dynamic Joule heating effect for reset process in conductive-bridge random access memory”, J. Comput. Electron., 13: 432-438 (2014).

40.         Wei Wang, Ling Li, Zhuoyu Ji, Tianchun Ye, Nianduan Lu, Zhigang Li, Dongmei Li, and Ming Liu, “Modified Transmission Line Model for Bottom-Contact Organic Transistors”, IEEE Electron Device Letters, 34(10):1301 (2013).

41.         Ming Wang, Chong Bi, Ling Li, Shibing Long, Qi Liu, Hangbing Lv, Nianduan Lu, Pengxiao Sun, and Ming Liu, “Thermoelectric Seebeck effect in oxide-based resistive switching memory”, Nat. Comm., 5:4598 (2014).

42.         Zhiwei Zong, Ling Li, Jin Jang, Zhigang Li, Nianduan Lu, Liwei Shang, Zhuoyu Ji, and Ming Liu, “A new surface potential-based compact model for a-IGZO TFTs in RFID applications”, IEDM Tech. Dig., 35.5: (2014).

43.        Lingfei Wang, Songan Peng, Zhiwei Zong, Ling Li, Wei Wang, Guangwei Xu, Nianduan Lu, Zhuoyu Ji, and Ming Liu, “A New Surface Potential Based Physical Compact Model for GFET in RF Applications”, IEDM Tech. Dig., 28.4: (2015).

44.        Qing Luo, Xiaoxin Xu, Hongtao Liu, Hangbing Lv, Tiancheng Gong, Shibing Long, Qi Liu, Haitao Sun, Writam Banerjee, Ling Li, Jianfeng Gao, Nianduan Lu, Steve S. Chung, Jing Li, and Ming Liu, “Demonstration of 3D Vertical RRAM with Ultra Low-leakage, High-selectivity and Self-compliance Memory Cells”, IEDM Tech. Dig., 10.2: (2015).

45.        Qing Luo, Xiaoxin Xu, Hongtao Liu, Hangbing Lv, Tiancheng Gong, Shibing Long, Qi Liu, Haitao Sun, Writam Banerjee, Ling Li, Nianduan Lu, Ming Liu, “Cu BEOL Compatible Selector with High Selectivity (>107), Extremely Low Off-current (~pA) and High Endurance (>1010)”, IEDM Tech. Dig., 10.4: (2015).

46.        Wenwu Xu, Xiaoyan Song, Nianduan Lu, Chuan Huang, “Thermodynamic and experimental study on phase stability in nanocrystalline alloys”, Acta Materialia, 58: 396-407 (2010).

47.        Wenwu Xu, Xiaoyan Yan, Nianduan Lu, Martin Seyrng, M. Rettenmayr, “Nanoscale thermodynamic study on phase transformation in the nanocrystalline Sm2Co17 alloy”, Nanoscale, 1(2): 238-44 (2009).

48.        Zhexu Zhang, Xiaoyan Song, Wenwu Xu, Nianduan Lu, “Phase constitution, evolution and correlation with magnetic performance in nominal SmCo9.8 alloy”, Journal of Alloys and Compounds, 539: 108-115 (2012).

Honour:

Outstanding doctoral dissertation of Beijing university of technology in 2010

Projects and Subjects Participated:

1.        National Natural Science Foundation of China (NSFC), “Device model of resistive switching memory in three-dimensional integration”, (2016-2019).

2.        National Natural Science Foundation of China (NSFC), “Study of charge carrier transport characteristics of RRAM based on hopping theory”, (2014-2016).

3.        Hi-Tech Research and Development Program of China (863 Program), “Key technology of material and device in high speed, low power RRAM”.

4.        CAEP Microsystem and THz Science and Technology Foundation under the Grant No. CAEPMT201504, (2016-2017).

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