| 教育和工作经历 |
Working Experiences:
Aug. 1991—Sept. 1994 Teacher Assistant, Department of Physic, Xiamen University
Oct. 1998—Mar. 2000 Research Associate, Department of Physical Electronics, Tokyo Institute of Technology
April 2000—Mar. 2001 Research Associate, Institute of Fluid Science, Tohoku University, Japan
Mar. 2001—Jan. 2008 Professor and Head, Department of Physics, Xiamen University
Feb. 2008-- Present Professor and Dean, School of Physics and Electrical and Mechanical Engineering, Xiamen University
Education:
Sept.1983—Oct. 1988 Bachelor of Science, Department of Mechanics, University of Science and Technology of China
Sept. 1988—July 1991 Master of Science, Xiamen University
Oct. 1994---Sept. 1995 Japanese Training Course, Northeast Normal University, China
Oct. 1995—Mar. 1996 Research Student, Department of Physical Electronics, Tokyo Institute of Technology
April 1996—Sept. 1998 Ph.D., Department of Applied Electronics, Tokyo Institute of Technology
Honors and Awards:
1998 Lakusuikai Award, Tokyo Institute of Technology, Japan
1998 Excellent Research Award, Promotion Society of Science and Engineering, Japan
1999 Doctorate Thesis Award, Tejima Industry and Education Foundation, Japan
2002 National Science Fund for Distinguished Young Scholars(Prime Minister Research Fund), P. R. China
Social Services:
Science Steering Committee member, Institute of Complex Adaptive Matter, University of California at Santa Babara, USA
Chairman, 2005 the 9th China-US Symposium on Frontier of Sciences
Organizing Committee member, China Physical Society (CPS) Fall Meeting 2006-2009
Softmatter Section Organizing Chair, CPS Fall Meeting 2005-2009
Local Organizing Committee Chairman, CPS Fall Meeting 2013
The 7th and 8th Review Board Member of Physics, Degree Committee of State Council of China
Editorial board member, Biophysical Review Letters, World Scientific |
代表性文章或专著 |
A. Books and Book Articles
1.Mitsumasa Iwamoto and Chen-Xu Wu
The physical properties of organic monolayers, World Scientific Publishing Co Pte Ltd, Singapore (2001).
2. Mitsumasa Iwamoto and Chen-Xu Wu
Molecular motion and dielectric behavior in monolayers, Encyclopedia of Surface and Colloid Science, ed. Arthur Hubbard, Marcel Dekker, Inc. (2002).
3.Chen-Xu Wu and Mitsumasa Iwamoto
Dielectric behaviors for monolayers -a correspondence between properties and structural symmetry, Fundamental Study and Its Application of Intelligent Nano and Mesoscopic Structured Materials by Field Control, ed. S. Chonan, J. Tani, T. Watanabe, and Y. Yamazaki.
4.Mitsumasa Iwamoto and Chen-Xu Wu
Maxwell displacement current across organic monolayer films for the study of dielectric physics and electronics, Fundamental Study and Its Application of Intelligent Nano and Mesoscopic Structured Materials by Field Control, ed. S. Chonan, J. Tani, T. Watanabe, and Y. Yamazaki.
5. Chen-Xu Wu, Xiao-Jing Huang, Su-Zen He, and Shi-Gang Sun
Local field distribution and the configuration of CO molecules adsorbed on a nanostructured metal surface, Progess in Surface and Interface Research, ed. Hassan Bakrim, Transworld Research Network (2006).
6. Ke Xiao and Chen-Xu Wu
Fréedericksz-Like Positional Transition Triggered by An External Electric Field, Frontiers and Progress of Current Soft Matter Research, 323-352, Springer (2021).
B. Journal Papers
148. Wei Li, Holger Merlitz, Chen-Xu Wu, and Xue-Zheng Cao, Role of breaking physical crosslinks on safeguarding polymer networks, Phys. Rev. Materials 6, 123605 (2022).
147.Ke Xiao, Rui Ma* and Chen-Xu Wu*, Force-induced wrapping transition in activated cellular uptake, Physical Review E 106, 044411 (2022).
146. X.-Z. Cao, H. Merlitz, C.-X. Wu and M. G. Forest, Screening confinement of entanglements: Role of a self-propelling end inducing ballistic chain reputation, Physical Review E 106, L022501 (2022).
145. Ke Xiao and Chen-Xu Wu*, Droplet dynamics driven by electrowetting, Physical Review E 105(6), 064609 (2022).
144. Y. Huang,D. Yu,C. Fu,R. Guo,C.-X. Wu*,Y. Lin*, Recent Advances in Multi-mechanism Design of Crack-resistant Hydrogels, Soft Matter 18, 5153-5165 (2022).
143. Xi Chen, Ke Xiao, Rui Ma, Xuezheng Cao, Chen-Xu Wu*, Electrostatics in a tortuous nanochannel in a newly developed curvilinear coordinate system, Chinese Journal of Physics 77, 1040 (2021).
142. Zilong Guo, Haiyan Hong, Hao Sun, Xiaofeng Zhang, Chen-Xu Wu, Bing Li, Yi Cao and Hu Chen, SpyTag/SpyCatcher tether as a fingerprint and force marker in single-molecule force spectroscopy experiments, Nanoscale 13, 11262 (2021).
141. Ke Xiao, Xi Chen and Chen-Xu Wu*, Electric field-triggered Cassie-Baxter-Wenzel wetting transition on textured surface, Physical Review Research 3, 033277 (2021).
140. Wei Li, Xue-Zheng Cao*, Holger Merlitz, and Chen-Xu Wu*, Rouse Mode Analysis of Relaxation in Polymer Blends, Macromolecular Theory and Simulations 30 (2), 2000084 (2021).
139. Ke Xiao and Chen-Xu Wu*, Curvature effect of electrowetting-induced droplet detachment, Journal of Applied Physics 129, 234701 (2021).
138. Xue-Zheng Cao, Holger Merlitz, Chen-Xu Wu, and M. Gregory Forest, Chain stiffness boosts active nanoparticle transport in polymer networks, Physical Review E, 103, 052501(2021).
137. Ke Xiao and Chen-Xu Wu*, book chapter of Frontiers and Progress of Current Soft Matter Research (Springer, 2021),
Fréedericksz-Like Positional Transition Triggered by An External Electric Field,323-352(2021).
136. Zilong Guo, Haiyang Hong, Guihua Yuan, Hui Qian, Bing Li, Yi Cao, Wei Wang, Chen-Xu Wu*, and Hu Chen*, Hidden intermediate state and second pathway determining folding/unfolding dynamics of GB1 protein at low forces, Physical Review Letters 125, 198101 (2020).
135. Ke Xiao, Xuezheng Cao, Xi Chen, Hanzi Hu, and Chen-Xu Wu*, Bactericidal efficacy of nanopatterned surface tuned by topography, J. Appl. Phys. 128, 064701 (2020).
134. Wenbin Zeng, Deshuai Yu, Yonghua Tang, Changxu Lin*, Shuihong Zhu, Yanyan Huang, Youhui Lin, Xiang Yang Liu and Chenxu Wu*, Wool Keratin Photolithography as an Eco-friendly Route to Fabricate Protein Micro-architectures, ACS APPL BIO MATER 3, 5 (2020).
133. Ke Xiao, Xi Chen, Xue-Zheng Cao and Chen-Xu Wu*, Field-triggered vertical positional transition of a microparticle suspended in a nematic liquid crystal cell, Physical Review E 101 052706 (2020).
132. Yongying Hong, Yanyan Huang, Yonghua Tang, Wenbin Zeng, Rui Yu, Youhui Lin*, Xiang Yang Liu, and Chenxu Wu*, Constructing dual-readout logic operations based on the silk fibroin sol-gel transition, J. Mater. Chem. B 8, 3005 (2020).
131.Xuezheng Cao*, Holger Merlitz, and Chen-Xu Wu*, Mechanical strength management of polymer composites through tuning transient networks, J. Phys. Chem. Lett. 11, 710-715 (2020).
130. Yanli Ma, Huijing Bao, Xi Wang, Xi Chen, Zheyi Zhang, Jinan Wang, Peiyun Zhuang, Jack J. Jiang, Azure Wilson, Chen-Xu Wu, Spatial motion of arytenoid cartilage using dynamic computed tomography combined with Euler angles, The Laryngoscope 00, 1-8 (2019)
129. Imran Khan, Jinshen Lan, Mengyao Gao, Shengli Huang*, Chenxu Wu*, Electron beam‑induced changes in tips of multi‑walled carbon nanotubes with/without Au nanoparticles, Applied Nanoscience 10, 1521-1534 (2020).
https://doi.org/10.1007/s13204-019-01237-5
128. Ke Xiao, Xi Chen, and Chen-Xu Wu*, Freedericksz-like positional transition, Physical Review Research 1, 033041 (2019).
127. Chen Song, Zhen Zhao, Youhui Lin, Yang Zhao, Xiangyang Liu, Changxu Lin*, and Chen-Xu Wu*, A Nanoneedle-Based Reactional Wettability Variation Sensor Array for On-site Detection with a Smartphone, J. Colloid Interface Sci 547, 330-338 (2019).
126. Zicong Zhou and Chen-Xu Wu, Mechanical property of the helical configuration for a twisted intrinsically straight biopolymer, European Biophysics Journal 48(4) 329-340 (2019).
125. Bin Wang, Tien-Mo Shih, Xiwen Chen, Richard Ru-Gin Chang, Chen-Xu Wu,Anomalous cooling during transient heating process, International Journal of Heat and Mass Transfer 127, 1253-1262 (2018).
124. Bin Wang, Tien-Mo Shih, Xiwen Chen, Richard Ru-Gin Chang, and Chen-Xu Wu, Cascade-like and cyclic heat transfer characteristics affected by enclosure aspect ratios for low Prandtl numbers,International Journal of Heat and Mass Transfer 124, 131-140 (2018).
123. Chengwu Li, Holger Merlitz, Chen-Xu Wu, and Jens-Uwe Sommer, Nanopores as switchable gates for nanoparticles: a molecular dynamics Study, Macromolecules 51(16) 6238-6247 (2018).
122. Hong-Hong Lyu, Fuxian Xu, Holger Merlitz and Chen-Xu Wu, Chain stiffness effect on the properties of topological polymer brushes and the penetration by free chains using MD simulation, J. Phys. Communications 2: 015025 (2018).
121. Ke Xiao, Dian-Jie Li, and Chen-Xu Wu, Theoretical studies and molecular dynamics simulations on ion transport properties in nanochannels and nanopores, Chin. Phys. B 27(2):024702 (2018).
120. Khan Imran, Shengli Huang, and Chen-Xu Wu, Multi-walled carbon nanotubes under focused electron beam: metal passivation effect and nanoscaled curvature effect, Journal of Physics: Condensed Matter 19, 123016 (2017).
119. Huan Yang,Xue-Zheng Cao,Bin Zhou,Yong-Song Liu,Chen-Xu Wu, Adding nonconnected monomers to manage the layering crystalization of polymers on athermal substrate, Macromolecular Theory and Simulations,12:1700068 (2017).
118. Zicong Zhou, Bela Joos, and Chen-Xu Wu, Stability of the helical configuration of an intrinsically straight semiflexible biopolymer inside a cylindrical cell, AIP Advances 7:125003 (2017).
117. Imran Khan, Shengli Huang, and Chen-Xu Wu*, Multi-walled carbon nanotube structural instability with/without metal nanoparticles under electron beam irradiation, New J. Phys. 19: 123016 (2017).
116. Bin Wang, Tien-mo Shih*, Bo Tian, Chen-Xu Wu*, Richard Ru-Gin Chang, Mildly zigzag heat transfer affected by aspect ratios for recirculating flows in rectangular enclosures, International Journal of Heat and Mass Transfer 107, 372-378 (2017).
115.Xue-Zheng Cao, Holger Merlitz and Chen-Xu Wu*, Tuning Adsorption Duration To Control the Diffusion of a Nanoparticle in Adsorbing Polymers, J. Phys. Chem. Lett. 8(12) 2629-2633 (2017).
114.Holger Merlitz, Chen-Xu Wu and Jens-Uwe Sommer, Directional transport of colloids inside a bath of self-propelling walkers, Soft Matter 13, p. 3726 (2017).
113.Wu-Bing Wan, Hong-Hong Lv, Holger Merlitz, and Chen-Xu Wu, Static and dynamic properties of polymer brush with topological ring structures:molecular dynamic simulation, Chin. Phys. B 25(10):0106101 (2016).
112.Holger Merlitz, Cheng-Wu Li, Chen-Xu Wu and Jens-Uwe Sommer, Theoretical approaches to starlike polymer brushes in Theta-solvent, Polymer 103, p. 57 (2016).
111.Chanfei Su, Holger Merlitz, Chenxu Wu and Jens-Uwe Sommer, Mixed brush made of 4-arm stars and linear chains: MD simulations, The Journal of Chemical Physics 145, 234905 (2016).
110. Xuezheng Cao, Holger Merlitz, Chen-Xu Wu, Goran Ungar and Jens-Uwe Sommer, Theoretical Study of Dispersion-to-Aggregation of Nanoparticles in Adsorbing Polymers from Molecular Dynamics Simulation, Nanoscale 8, 6964-6968 (2016).
109. Huan-Gao Peng, Zicong Zhou, Holger Merlitz, Chen-Xu Wu, Phase transitional behaviors of bent-cored liquid crystal in electric field, Chem. Phys. Lett. 653, 196-201 (2016).
108.Bin Wang, Tien-Mo Shih and Chen-Xu Wu, Characteristics of instantaneous heat transfer rates in three heat-transfer-coefficient regimes, International Journal of Heat and Mass Transfer 93, 889-895 (2016).
107.Cheng-Wu Li, Holger Merlitz, Chen-Xu Wu and Jens-Uwe Sommer, The structure of brushes made of dendrimers: Recent advances, Polymer 98, 437-447 (2016)
106. X.Z. Cao, Z.G. Duan, J.S. Wang, Y.S. Liu, C.X. Wu Thin polymer-layer decorated, structure adjustable crystals of nanoparticles. Phys. Chem. Chem. Phys. 17, 22533 (2015).
105. Wei Cui, Holger Merlitz, and Chen-Xu Wu, Dendrimer Polymer Brushes, Chap. article of Advanced Polymeric Materials. (Apple Academic Press, 2015).
104. Su-Zhen He, Holger Merlitz, Jens-Uwe Sommer and Chen-Xu Wu, Counterion-mediated protein adsorption into polyelectrolyte brushes, Europ. Phys. Jour. E 38, p. 101 (2015).
103.Ming-Ying Zeng, Holger Merlitz and Chen-Xu Wu, Quartic coupling and its effect on wetting behaviors in nematic liquid crystals, Chinese Physics 24(2), 026101 (2015).
102. Holger Merlitz, Chengwu Li, Chenxu Wu and Jens-Uwe Sommer, Polyelectrolyte brushes in external fields: molecular dynamics simulations and mean-field theory, Soft Matter 11, p. 5688 (2015).
101. Naibo Lin, Fan Hu, Yilin Sun, Chenxu Wu, Hongyao Xu, Xiang Yang Liu, Construction of White-Light-Emitting Silk Protein Hybrid Films by Molecular Recognized Assembly among Hie..., Advanced Functional Materials 09/2014; 24 (33).
100. Chan-Fei Su, Wei Cui, Holger Merlitz, Chen-Xu Wu and Jens-Uwe Sommer, Starlike polymer brushes in Theta-solvent, Polymer 55, p. 3254 (2014).
99. Holger Merlitz, Wei Cui, Chan-Fei Su, Chen-Xu Wu, and Jens-Uwe Sommer, Grafted Polyrotaxanes: Scaling Theory and Molecular Dynamics Simulations, Macromolecules 47, p. 4110 (2014).
98. Wei Cui, Chan-Fei Su, Holger Merlitz, Chen-Xu Wu, and Jens-Uwe Sommer, Structure of Dendrimer Brushes: Mean-Field Theory and MD Simulations, Macromolecules 47, p. 3645-3653 (2014).
97. Xue-Zheng Cao, Holger Merlitz, Chen-Xu Wu and Jens-Uwe Sommer, Polymer induced Inverse-Temperature Crystallization of Nanoparticles on a Substrate, ACS Nano 7, 9920 (2013).
96. Wei Cui, Chan-Fei Su, Chen-Xu Wu, Holger Merlitz and Jens-Uwe Sommer, Numerical evidences for a free energy barrier in starlike polymer brushes, J. Chem. Phys. 139, 134910 (2013).
95. Xiao-Fang Ye, Holger Merlitz, Chen-Xu Wu, Biaxiality of Liquid Crystal Formed by Bent-Core Molecules with a Transverse Dipole Moment Deviating from their Angular Bisector, Chin. Phys. Lett. 30, 106103 (2013).
94.Xue-Zheng Cao, Holger Merlitz, Chen-Xu Wu, S. A. Egorov and Jens-Uwe Sommer, Effective Pair Potentials between Nanoparticles Induced by Single Monomers and Polymer Chains: Soft Matter 9, 5916 (2013).
93.Holger Merlitz, Wei Cui, Chen-Xu Wu and Jens-Uwe Sommer, Semianalytical Mean-Field Model for Starlike Polymer Brushes in Good Solvent, Macromolecules 46, 1248 (2013).
92. Su-Zhen He, Holger Merlitz, Chan-Fei Su and Chen-Xu Wu, Static and dynamic properties of grafted ring polymer: Molecular dynamic simulation, Chin. Phys. B 22 (1), 016101 (2013).
91.Holger Merlitz, Chen-Xu Wu and Jens-Uwe Sommer, Inclusion Free Energy of Nanoparticles in Polymer Brushes, Macromolecules 45, 8494 (2012).
90. Min Guo, Chanfei Su, Gaoqing Lu, Xianfang Zhu, Chen-Xu Wu, and Lianzhou Wang, In-situ synthesis of gold nanoparticles in nitrogen-doped titania nanosheets via layer-by-layer assembly method, Thin Solid Films 520(24), 7066-7070 (2012).
89. Xue-Zheng Cao, Holger Merlitz, Jens-Uwe Sommer and Chen-Xu Wu, Entropy dominated behaviors of confined polymer-nanoparticle composites, Chin. Phys. B 21, 118202 (2012).
88. Min Guo, Gaoqing Lu, Xianfang Zhu, Chenxu Wu, and Lianzhou Wang, Fabrication of multilayer films of N-doped titania nanosheets and hematite nanocubes via layer by layer assembly, Colloids and Surfaces A: Physicochem. Eng. Aspects. 395, 100-104 (2012).
87. Xuezheng Cao, Holger Merlitz and Chen-Xu Wu, Polymer-induced entropic depletion potential, Phys, Rev. E 84, 041802 (2011).
86. Holger Merlitz, Chen-Xu Wu and Jens-Uwe Sommer, Starlike Polymer Brushes, Macromolecules 44, 7043 (2011).
85. Xiao-Qin Tan, Ming-Ying Zeng, Wei Cui, and Chen-Xu Wu, Dynamics of a magnetic nanowire suspended in TN cell under magnetic field, Chem. Phys. Lett. 513, 154-159 (2011).
84. Zeng Ming-Ying, Cui Wei, Tan Xiao-Qin and Wu Chen-Xu, The phase transition of nematic liquid crystal cells bounded by surfactant-laden interfaces, Chin. Phys. Lett. 28, 066103 (2011).
83. Suzhen He, Holger Merlitz, Long Chen, Jens-Uwe Sommer, and Chenxu Wu, Polyelectrolyte Brushes: MD Simulation and SCF Theory(addition), Macromolecules, 44 (7), 2393 (2011).
82. Long Chen, Holger Merlitz, Suzhen He, Jens-Uwe Sommer, and Chenxu Wu, Polyelectrolyte Brushes: Debye Approximation and Mean-Field Theory, Macromolecules, 44, 3109-3166(2011).
81. Su-zhen He, Holger Merlitz, Long Chen, Jens-Uwe Sommer, and Chen-Xu Wu, Polyelectrolyte Brushes: MD Simulation and SCF Theory, Macromolecules 43 (18), 7845-7851 (2010).
80. Yang, Jing; Lin, Hai; Wu, Chen-Xu, Preferential spreading on scale-free networks, Physica A, 389 (18), 3915-3921 (2010).
79. Dongping Yang, Hai Lin, Chen-Xu Wu and J W Shuai, Modelling moran process with network dynamics for the evolution of cooperation, Chinese Physics Letters 26, 68902 1-4 (2009).
78. Annika Wedemeier, Holger Merlitz, Chen-Xu Wu, Joerg Langowski, How proteins squeeze through polymer networks: a Cartesian lattice study, J. Chem. Phys 131, 064905 (2009).
77. Dong-Ping Yang, Hai Lin, Chen-Xu Wu, and J. W. Shuai, Effect of mortality selection on the emergence of cooperation with network dynamics, New Journal of Physics 11, 073048, 1-13 (2009).
76. Gui-Li He, Holger Merlitz, Jens-Uwe Sommer and Chen-Xu Wu, Microphase Separation of Mixed Binary Polymer Brushes at Different Temperatures, Macromolecules 42,7194-7202(2009).
75. Dong-Ping Yang, J. W. Shuai, Hai Lin and Chen-Xu Wu, Individual’s strategy characterized by local topology conditions in prisoner’s dilemma on scale-free networks, Physica A 388 (13), 2750-2756 (2009).
74. Holger Merlitz, Gui-Li He, Chen-Xu Wu and Jens-Uwe Sommer, Nanoscale brushes: How to build a smart surface coating, Phys. Rev. Lett. 102, 115702 (2009).
73. Holger Merlitz, Gui-Li He, Jens-Uwe Sommer and Chen-Xu Wu, Reversibly Switchable Polymer Brushes with Hydrophobic/Hydrophilic Behavior: A Langevin Dynamics Study, Macromolecules 42, 445 (2009).
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