Xiang Nan,,,, Wang, Hua *. Research on maskless lithography technology of rapid and low-cost prototype of microfluidic device in laboratory. Journal of Micromechanics and Microengineering, 23(2):0250 16, 20 13, (SCI, if = 2./kloc-0.
[3], Lu,,, Hua *, Dynamic simulation of locating and assembling multi-particles by optical tweezers, microfluidics and nanofluids, 12( 1): 529-544, 20 12, (SCI, IF=3.507).
[4], Yong, Hua, Dong,, In-plane lattice thermal conductivity of multilayer graphene films, carbon, 49(8): 2653-2658, 201,(SCI, IF=4.896).
[5] Sha Jingjie, Hua *, Liu Lei, Chen Yunfei, A New Method of Making Nanoholes Based on Glass Tube for Single Molecule Detection, Nanotechnology, 22 (17):175304,201,(SCI
[6], Hua, *, Jie,,, Dong,, Effect of surface roughness on lattice thermal conductivity of silicon nanowires, physical and chemical condensed state B, 406 (13): 2515-2520, 201/kloc-0.
Hua *, Zu Shucun, Photo-induced Electrorotation: Spin of Microspheres in Photoinduced Dielectric Electrophoresis Micromanipulation, Science China-Technology Science, 54 (11): 3035-3046,201,(SCI.
[8], Gu, Hua *, Study on the Application of Ultrasonic Spraying Technology in the Coating of Vascular Stents, Science China-Technology Science, 54 (12): 3358-3370,201,(SCI, IF=0.734).
[9], Lu,,, Hua *, Frequency-dependent behavior of single micro-particle in photoinduced dielectrophoresis device, Biomicrofluidic, 4( 1): 0 13202, 20 10, (SCI, IF=3.896).
[10], Lu,,, Hua *, Assembly Effect of Electrode-Orbital Dielectrophoresis: Formation of Monocurvilinear Particle Chains on Spiral Microelectrodes, Microfluids and Nanofluids, 9(4-5): 98 1-988, 20 10, (SCI
[1 1] Liu Lei, Hu Yuan, Gu, Hua *, Hydrothermal Synthesis of Mesoporous Hybrid Materials by Anionic Polysilsesquioxane (POSS) and Cationic Surfactant, Microporous and Mesoporous Materials, 132(3): 567-57 1.
[12], Hua, Bu Hao,,, Dong,, Anisotropic mechanical properties of graphene sheets from molecular dynamics, physical B condensed state, 405 (5):130/-1306,20/kloc.
[13], Lu,,, Hua *, Experimental study on particle filtration, transport, concentration and focusing based on photoinduced dielectrophoresis, China-Technology Science, 53(9): 2388-2396, 20 10, (SCI, IF=0.734.
Ni Zhonghua, Zhang Xinjie. Molecular dynamics simulation of aggregation phenomenon
Nanotechnology. Science in China, E, 52 (2): 484-490, 2009 (included by SCI).
Ni Zhonghua, Gu & Wang. Nonlinear fast prediction method
Expansion process of medical vascular stent. Science in China, 52(2): 1-8, 2009 (
Including SCI)
Ni Zhonghua, Zhang Xinjie, Hongyi. Driven separation of nano-colloid
Dielectrophoresis: molecular dynamics simulator. Science in China, Employment, Waiting.
Published)
Ni Zhonghua, Zhang Xinjie. Research on key technologies of micro-nano biotechnology
Particle manipulation platform based on photoinduced dielectrophoresis. Science in
China, e (employed, awaiting publication)
[18], Ni Zhonghua, Wang Guiming. "Electro-osmotic flow in high
"Surface Charge Density", Nano Express, 8 (1), 42-48, 2008. (included in SCI, introduction to 9.6)
[19] Chen Yunfei, Li Deyu, Jennifer R. Looks, Ni Zhonghua, and the lowest calorie.
Electrical conductivity from molecular dynamics, Physical Review B, 72( 17), 174302_( 1-6), 2005.
(SCI search)
Ni Zhonghua *, Zhang Xinjie. Molecular dynamics simulation of nano-colloid agglomeration. China Science, E, 39 (1), 1-7, 2009.
(EI retrieval)
Ni Zhonghua, Gu, Wang. Study on rapid prediction method of nonlinear expansion process of medical stent, China Science, E.
, No.7, Vol.38, p1016-1025.2008. (EI search)
[22] Ni Zhonghua, Zhu Shucun. Research on key technologies of micro-nano biological particle manipulation platform based on photoinduced dielectrophoresis. China branch
Learning, e (employment, to be published)
[23] Ni Zhonghua, Zhang Xinjie. Molecular dynamics simulation of colloidal separation driven by dielectrophoresis. China Science, E (hired, waiting)
Published)
Ni Zhonghua, Gu, Self-assembly mechanism and method of drug-loaded nanoparticles and vascular stents. Journal of mechanical engineering, 2005.
Vol.4 1 8, P 190-P 194. (EI retrieval)
Ni Zhonghua, Wang, Numerical simulation method of deformation mechanism of balloon-expanded coronary stent. Journal of mechanical engineering,
April 2008 (1):102-108. (EI search)
Ni Zhonghua, Zhu Shucun, Bioparticle Separation Chip Based on Two-dimensional Electrophoresis, Journal of Southeast University, 2005. Volume 35, No.5,
P724-P728。 (EI search)
Ni Zhonghua, Gu, Wang. Self-assembly technology of nano-particles driven by micro-force, micro-nano electronic technology, 2004.
Volume 4 1, issue 10 (329 in total), P 18-P23(EI retrieval).
Ni Zhonghua, Wang, Gu, study on prevention of cardiovascular restenosis with nano-drug-loaded coated stent, Journal of Southeast University,
2004. Volume 34, No.6, pp. 789-793. (searched by ei. )
[29] Chen, Li, Lu, China. Ni. Monte Carlo simulation of heat
Conductivity of silicon nanowires, proceedings of the summer heat transfer conference in 2005
Conference, San Francisco, California, HT 2005-72377, 2005. (EI search)
Chen, Li, Yang, Zhonghua. Ni and J.R. Luke, interface pair
Lattice thermal conductivity of superlattice nanowires
International mechanical engineering conference and exposition in Anaheim, California,
IMECE 2004 -59 149, 2004. (EI search)
Wang, Ni Zhonghua. Computational Biomechanics and Experiments
Verification of vascular stent. International conference on computational intelligence
And safety. Springer: Lectures on Artificial Intelligence, 2005, pp. 870-877. (SCI
And EI retrieval)
Wang, Ni Zhonghua. Experimental study on balloon inflation
Endovascular stent expansion. The 27th International Annual Meeting of IEEE
Society of medicine and bioengineering. Shanghai: IEEE-EMBS, 2005, Shanghai, China.
(EI retrieval)
[33] Chen Gong, Ni Zhonghua. IGES interface of medical three-dimensional volume data. Institute of electrical and electronic engineers
Society of medicine and bioengineering. Shanghai: IEEE-EMBS, 2005, Shanghai, China.
(EI retrieval)
[34] Chen Gong, Ni Zhonghua. MIPP: A Network-based Medical Image Processing System
2005 International Conference on Service Systems
And service management, June 2005. P:1484-148813-15, Chongqing, China. (EI retrieval).
Chen Gong, Hongyi, Ni Zhonghua. Research on finite element modeling method of medical organs based on reverse engineering. Journal of mechanical engineering,
Vol. 42, 2006,No. 1, p. 139- 145. (EI search)
Gu, Ni Zhonghua. Study on coronary stent. China Journal of Biomedical Engineering, June 2005: 662-667.
Suo)
Zhang Xinjie and Ni Zhonghua *. Molecular dynamics simulation of nanoparticle dielectrophoresis, Journal of Southeast University (Natural Science Edition),
Volume 38, No.5, pp. 884-888. (EI search)
Wang, Ni Zhonghua. Study on the analysis method of biomechanical properties of medical vascular stent. Journal of Southeast University, Natural Science Edition.
Version. 2005,35 (2): 216-221(ei search)
Wang, Ni Zhonghua. Research on image error compensation method in machine vision system. Data acquisition and processing. 2005, 20.
(4):472-477.(EI search)
[40] Ni Zhonghua, Jiang Yong. Research on dynamic self-organizing manufacturing resource model for networked manufacturing. China Mechanical Engineering. 2004.
Vol. 15, No.20, P 1823-P 1826. (EI)
[4 1] Ni Zhonghua, Jiang Yong. Research on Dynamic Manufacturing Resource Model and Its Application
Markup language for networked manufacturing. Integrated design and development. Processing technology
(IDPT), 2005. VOL. 1,P50-P50。 (EI)
[42] Ni Zhonghua, Jiang Yong, Wang Wei. Information integration platform for product life chain process. Journal of Southeast University. 2005。
Vol. 35, No.4, pp. 533-537. (EI)
[43] Meng, Ni Zhonghua, Liu Ying. Research on conflict negotiation method of collaborative design based on game theory. China mechanic
Cheng.2004.vol15, No.2 1, P2 190-2 194. (EI)
Ni Xiaoyu, Hongyi, Ni Zhonghua, Tang Wencheng. Design of B/S collaborative system based on virtual machine. Computer integrated manufacturing system.
2005.vol 1 1,NO2,P 157- 162。 (EI)
[45] Meng, Ni Zhonghua and Liu Ying. Research on conflict detection technology of collaborative design based on constraints. Computer integrated manufacturing system
. No.65438 P 1426- 143 1。 (EI)
Ni Xiaoyu, Tang Wencheng, Ni Zhonghua. Research on collaborative CAE system based on Web and its key technologies. Computer integrated manufacturing system.
2004 Vol. 10,No. 12, P5 1-P55. (EI)
[47] Xie Junyi, Tang Wencheng and Ni Zhonghua. Research on scheduling management system of workshop manufacturing resources based on multi-agent mechanism. Computer integrated system
System, 2005.vol. 1 1, No.5, P805-P809. (EI)
Meng, Ni Zhonghua, Wang Wei. Research on conflict arbitration technology of collaborative design based on fuzzy evaluation. computer integrated manufacturing
System.2005.vol11,No.3, P400-404. (EI)
[49] Ni Xiaoyu, Tang Wencheng, Ni Zhonghua. Web-based collaborative analysis and optimization environment for machine tool components. Mechanical design. 2004.vol.2 1,
No. 12, P 15-P 17 ..
Ni Xiaoyu, Hongyi, Ni Zhonghua, Tang Wencheng. Research on pretreatment expert system for finite element analysis of machine tool parts. Journal of Southeast University.
2005, Vol.35, No.2, P2 1 1-P2 15. (EI)