吳恆安,男,博士,中國科學技術大學教授、博士生導師,中國科學技術大學工程科學學院副院長,中國科學院材料力學行為和設計重點實驗室主任。
基本介紹
- 中文名:吳恆安
- 國籍:中國
- 民族:漢
- 出生地:湖北
- 出生日期:1975年7月
- 畢業院校:中國科學技術大學
- 學位/學歷:博士
- 專業方向:計算力學
- 任職院校:中國科學技術大學
- 職稱:中國科學技術大學教授
人物經歷,主講課程,研究方向,論文專著,
人物經歷
1975年7月出生於湖北省黃岡市紅安縣。
1997年6月獲得中國科技大學理論與套用力學學士學位。
2002年6月獲得中國科技大學固體力學博士學位,同年獲中國科學院院長獎。
2002年8月-2004年2月在新加坡國立大學機械工程系任博士後研究員。
2004年2月任中國科學技術大學工程科學學院近代力學系副教授。
2009年擔任近代力學系教授,並擔任CME實驗室主任。實驗室以計算力學為主,分為有限元部分和分子動力學計算兩個部分。
2010年6月晉升教授。
2013年度獲得安徽省傑出青年科學基金。
2014年度中國科學技術大學傑出研究校長獎。
2015年度國家傑出青年科學基金。
2015年度入選科技部創新人才推進計畫中青年科技創新領軍人才。
主講課程
主講本科生<<材料力學>>和<<計算力學基礎>>(省級精品課程)課程。
研究方向
1、微納米力學
2、計算力學數值方法及其在工程中的套用
3、石油工程關鍵力學問題
論文專著
已在Science、Nature、Nature Communications、Journal of the American Chemical Society、ACS Nano、Scientific Reports、Carbon、Soft Matter、Nanotechnology、Applied Physics Letters、Journal of Petroleum Science and Engineering和Journal of Natural Gas Science and Engineering等學術期刊發表被SCI收錄論文130餘篇,被SCI他引4000餘次。
成就概要:
吳恆安教授在出國研修期間,與英國曼徹斯特大學安德烈·海姆(2010年諾貝爾物理學獎得主)教授課題組合作,發表了重要研究成果。他們利用氧化石墨烯製作出一種新型隔氣透水材料。這種材料的神奇之處在於,絕大多數液體和氣體都無法通過它,但水蒸氣可以暢通無阻。該研究成果刊登在2012年1月27日出版的《Science》雜誌上,引起很大反響,受到BBC、Science Daily等媒體爭相報導。
已發表論文:
77. Sun, X.H., H.A. Wu* and R. Long*,Thermomechanics of a temperature sensitive covalent adaptable polymer with bond exchange reactions.Soft Matter, 2016.12(43): p. 8847-8860.
76. Radha, B.*, A. Esfandiar, F.C. Wang*, A.P. Rooney, K. Gopinadhan, A. Keerthi, A. Mishchenko, A. Janardanan, P. Blake, L. Fumagalli, M. Lozada-Hidalgo, S. Garaj, S.J. Haigh, I.V. Grigorieva, H.A. Wu and A.K. Geim*,Molecular transport through capillaries made with atomic-scale precision.Nature, 2016.538(7624): p. 222-225.
75. Gao, H.L.#, Y.B. Zhu#, L.B. Mao, F.C. Wang, X.S. Luo, Y.Y. Liu, Y. Lu, Z. Pan, J. Ge, W. Shen, Y.R. Zheng, L. Xu, L.J. Wang, W.H. Xu, H.A. Wu* and S.H. Yu*,Super-elastic and fatigue resistant carbon material with lamellar multi-arch microstructure.Nature Communications, 2016.7: p. 12920.
74. Zhu, Y.B., F.C. Wang, J. Bai, X.C. Zeng* and H.A. Wu*,AB-stacked square-like bilayer ice in graphene nanocapillaries.Physical Chemistry Chemical Physics, 2016.18(32): p. 22039-22046.
73. Zhu, Y.B., F.C. Wang* and H.A. Wu,Buckling failure of square ice-nanotube arrays constrained in graphene nanocapillaries.Journal of Chemical Physics, 2016.145(5): p. 054704.
72. Liu, X.Y., F.C. Wang*, W.Q. Wang* and H.A. Wu,Interfacial strengthening and self-healing effect in graphene-copper nanolayered composites under shear deformation.Carbon, 2016.107: p. 680-688.
71. Shi, F., X.L. Wang, C. Liu, H. Liu and H.A. Wu*,A coupled extended finite element approach for modeling hydraulic fracturing in consideration of proppant.Journal of Natural Gas Science and Engineering, 2016.33: p. 885-897.
70. Xia, J., X.Y. Liu, W. Zhou, F.C. Wang and H.A. Wu*,Transformation between divacancy defects induced by an energy pulse in graphene.Nanotechnology, 2016.27(27): p. 274004.
69. Wang, X.L., F. Shi, H. Liu and H.A. Wu*,Numerical simulation of hydraulic fracturing in orthotropic formation based on the extended finite element method.Journal of Natural Gas Science and Engineering, 2016.33: p. 56-69.
68. Zhu, Y.B., F.C. Wang*, J. Bai, X.C. Zeng* and H.A. Wu,Formation of Trilayer Ices in Graphene Nanocapillaries under High Lateral Pressure.Journal of Physical Chemistry C, 2016.120(15): p. 8109-8115.
67. Zhao, Y.L., J. Yao, L. Xu, M.N. Mankin, Y.B. Zhu, H.A. Wu, L.Q. Mai, Q.J. Zhang and C.M. Lieber*,Shape-controlled deterministic assembly of nanowires.Nano Letters, 2016.16(4): p. 2644-2650.
66. Cai, Y., J.Y. Huang, H.A. Wu*, M.H. Zhu, W.A. Goddard and S.N. Luo*,Tensile strength of liquids: equivalence of temporal and spatial scales in cavitation.Journal of Physical Chemistry Letters, 2016.7(5): p. 806-810.
65. Wang, X.L., C. Liu, H. Wang, H. Liu and H.A. Wu*,Comparison of consecutive and alternate hydraulic fracturing in horizontal wells using XFEM-based cohesive zone method.Journal of Petroleum Science and Engineering, 2016.143: p. 14-25.
64. Li, Y.Q., H.A. Wu and F.C. Wang*,Stagnation of a droplet on a conical substrate determined by the critical curvature ratio.Journal of Physics D: Applied Physics, 2016.49(8): p. 085304.
63. Liu, C., X.L. Wang, D.W. Deng, Y.P. Zhang, Y.G. Zhang, H.A. Wu* and H. Liu*,Optimal spacing of sequential and simultaneous fracturing in horizontal well.Journal of Natural Gas Science and Engineering, 2016.29: p. 329-336.
62. Zhang, S.J., S.S. Lin*, X.Q. Li, X.Y. Liu, H.A. Wu, W.L. Xu, P. Wang, Z.Q. Wu, H.K. Zhong and Z.J. Xu,Opening the band gap of graphene through silicon doping for the improved performance of graphene/GaAs heterojunction solar cells.Nanoscale, 2016.8(1): p. 226-232.
61. Wu, H.A.* and X.Y. Liu,Tuning electromechanics of dynamic ripple pattern in graphene monolayer.Carbon, 2016.98: p. 510-518.
60. Wang, L.Y., H.A. Wu and F.C. Wang*,Efficient transport of droplet sandwiched between saw-tooth plates. Journal of Colloid and Interface Science, 2016.462: p. 280–287.
59. Zhu, Y.B., F.C. Wang, J. Bai, X.C. Zeng* and H.A. Wu*,Compression limit of two-dimensional water constrained in graphene nanocapillaries.ACS Nano, 2015.9(12): p. 12197–12204.
58. Shen, Y.K., H. Liu, H. Wang and H.A. Wu*,Wellbore instability induced by alternating water injection and well washing with an elasto-plastic erosion model.Journal of Natural Gas Science and Engineering, 2015.27: p. 1863-1870.
57. Wang, F.C. and H.A. Wu*,Molecular origin of contact line stick-slip motion during droplet evaporation.Scientific Reports, 2015.5: p. 17521.
56. Liu, X.Y., F.C. Wang* and H.A. Wu,Anomalous twisting strength of tilt grain boundaries in armchair graphene nanoribbons.Physical Chemistry Chemical Physics, 2015.17(47): p. 31911-31916.
55. Lin, S.S.*, S.J. Zhang, X.Q. Li, W.L. Xu, X.D. Pi, X.Y. Liu, F.C. Wang, H.A. Wu* and H.S. Chen,Quasi-two-dimensional SiC and SiC2: interaction of silicon and carbon at atomic thin lattice plane.Journal of Physical Chemistry C, 2015.119(34): p. 19772-19779.
54. Cai, Y., L. Wang, H.A. Wu*, M.H. Zhu*, C.L. Liu and S.N. Luo*,Homogeneous crystal nucleation in liquid copper under quasi-isentropic compression.Physical Review B, 2015.92(1): p. 014108.
53. Wang, H., H. Liu*, H.A. Wu and X.X. Wang,A 3D numerical model for studying the effect of interface shear failure on hydraulic fracture height containment.Journal of Petroleum Science and Engineering, 2015.133: p. 280-284.
52. Wu, H.A.*, J. Chen and H. Liu,Molecular dynamics simulations about adsorption and displacement of methane in carbon nanochannels.Journal of Physical Chemistry C, 2015.119(24): p. 13652-13657.
51. Liu, C., H. Liu, Y.P. Zhang, D.W. Deng and H.A. Wu*,Optimal spacing of staged fracturing in horizontal shale-gas well.Journal of Petroleum Science and Engineering, 2015.132: p. 86-93.
50. Algara-Siller, G., O. Lehtinen, F.C. Wang, R.R. Nair, U. Kaiser*, H.A. Wu*, A.K. Geim and I.V. Grigorieva*,Square ice in graphene nanocapillaries.Nature, 2015.519(7544): p. 443-445.
49. Wei, Q.L., S.S. Tan, X.Y. Liu, M.Y. Yan, F.C. Wang, Q.D. Li, Q.Y. An, R.M. Sun, K.N. Zhao, H.A. Wu and L.Q. Mai*,Novel polygonal vanadium oxide nanoscrolls as stable cathode for lithium storage.Advanced Functional Materials, 2015.25(12): p. 1773-1779.
48. E, J.C., L. Wang, Y. Cai, H.A. Wu* and S.N. Luo*,Crystallization in supercooled liquid Cu: Homogeneous nucleation and growth.Journal of Chemical Physics, 2015.142(6): p. 064704.
47. Shen, Y.K., H. Liu, H. Wang, J. Chen and H.A. Wu*,Initiation and propagation of wormhole in unconsolidated rock matrix induced by long-term water injection.Journal of Petroleum Science and Engineering, 2015.127: p. 93-100.
46.Liu, X.Y., F.C. Wang and H.A. Wu*,Anisotropic growth of buckling-driven wrinkles in graphene monolayer.Nanotechnology, 2015.26(6): p. 065701.(Cover paper)
45. Li, Y.Q., F.C. Wang*, H. Liu and H.A. Wu*,Nanoparticle-tuned spreading behavior of nanofluid droplets on the solid substrate.Microfluidics and Nanofluidics, 2015.18(1): p. 111-120.
44. Chen, J., F.S. Wang, G.C. Shi, G. Cao, Y. He, W.T. Ge, H. Liu* and H.A. Wu*,Finite element analysis for adhesive failure of progressive cavity pump with stator of even thickness.Journal of Petroleum Science and Engineering, 2015.125: p. 146-153.
43. Hu, S., M. Lozada-Hidalgo*, F.C. Wang, A. Mishchenko, F. Schedin, R.R. Nail, E.W. Hill, D.W. Boukhvalov, M.I. Katsnelson, R.A.W. Dryfe, I.V. Grigorieva, H.A. Wu* and A.K. Geim,Proton transport through one-atom-thick crystals.Nature, 2014.516(7530): p. 227-230.
42. Wang, L.Y., F.C. Wang*, F.Q. Yang and H.A. Wu*,Molecular kinetic theory of boundary slip on textured surfaces by molecular dynamics simulations. Science China: Physics, Mechanics and Astronomy, 2014.57(11): p. 2152-2160.
41. Zhao, Y.L.#, J.G. Feng#, X. Liu#, F.C. Wang, L.F. Wang, C.W. Shi, L. Huang, X. Feng, X.Y. Chen, L. Xu, M.Y. Yan, Q.J. Zhang, X.D. Bai, H.A. Wu* and L.Q. Mai*,Self-adaptive strain-relaxation optimization for high-energy lithium storage material through crumpling of graphene.Nature Communications, 2014.5: p. 4565.
40. Liu, X.Y., F.C. Wang,H.A. Wu* and W.Q. Wang,Strengthening metal nanolaminates under shock compression through dual effect of strong and weak graphene interface.Applied Physics Letters, 2014.104(23): p. 231901.
39.Cai, Y., H.A. Wu* and S.N. Luo*,Cavitation in a metallic liquid: Homogeneous nucleation and growth of nanovoids.Journal of Chemical Physics, 2014.140(21): p. 214317.
38.Liu, H.*, H. Wang, H.A. Wu and X.X. Wang,A proppant settling model and its application to the hydraulic fracturing process.Oil Gas-European Magazine, 2014.40(2): p. 109-112.
37.Li, B., F.P. Zhao, H.A. Wu* and S.N. Luo*,Microstructure effects on shock-induced surface jetting.Journal of Applied Physics, 2014.115(7): p. 073504.
36.Joshi, R.K., P. Carbone, F.C. Wang, V.G. Kravets, Y. Su, I.V. Grigorieva, H.A. Wu, A.K. Geim* and R.R. Nair*,Precise and ultrafast molecular sieving through graphene oxide membranes.Science, 2014.343(6172): p. 752-754.
35.Yan, M.Y.#, F.C. Wang#, C.H. Han*, X.Y. Ma, X. Xu, Q.Y. An, L. Xu, C.J. Niu, Y.L. Zhao, X.C. Tian, P. Hu, H.A. Wu* and L.Q. Mai*,Nanowire templated semihollow bicontinuous graphene scrolls: designed construction, mechanism, and enhanced energy storage performance. Journal of the American Chemical Society, 2013.135(48): p. 18176-18182.
34.Cai, Y., F.P. Zhao, Q. An, H.A. Wu*, W. Goddard III and S.N. Luo*,Shock response of single crystal and nanocrystalline pentaerythritol tetranitrate: implications to hotspot formation in energetic materials.Journal of Chemical Physics, 2013.139(16): p. 164704.
33.Wang, F.C.* and H.A. Wu,Molecular dynamics studies on spreading of nanofluids promoted by nanoparticle adsorption on solid surface.Theoretical & Applied Mechanics Letters, 2013.3: p. 054006.
32.Liu, X.Y., F.C. Wang* and H.A. Wu*,Anisotropic propagation and upper frequency limitation of terahertz waves in graphene.Applied Physics Letters, 2013.103(7): p. 071904.
31.Chen, J., H. Liu, F.S. Wang, G.C. Shi, G. Cao and H.A. Wu*,Numerical prediction on volumetric efficiency of progressive cavity pump with fluid-solid interaction model.Journal of Petroleum Science and Engineering, 2013.109: p. 12-17.
30.Zhao, F.P., H.A. Wu and S.N. Luo*,Microstructure effects on shock response of Cu nanofoams.Journal of Applied Physics, 2013.114(7): p. 073501.
29.Liu, X.Y., F.C. Wang, H. S. Park and H.A. Wu*,Defecting controllability of bombarding graphene with different energetic atoms via reactive force field model.Journal of Applied Physics, 2013.114(5): p. 054313.
28.Wang, F.C. and H.A. Wu*,Enhanced oil droplet detachment from solid surfaces in charged nanoparticle suspensions.Soft Matter, 2013.9(33): p. 7974-7980.
27.Zhou, X.Z., G.C. Shi, G. Cao, C.L. Sun, Y. He, H. Liu and H.A. Wu*,Three dimensional dynamics simulation of progressive cavity pump with stator of even thickness.Journal of Petroleum Science and Engineering, 2013.106: p. 71-76.
26.Wang, F.C. and H.A. Wu*,Pinning and depinning mechanism of the contact line during evaporation of nano-droplets sessile on textured surfaces.Soft Matter, 2013.9(24): p. 5703-5709.
25.Zhao, F.P., Q. An, B. Li, H.A. Wu, W.A. Goddard III, and S.N. Luo*,Shock response of a model structured nanofoam of Cu.Journal of Applied Physics, 2013.113(6): p. 063516.
24.Wang, H., H. Liu*, X. Zhou, H.A. Wu, and X. Wang,A 3D finite element model for simulating hydraulic fracturing processes with viscoelastic reservoir properties.Oil Gas-European Magazine, 2012.38(4): p. 210-213.
23.Wang, H.*, H. Liu, H.A. Wu, G.M. Zhang, and X.X. Wang,A 3D nonlinear fluid-solid coupling model of hydraulic fracturing for multi layered reservoirs.Petroleum Science and Technology, 2012.30(21): p. 2273-2283.
22.Shen, Y.K. and H.A. Wu*,Interlayer shear effect on multilayer graphene subjected to bending.Applied Physics Letters, 2012.100(10): p. 101909.
21.Nair, R.R., H.A. Wu, P.N. Jayaram, I.V. Grigorieva, and A.K. Geim*,Unimpeded permeation of water through helium-leak-tight graphene-based membranes.Science, 2012.335(6067): p. 442-444.
Note: All journal papers published after 2012 are listed above, while only twenty selected journal papers published before 2011 are listed below.
20.Zhou, X.Z., H. Shen, and H.A. Wu*,Bio-optimum prestress in actin filaments with a polygonal cytoskeleton model.Archive of Applied Mechanics, 2011.81(11): p. 1651-1658.
19.Zhou, X.Z., F.P. Zhao, Z.H. Sun, and H.A. Wu*,The inverse problem of red blood cells deformed by optical tweezers.International Journal of Computational Methods, 2011.8(3): p. 483-492.
18.Jiang, L.G., H.A. Wu*, X.Z. Zhou, and X.X. Wang,Coarse-grained molecular dynamics simulation of a red blood cell.Chinese Physics Letters, 2010.27(2): p. 028704.
17.Zhang, G.M.*, H. Liu, J. Zhang, H.A. Wu, and X.X. Wang,Three-dimensional finite element simulation and parametric study for horizontal well hydraulic fracture.Journal of Petroleum Science and Engineering, 2010.72(3-4): p. 310-317.
16.Qi, Z.N., F.P. Zhao, X.Z. Zhou, Z.H. Sun, H.S. Park, and H.A. Wu*,A molecular simulation analysis of producing monatomic carbon chains by stretching ultranarrow graphene nanoribbons.Nanotechnology, 2010.21(26): p. 265702.
15.Cheng, Q., H.A. Wu*, Y. Wang, and X.X. Wang,Atomistic simulations of shock waves in cubic silicon carbide.Computational Materials Science, 2009.45(2): p. 419-422.
14.Cheng, Q., H.A. Wu*, Y. Wang, and X.X. Wang,Pseudoelasticity of Cu-Zr nanowires via stress-induced martensitic phase transformations.Applied Physics Letters, 2009.95(2): p. 021911.
13.Sun, Z.H., X.X. Wang*, and H.A. Wu,Surface relaxation effect on the distributions of energy and bulk stresses in the vicinity of Cu surface: An embedded-atom method study.Journal of Applied Physics, 2008.104(3): p. 033501.
12.Wu, H.A.* and X.X. Wang,An atomistic-continuum inhomogeneous material model for the elastic bending of metal nanocantilevers.Advances in Engineering Software, 2008.39(9): p. 764-769.
11.Sun, Z.H., X.X. Wang*, A.K. Soh, H.A. Wu, and Y. Wang,Bending of nanoscale structures: Inconsistency between atomistic simulation and strain gradient elasticity solution.Computational Materials Science, 2007.40(1): p. 108-113.
10.Wu, H.A.*, R. Long, X.X. Wang, and F.C. Wang,Elastic interaction between a string of cells and an individual cell.Chinese Physics Letters, 2007.24(5): p. 1407-1409.
9.Wu, H.A.*, Z.H. Sun, Q. Cheng, and X.X. Wang,Molecular mechanics modelling and simulation of the adsorption-induced surface stress in micro-nano-cantilever sensors.Journal of Physics Conference Series, 2007.61: p. 1266-1270.
8.Wu, H.A.*, G.R. Liu, X. Han, and X.X. Wang,An atomistic simulation method combining molecular dynamics with finite element technique.Chaos Solitons & Fractals, 2006.30(4): p. 791-796.
7.Sun, Z.H., X.X. Wang*, A.K. Soh, and H.A. Wu,On stress calculations in atomistic simulations.Modelling and Simulation in Materials Science and Engineering, 2006.14(3): p. 423-431.
6.Wu, H.A.*,Molecular dynamics study of the mechanics of metal nanowires at finite temperature.European Journal of Mechanics A-Solids, 2006.25(2): p. 370-377.
5.Wu, H.A.*,Molecular dynamics study on mechanics of metal nanowire.Mechanics Research Communications, 2006.33(1): p. 9-16.
4.Wang, Y., X.X. Wang*, X.G. Ni, and H.A. Wu,Simulation of the elastic response and the buckling modes of single-walled carbon nanotubes.Computational Materials Science, 2005.32(2): p. 141-146.
3.Wu, H.A.*,Molecular dynamics simulation of loading rate and surface effects on the elastic bending behavior of metal nanorod.Computational Materials Science, 2004.31(3-4): p. 287-291.
2.Wu, H.A.*, G.R. Liu, and J.S. Wang,Atomistic and continuum simulation on extension behaviour of single crystal with nano-holes.Modelling and Simulation in Materials Science and Engineering, 2004.12(2): p. 225-233.
1.Wang, Y.*, X.G. Ni, X.X. Wang, and H.A. Wu,Effect of temperature on deformation of carbon nanotube under compression.Chinese Physics, 2003.12(9): p. 1007-1010.