Wang Hongtao

Associate Professor, Institute of Applied Mechanics

 

Phone: +86 571 8795 1375
Fax: +86 571 8795 1375
Email: htw@zju.edu.cn
Office:  

38 Zheda Road
Zhejiang University, Yuquan Campus
BLD. 12, RM223
Hangzhou, China 310027

 

Other Appointments


 

Professional Activities

Present, Editor Board of Composite Science and Technology, 2009.9~
 

Education

Ph.D. –Harvard University, Applied Physics, 2009
Ph.D. – Tsinghua University, Ph.D. in Solid Mechanics, 2004
B.S. – Tsinghua University, Engineering Mechanics, 2000

Working Experience

2009.6 ~, Associate professor, Institute of Applied Mechanics, Zhejiang University
2011.4 ~ Present, Visiting Professor, KAUST, Saudi Arabia

 

Awards and Honors

New Century Excellent Talents in University, Ministry of Education of China, 2009
Award of Distinction in Teaching, Harvard University, 2007
Second NSK China-Japan Friendship Outstanding Paper Prize, 2004
Paper title: Nitriding Simulation for Polycrystals of Grain Size Gradient)
Magna Cum Laude, Tsinghua University, 2000
 

Research Interests

? Atomic layer deposition (ALD) and chemical vapor deposition (CVD) of oxides, metals and nitrides. Thin film characterization with XRD, XRR, SEM, AFM, RBS, XPS, TEM, APM etc.
? In-situ transmission electron microscopy on the dynamic behavior of nano-structured materials.
? Modelling and simulation on mechanical behavior of nano-structured materials, especially focusing on molecular dynamics and ab initio methods
 

Current Projects

  1. NSFC Funding on in situ Microscopy of nanocrystalline metals, 2011
  2. NSFC funding on Functional materials, 2011
  3. 973 Project on high-speed Railway, 2011

Publication List

Recent Publications
[1] Wang H, Nie A, Liu J, Wang P and Yang W, In-situ TEM Study on Crack Propagation in Nanoscale Au Thin Films, Scripta Materialia, Accepted, (2011).
[2] Lin C, Wang H and Yang W, Elastic Wave Propagation and Scattering in Deformed Single-Walled Carbon Nanotubes, Journal of Computational and Theoretical Nanoscience, Accepted, (2010).22.
[3] Lin C, Wang H and Yang W, Shift in Percolation Threshold of Compressed Composites Three-Dimensional Monte Carlo Simulation, Journal of Zhejiang Uni-SCIENCE A, 11(10), 822-826, (2010)21.
[4] Lin C, Wang H and Yang W, The thermomutability of single-walled carbon nanotubes by constrained mechanical folding, Nanotechnology, 21 (36), 365708 (2010).20.
[5] Lin C, Wang H, and Yang W, "Variable percolation threshold of composites with fiber fillers under compression," J. Appl. Phys. 108 (1), 013509-013505 (2010).19.
[6] Nie A, Wang P, Wang H, Mao, SX, Defect-driven room-temperature coalescence of double-walled carbon nanotubes. Nanotechnology;21:245302. (2010) .18.
[7] Wang H, Xu S, Gordon RG. Low Temperature Epitaxial Growth of High Permittivity Rutile TiO2 on SnO2. Electrochemical and Solid-State Letters13:G75 (2010).
[8] Wang H, Wang J, Gordon R et al., "Atomic Layer Deposition of Lanthanum-Based Ternary Oxides," Electrochemical and Solid-State Letters 12 (4), G13-G15 (2009).16. Wang H, Gordon R, Alvis R, Ulfig MR. Atomic Layer Deposition of Ruthenium Thin Films from an Amidinate Precursor. Chemical Vapor Deposition 15(10), 312 – 319 (2009).


Selected Publications
[1] Wang H, Wang J, Gordon R et al., "Atomic Layer Deposition of Lanthanum-Based Ternary Oxides," Electrochemical and Solid-State Letters 12 (4), G13-G15 (2009).16.
[2] Wang H, Gordon R, Alvis R, Ulfig MR. Atomic Layer Deposition of Ruthenium Thin Films from an Amidinate Precursor. Chemical Vapor Deposition 15(10), 312 – 319 (2009).
[3] Wang H, Yang W. Constitutive modeling for nanocrystalline metals based on cooperative grain boundary mechanisms. Journal of the Mechanics and Physics of Solids 2004; 52-1151.8.
[4] Yang W, Wang H. Mechanics modeling for deformation of nano-grained metals. Journal of the Mechanics and Physics of Solids 2004; 52-875.

Full Publications
2011
24. Wang H, Nie A, Liu J, Wang P and Yang W, In-situ TEM Study on Crack Propagation in Nanoscale Au Thin Films, Scripta Materialia, Accepted, (2011).

2010
23. Lin C, Wang H and Yang W, Elastic Wave Propagation and Scattering in Deformed Single-Walled Carbon Nanotubes, Journal of Computational and Theoretical Nanoscience, Accepted, (2010).
22. Lin C, Wang H and Yang W, Shift in Percolation Threshold of Compressed Composites Three-Dimensional Monte Carlo Simulation, Journal of Zhejiang Uni-SCIENCE A, 11(10), 822-826, (2010)
21. Lin C, Wang H and Yang W, The thermomutability of single-walled carbon nanotubes by constrained mechanical folding, Nanotechnology, 21 (36), 365708 (2010).
20. Lin C, Wang H, and Yang W, "Variable percolation threshold of composites with fiber fillers under compression," J. Appl. Phys. 108 (1), 013509-013505 (2010).
19. Nie A, Wang P, Wang H, Mao, SX, Defect-driven room-temperature coalescence of double-walled carbon nanotubes. Nanotechnology;21:245302. (2010) .
18. Wang H(Corresponding Author), Xu S, Gordon RG. Low Temperature Epitaxial Growth of High Permittivity Rutile TiO2 on SnO2. Electrochemical and Solid-State Letters13:G75 (2010).

2009
17. Wang H, Wang J, Gordon R et al., "Atomic Layer Deposition of Lanthanum-Based Ternary Oxides," Electrochemical and Solid-State Letters 12 (4), G13-G15 (2009).
16. Wang H, Gordon R, Alvis R, Ulfig MR. Atomic Layer Deposition of Ruthenium Thin Films from an Amidinate Precursor. Chemical Vapor Deposition 15(10), 312 – 319 (2009).

Before 2008

15. Wang H, Ramanathan S. Effect of intrinsic stress from a nanoscale high-dielectric constant gate oxide on strain in a transistor channel. Applied Physics Letters 2007; 91 (also selected for publication in Virtual Journal of Nanoscale Science and Technology, July 16, 2007 issue)
14. Wang H, Yang W, Ngan AHW. Enhanced diffusivity by triple junction networks. Scripta Materialia 2005; 52-69.
13. Wang H, Yang W. Nitriding simulation for polycrystals of grain size gradient. Scripta Materialia 2004; 50-529. (Second NSK China-Japan Friendship Outstanding Paper Prize)
12. Yang W, Ma XL, Wang H, Hong W. Dislocation depleted deformation in nano-grained metals. In: Shen WP, Xu JQ, editors, 2004. p.51.
11. Ma XL, Wang H, Yang W. Tribological behavior of aligned single-walled carbon nanotubes. Journal of Engineering Materials and Technology-Transactions of the ASME 2004; 126-258.
10. Wang H, Yang W. A screw dislocation nucleated from a triple junction. International Journal of Plasticity 2005; 21-2053.
9. Wang H, Yang W. Constitutive modeling for nanocrystalline metals based on cooperative grain boundary mechanisms. Journal of the Mechanics and Physics of Solids 2004; 52-1151.
8. Yang W, Wang H. Mechanics modeling for deformation of nano-grained metals. Journal of the Mechanics and Physics of Solids 2004; 52-875.
7. Wang H, and Yang W. Mechanical Behaviors in Nanocrystalline Metals, Advances in Mechanics 2004; 34; 314-326
6. Yang W, Wang H, Ma XL, Hong W. Progresses in Nano-Mechanics II, Advances in Mechanics, 2003; 33; 175-186
5. Yang W, Ma XL, Wang H, Hong W. Progresses in Nano-Mechanics, Advances in Mechanics, 2002; 32; 161-174
4. Yang W, Wang H, Huang Y. Abnormal tribological behavior of multiwalled nanotube rafts - Part I: Aligned rafts. Journal of Engineering Materials and Technology-Transactions of the ASME 2005; 127-383.
3. Yang W, Wang H, Huang Y. Abnormal tribological behavior of multiwalled nanotube rafts - Part II: Inclined rafts. Journal of Engineering Materials and Technology-Transactions of the ASME 2005;1 27-393.
2. Yang W, Wang H, Fang F, Cui YQ. Unconventional domain band structure at the crack tip in ferroelectric ceramics. Theoretical and Applied Fracture Mechanics, 2001; 37; 397-408
1. Yang W, Wang H, Cui YQ. Composite Eshelby model and domain band geometries of ferroelectric ceramics. Science in China Series E-Technological Sciences 2001; 44-403.