Hanqing Jiang is a professor of aerospace and mechanical engineering in the School for Engineering of Matter, Transport and Energy in Ira A. Fultons School of Engineering at Arizona State University. He received a doctorate from Tsinghua University in 2001. Jiang has a diverse portfolio of mechanical-engineering centered interdisciplinary research: mechanics of energy storage, data-driven mechanics, mechanical metamaterials, origami/kirigami for robotics, soft electronics, soft materials, and biomedical devices. Jiang has published over 130 peer-reviewed articles in many high-profile journals, such as Science, Nature Energy, Nature Nanotechnology, PNAS, Advanced Materials, Nano Letters, etc. These papers have received more than 15,000 Google Scholar citations and an h-index of 59.
• Stretchable and flexible structures for electronics, photovoltaic and MEMS/NEMS devices
• Mechanical-electrical coupling of carbon nanotubes (transport properties of carbon nanotubes)
• Soft materials (e.g., gels)
• Nanomechanics; Nanocomposites; Multiscale modeling of carbon nanotubes
• Microscale constitutive models of metallic materials; Strain gradient plasticity
• Composite materials; Laminate materials
• Stress analysis of micro-electronic packages
135. C. J. Li, Z. L. Huang, Y. Wang✉, and H. Jiang, 2020, Rapid identification of switched systems: A data-driven method in variational framework, Science China Technological Sciences, 1-9.
134. L. Wu*, Y. Wang, K. Chuang, F. Wu, Q. Wang, W. Lin, H. Jiang✉, 2020, A brief review of dynamic mechanical metamaterials for mechanical energy manipulation, Materials Today, doi.org/10.1016/j.mattod.2020.10.006.
133. Z. Zhai*, Y. Wang, K. Lin, L. Wu, H. Jiang✉, 2020, In Situ Stiffness Manipulation Using Elegant Curved Origami, Science Advances, 6, doi.org/10.1126/sciadv.abe2000. Associated Press, Science Daily, Yahoo News, top 5% of all research outputs scored by Altmetric.
132. X. Cao*, Y. Lu*, H. Jiang, and F. Wang✉, 2020, Phase-field modeling of chemo-mechanical relaxation effect on the fracture tolerance of a tin-based electrode, Mechanics of Materials, doi.org/10.1016/j.mechmat.2020.103502.
131. Y. Wu✉, D. Ye, Y. Shan, S. He, Z. Su, J. Liang, J. Zheng, Z. Yang, H. Yang, W. Xu, and H. Jiang✉, 2020, Edible and Nutritive Electronics: Materials, Fabrications, Components and Applications, Advanced Materials Technologies, doi.org/10.1002/admt.202000100.
130. Y. Tian*, Y. Wang*✉, H. Jiang, Z. Huang, I. Elishakoff, G. Cai, 2020, Stationary response probability density of nonlinear random vibrating systems: a data-driven method, Nonlinear Dynamics, doi.org/10.1007/s11071-020-05632-4.
129. L. Wu*, Y. Wang, Z. Zhai, Y. Yang, D. Krishnaraju, J. Lu, F. Wu, Q. Wang✉, H. Jiang✉, 2020, Mechanical Metamaterials for Full-Band Mechanical Wave Shielding, Applied Materials Today, 20,100671.
128. L. Wu*, L. Liu, Y. Wang✉, Z. Zhai, H. Zhuang, D. Krishnaraju, Q. Wang, H. Jiang✉, 2020, A machine learning-based method to design modular metamaterials, Extreme Mechanics Letters, 36, 100657.
127. Z. Huang, Y. Tian, C. Li, G. Lin, L. Wu, Y. Wang*✉, H. Jiang✉, 2020, Data-Driven Automated Discovery of Variational Laws Hidden in Physical Systems, Journal of the Mechanics and Physics of Solids, 137, 103871.
126. Z. Yang*, Z. Zhai*, Z. Song, Y. Wu✉, J. Liang, Y. Shan, J. Zheng, H. Jiang✉, 2020, Conductive and Elastic 3D Helical Fibers for use in Washable and Wearable Electronics, Advanced Materials, doi.org/10.1002/adma.201907495.
125. B. Liu*, Y. Jia, J. Li, H. Jiang, S. Yin, J. Xu✉, 2020, Multiphysics coupled computational model for commercialized Si/graphite composite anode, Journal of Power Sources, doi.org/10.1016/j.jpowsour.2019.227667.
124. D. Wu*, J. Song*, Z. Zhai*, M. Hua, C. Kim, I. Frenkel, H. Jiang, X. He✉, 2019, Visualizing morphogenesis through instability formation in 4-D printing, ACS Applied Materials & Interfaces, 11(50):47468-47475. doi: 10.1021/acsami.9b19730.
123. X. Qian*, Y. Zhao*, Y. Alsaid*, X. Wang*, M. Hua, T. Galy, H. Gopalakrishna, Y. Yang, J. Cui, N. Liu, M. Marszewski, L. Pilon, H. Jiang, X. He✉, 2019, Artificial phototropism for omnidirectional tracking and harvesting of light, Nature Nanotechnology, 14, 1048-1055.
122. B. Liu*, X. Wang, H.-S. Chen, S. Chen, H. Yang, J. Xu✉, H. Jiang✉, and D.-N. Fang, 2019, A Simultaneous Multiscale and Multiphysics Model and Numerical Implementation of A Core-Shell Model for Lithium-Ion Full-Cell Batteries, Journal of Applied Mechanics, 86, 041005.
121. L. Yang, H.-S. Chen*✉, H. Jiang, W.-L. Song✉, F.-N. Fang, 2019, Lithium Redistribution Around the Crack Tip of Lithium-Ion Battery Electrodes, Scripta Materialia, 167, 11-15.
120. Z. Chen*, T. Wu, G. Nian, Y. Shan, X. Liang, H. Jiang✉, S. Qu✉, 2019, Ron Resch Origami Pattern Inspired Energy Absorption Structures, Journal of Applied Mechanics, 86, 011005.
119. X. Wang*✉, H. Jiang, 2018, Design of Origami Fin for Heat Dissipation Enhancement, Applied Thermal Engineering, 145, 674-684.
118. X. Wang*, Z. Zhai*, Y. Chen, and H. Jiang✉, 2018, A Robust and Versatile Finite Element Implementation to Study the Time-Dependent Behaviors of Responsive Gels, Extreme Mechanics Letters, 22, 89-97.
117. N. Li*, Y. Xin, H. Chen✉, S. Jiao, H. Jiang, W.-L. Song✉, D.-N. Fang, 2018, Thickness evolution of graphite-based cathodes in the dual ion batteries via in operando optical observation, Journal of Energy Chemistry, DOI: 10.1016/j.jechem.2018.03.003.
116. L. Yang*, H.-S. Chen✉, H. Jiang, Y.-J. Wei, W.-L. Song✉, and D.-N. Fang, 2018, Failure mechanisms of 2D silicon film anodes: in situ observations and simulations on crack evolution, Chemical Communications, 54, 3997-4000.
115. X. Wang*, W. Zeng*, L. Hong, W. Xu, H. Yang, H. Duan✉, M. Tang✉, and H. Jiang✉, 2018, Stress-driven lithium dendrite growth mechanism and dendrite mitigation by electroplating on soft substrates, Nature Energy, 3, 227-235. Reported by Lithium News, Design News, Futurity, American Ceramic Society, The Engineer, Engineering 360, etc. SCI Highly Cited Paper
114. Z. Zhai*, Y. Wang, and H. Jiang✉, 2018, Origami-inspired, on-demand deployable and collapsible mechanical metamaterials with tunable stiffness, Proceedings of the National Academy of Sciences of the United States of America, 115 (9) 2032-2037.
113. Y. Xu*, O. Ghag, M. Reimann, P. Sitterle, P. Chatterjee, E. Nofen, H. Yu, H. Jiang, and L. L. Dai✉, 2018, Development of visible-light responsive and mechanically enhanced “smart” UCST interpenetrating network hydrogels, Soft Matters, 14, 151-160.
112. K. Yuriar-Arredondo*, M. R. Armstrong, B. Shan, W. Zeng, W. Xu, H. Jiang, B. Mu✉, 2018, Nanofiber-based Matrimid organogel membranes for battery separator, Journal of Membrane Science, 546, 158-164.
111. X. Wang*, S. S. Singh*, T. Ma, C. Lv, N. C. Chawla, H. Jiang✉, 2017, Quantifying Electrochemical Reactions and Properties of Amorphous Silicon in a Conventional Lithium-Ion Battery Configuration, Chemistry of Materials, 29, 5831-5840, DOI: 10.1021/acs.chemmater.7b00701.
110. W. Xu*, H. Yang*, W. Zeng*, T. Houghton, X. Wang, R. Murthy, H. Kim, Y. Lin, M. Mignolet, H. Duan, H. Yu, M. Slepian, and H. Jiang✉, 2017, Food-Based Edible and Nutritive Electronics, Advanced Materials Technologies, 1700181, DOI: 10.1002/admt.201700181
109. T.-G. Yoon*, H. Jiang✉, and D.-Y. Khang✉, 2017, Experimental investigation on the mechanical buckling of one-dimensional Si nanoribbons with a thickness contrast, Thin Solid Films, 10.1016/j.tsf.2017.08.042.
108. P. Chatterjee, E.M. Nofen, W. Xu, C. Hom, H. Jiang, L. L. Dai✉, 2017, Pyrrole-based poly(ionic liquids) as efficient stabilizers for formation of hollow multi-walled carbon nanotubes particles, Journal of Colloid and Interface Science, 504, 140-148.
107. Z. Song*, C. Lv*, M. Liang, V. Sanphuang, K. Wu, B. Chen, Z. Zhao, J. Bai, X. Wang, J. L. Volakis, L. Wang, X. He, Y. Yao, S. Tongay, and H. Jiang✉, 2016, Microscale Silicon Origami, Small, DOI: 10.1002/smll.201601947.
106. X. Wang*, W. Xu*, P. Chatterjee*, C. Lv, J. Popovich, Z. Song, L. Dai, M. Y. S. Kalani, S. E. Haydel, and H. Jiang✉, 2016, Food Materials Based Edible Supercapacitors, Advanced Materials Technologies, DOI: 10.1002/admt.201600059. Reported by Smithsonian Magazine, Materials View, Discover Magazine, Tech Insider, Medical Design Briefs, AZ PBS, etc.
105. J. Ye*, Y. An*, E. Montalvo, P. G. Campbell, M. A. Worsley, I. C. Tran, Y. Liu, B. C. Wood, J. Biener, H. Jiang, M. Tang, Y. M. Wang✉, 2016, Solvent-directed sol-gel assembly of 3-dimensional graphene-tented metal oxides and strong synergistic disparities in lithium storage, Journal of Materials Chemistry A, 4, 4032-4043.
104. A. Mamidanna*, Z. Song*, C. Lv, C. S. Lefky, H. Jiang, and O. J. Hildreth✉, 2016, Printing Stretchable Spiral Interconnects Using Reactive Ink Chemistries, ACS Applied Materials & Interfaces, DOI: 10.1021/acsami.6b03922.
103. A. Mamidanna, Z. Song, C. Lv, C. S. Lefky, H. Jiang, and O. Hildreth✉, 2016, Inkjet Printed Spiral Stretchable Electronics Using Reactive Ink Chemistries, MRS Advances, 1, 3465-3470.
102. P. Chatterjee*, A. Dai, H. Yu, H. Jiang, L. L. Dai✉, 2015, Thermal and mechanical properties of poly(N-isopropylacrylamide)-based hydrogels as a function of porosity and medium change, Journal of Applied Polymer Science, 132, DOI: 10.1002/app.42776
101. Z. Song*, X. Wang*, C. Lv, Y. An, M. Liang, T. Ma, D. He, Y.-J. Zheng, S.-Q. Huang, H. Yu, and H. Jiang✉, 2015, Kirigami-based Stretchable Lithium-Ion Batteries, Scientific Reports, DOI: 10.1038/srep10988. Reported by The Times, CBS News, MIT Tech Review, Daily Mail, Discovery News, Popular Science, Yahoo News, Popular Mechanics, Christian Science Monitor, etc.
100. Y. An*, B. C. Wood, J. Ye, Y.-M. Chiang, Y. M. Wang, M. Tang✉, and H. Jiang✉, 2015, Mitigating Mechanical Failure of Crystalline Silicon Electrodes for Lithium Batteries by Morphological Design, Physical Chemistry Chemical Physics, DOI: 10.1039/c5cp01385b.
99. H. Gao*, R. Tang, T. Ma, H. Jiang, H. Yu, G. J. Cheng✉, 2015, Laser Shock Induced Conformal Transferring of Functional Devices on 3D Stretchable Substrates, Journal of Microelectromechanical Systems, 24, 414-421.
98. J. C. Ye*, Y. H. An*, T. W. Heo, M. M. Biener, R. J. Nikolic, M. Tang, H. Jiang, Y. M. Wang✉, 2014, Enhanced Lithiation and Fracture Behavior of Silicon Mesoscale Pillars via Atomic Layer Coatings and Geometry Design, Journal of Power Sources, 248, 447-456.
97. R. Tang*, H. Huang, H. Tu, H. Liang, M. Liang, Z. Song, Y. Xu, H. Jiang✉, and H. Yu✉, 2014, Origami-enabled Deformable Silicon Solar Cells, Applied Physics Letters, 104, 083501.
96. Z. Song*, T. Ma*, R. Tang, Q. Cheng, X. Wang, D. Krishnaraju, R. Panat, C. K. Chan, H. Yu, and H. Jiang✉, 2014, Origami Lithium-ion Batteries, Nature Communications, 5:3140 doi: 10.1038/ncomms4140. Reported by Extreme Tech, NanoWerk, and Futura-Sciences. SCI Highly Cited Paper.
95. C. Lv*, D. Krishnaraju*, G. Konjevod, H. Yu, and H. Jiang✉, 2014, Origami based Mechanical Metamaterials, Scientific Reports, 4:5979 doi: 10.1038/srep05979.
94. C. Lv*, H. Yu, and H. Jiang✉, 2014, Archimedean Spiral Design for Extremely Stretchable Interconnects, Extreme Mechanics Letters, 1, 29-34.
93. Z. Duan*, J. Zhang*, Y. An*, and H. Jiang✉, 2013, Simulation of the Transient Behavior of Gels Based on an Analogy between Diffusion and Heat Transfer, Journal of Applied Mechanics, 80, 041017.
92. C. Yu*, Z. Duan*, P. Yuan, Y. Li, Y. Su, X. Zhang, Y. Pan, L. L. Dai, R. G. Nuzzo, Y. Huang, H. Jiang✉, J. A. Rogers✉, 2013, Electronically Programmable, Reversible Shape Change in Two and Three Dimensional Hydrogel Structures, Advanced Materials, 25, 1541-1546.
91. E. Kim*, H. Tu, C. Lv, H. Jiang, H. Yu, and Y. Xu✉, 2013, A Robust Polymer Microcable Structure for Flexible Devices, Applied Physics Letters, 102, 033506.
90. Y. Wang*, T. Ma, H. Yu, and H. Jiang✉, 2013, Random Analysis on Controlled Buckling Structure for Energy Harvesting, Applied Physics Letters, 102, 041915.
89. H. Gao*, R. Tang, T. Ma, H. Jiang, H. Yu, and G. Cheng✉, 2013, Direct Integration of Functional Structures on 3D microscale surfaces by Laser Dynamic Forming, Journal of Microelectromechanical Systems, 22, 1428-1437.
88. P. Chatterjee*, Y. Pan, E. C. Stevens, T. Ma, H. Jiang, and L. L. Dai✉, 2013, Controlled Morphology of Thin Film Silicon Integrated With Environmentally Responsive Hydrogels, Langmuir, 29, 6495-6501.
87. T. Ma*, H. Liang*, G. Chen, B. Poon, H. Jiang, and H. Yu✉, 2013, Micro-Strain Sensing Using Wrinkled Stiff Thin Films on Soft Substrates as Tunable Optical Grating, Optics Express, 21, 11994-12001.
86. T. Ma*, Y. Wang, R. Tang, H. Yu, and H. Jiang✉, 2013, Pre-patterned ZnO Nanoribbons on Soft Substrates for Stretchable Energy Harvesting Applications, Journal of Applied Physics, 113, 204503.
85. Y. An*, H. Jiang✉, 2013, A Finite Element Simulation on Transient Large Deformation and Mass Diffusion in Electrodes for Lithium Ion Batteries, Modelling and Simulation in Materials Science and Engineering, 21, 074007.
84. Q. Cheng*, Z. Song*, T. Ma*, B. B. Smith, R. Tang, H. Yu, H. Jiang, C. K. Chan✉, 2013, Folding Paper-Based Lithium-Ion Batteries for Higher Areal Energy Densities, Nano Letters, 13, 4969-4974.
83. H. Tu*, H. Jiang, H. Yu, and Y. Xu✉, 2013, Hybrid Silicon-Polymer Platform for Self-Locking and Self-Deploying Origami, Applied Physics Letters, 103, 241902.
82. C. Yu*, X. Li, T. Ma, J. Rong, R. Zhang, J. Shaffer, Y. An, Q. Liu, B. Q. Wei✉, and H. Jiang✉, 2012, Silicon Thin Films As Anodes For High Performance Lithium Ion Batteries With Effective Stress Relaxation, Advanced Energy Materials, 2, 68-73.
81. H. Fei*, K. Yazzie, N. Chawla, and H. Jiang✉, 2012, The Effect of Random Voids in the Modified Gurson Model, Journal of Electronic Materials, 41, 177-183.
80. J. Li*, Y. An, R. Huang, H. Jiang and T. Xie✉, 2012, Unique Aspects of A Shape Memory Polymer as the Substrate for Surface Wrinkling, ACS Applied Materials & Interfaces, 4, 598-603.
79. H. Fei*, A. Abraham, N. Chawla, and H. Jiang✉, 2012, Evaluation of Micro-Pillar Compression Tests for Accurate Determination of Elastic-Plastic Constitutive Relations, Journal of Applied Mechanics, 79, 061011.
78. H. Fei*, K. Yazzie, N. Chawla, and H. Jiang✉, 2012, Modeling Fracture of Sn-Rich (Pb-Free) Solder Joints under Mechanical Shock Conditions, Journal of Electronic Materials, 41, 2089-2099.
77. K. Yazzie*, H. Fei, H. Jiang, and N. Chawla✉, 2012, Rate-Dependent Behavior of Sn Alloy-Cu Couples: Effects of Microstructure and Composition on Mechanical Shock Resistance, Acta Materialia, 60, 4336-4348.
76. J. Zhang*, Y. An, K. Yazzie, N. Chawla, and H. Jiang✉, 2012, Finite Element Simulation of Swelling-Induced Crack Healing in Gels, Soft Matter, 8, 8107-8112.
75. H. Lee*, J. Zhang*, H. Jiang, and N. Fang✉, 2012, Prescribed Pattern Transformation in Swelling Gel Tubes by Elastic Instability, Physical Review Letters, 108, 214304.
74. K. Chen*, E. Azhar, T. Ma, H. Jiang, and H. Yu✉, 2012, Facile Large-Area Photolithography of Periodic Sub-Micron Structures Using a Self-Formed Polymer Mask, Applied Physics Letters, 100, 233503.
73. K.E. Yazzie*, H. Fei, H. Jiang, and N. Chawla✉, 2012, A Self-Consistent Approach for Necking Correction in Tensile Specimens With Rectangular Cross-section Using a Novel Mirror Fixture, Metallurgical and Materials Transactions A, 43A, 5058-5066.
72. Z. Duan*, Y. An, J. Zhang, and H. Jiang✉, 2012, The Effect of Large Deformation and Material Nonlinearity on Gel Indentation, Acta Mechanica Sinica, 28, 1058-1067.
71. H. Y. Lv*, H. Jiang✉, H. J. Liu✉, and J. Shi, 2012, Boundary Effect on the Plasticity and Stress of Lithiated Silicon: First-Principles Calculations, Journal of Applied Physics, 112, 103509.
70. L. Jiang, H. Jiang, and N. Chawla✉, 2012, The Effect of Crystallographic Orientation on the Mechanical Behavior of Cu6Sn5 by Micropillar Compression Testing, Journal of Electronic Materials, 41, 2083-2088.
69. S. Qu*✉, K. Li, H. Jiang, M. Wang, and Z. Li, 2012, Rate Dependent Stress-Stretch Relation of Dielectric Elastomers Subject to Pure Shear Like Loading and Electric Field, Acta Mechanica Solida Sinica, 25, 542-549.
68. R. Zhang*, H. Jiang✉, 2011, Molecular Dynamic Simulations of Forming Graphene Nanoribbons from Single-Wall Carbon Nanotubes, Journal of Computational and Theoretical Nanoscience, 8, 717-721.
67. H. Fei*, K. E. Yazzie, J. J. Williams, N. Chawla, and H. Jiang✉, 2011, Multiscale Modeling of the Interfacial Fracture Behavior in the Sn-Cu6Sn5-Cu System, Journal of Computational and Theoretical Nanoscience, 8, 873-880.
66. C. Yu*, Y. Pan, H. Ma, T. Ma, J. Zhang, Y. Song, M. Y. S. Kalani, L. Dai, and H. Jiang✉, 2011, Thermoresponsiveness of Integrated Ultra-thin Silicon with Poly(N-isopropylacrylamide) Hydrogels, Macromolecular Rapid Communications, 32, 820-824.
65. J. Li, R. Zhang*, H. Jiang, and G. J. Cheng✉, 2011, Scalable Nano-Patterning of Graphenes Using Laser Shock, Nanotechnology, 22, 475303.
64. Y. An*, X. Li, Q. Wei, and H. Jiang✉, 2011, A Statistical Mechanics Model of Carbon Nanotube Macro-films, Theoretical and Applied Mechanics Letters, 1, 041003.
63. C. Yu*, K. O’Brien, Y. H. Zhang, H. Yu, and H. Jiang✉, 2010, Tunable Optical Gratings Based on Buckled Nano-Scale Thin Films on Transparent Elastomeric Substrates, Applied Physics Letters, 96, 041111.
62. C. Yu* and H. Jiang✉, 2010, Forming Wrinkled Stiff Films on Polymeric Substrates at Room Temperature for Stretchable Interconnects Applications, Thin Solid Films, 519, 818-822.
61. Y. An*, F. J. Solis, H. Jiang✉, 2010, A Thermodynamic Model of Physical Gels, Journal of the Mechanics and Physics of Solids, 58, 2083-2099.
60. K. E. Yazzie, J. J. Williams, D. Kingsbury, P. Peralta, H. Jiang, and N. Chawla✉, 2010, Analysis of the Deformation Behavior of Pb-free Solders at Intermediate Strain Rates by Digital Image Correlation (DIC), Journal of the Minerals, Metals, and Materials Society, 62, 18-23.
59. C. Yu*, C. Masarapu, J. P. Rong, B. Q. Wei✉, H. Jiang✉, 2009, Stretchable supercapacitors based on Buckled Single-Walled Carbon Nanotube Macro-Films, Advanced Materials, 21, 4793-4797. Initiated the area of stretchable supercapacitors and has been cited by more than 500 times. SCI Highly Cited Paper
58. C. Yu*, Z. Wang, H. Yu✉, H. Jiang✉, 2009, A Stretchable Temperature Sensor Based on Elastically Buckled Thin Film Devices on Elastomeric Substrates, Applied Physics Letters, 95 141912.
57. C. Yu*, H. Gao, H. Yu, H. Jiang, G. Cheng✉, 2009, Laser Dynamic Forming of Functional Materials Laminated Composites on Patterned Three-Dimensional Surfaces with Applications on Flexible Microelectromechanical Systems, Applied Physics Letters, 95, 091108.
56. H. Fei*, H. Jiang✉, and D.-Y. Khang✉, 2009, Nonsinusoidal buckling of thin gold films on elastomeric substrates, Journal of Vacuum Science and Technology A, 27, L9-L12.
55. J. Zhang*, X. Zhao, Z. Suo, H. Jiang✉*, 2009, A Finite Element Method for Transient Analysis of Concurrent Large Deformation and Mass Transport in Gels, Journal of Applied Physics, 105, 093522.
54. L. He*, J.-Q. Lu, H. Jiang✉, 2009, Controlled Carbon Nanotube Junctions Self-assembled from Graphene Nanoribbons, Small, 5, 2802-2806 (inside cover).
53. K. E. Yazzie*, H. Fei*, J. J. Williams, H. Jiang, and N. Chawla✉, 2009, Mechanical Shock Behavior of Bulk Pure Sn Solder, Journal of Electronic Materials, 28, 2746-2755.
52. X.-P. Zheng*, Y.-P. Cao✉, B. Li, X.-Q. Feng✉, H. Jiang and Y. Huang, 2009, Determining the elastic modulus of thin films using a buckling-based method: computational study, Journal of Physics D: Applied Physics, 42, 175506.
51. J. Song✉*, H. Jiang, Y. Huang, and J. A. Rogers✉, 2009. Mechanics of Stretchable Inorganic Electronic Materials, Journal of Vacuum Science and Technology A 27, 1107-1125.
50. H. Jiang✉*, D.-Y. Khang*, H. Fei, H. Kim, Y. Huang, J. Xiao, and J. A. Rogers✉, 2008, Finite Width Effect of Thin-Films Buckling on Compliant Substrate: Experimental and Theoretical Studies, Journal of the Mechanics and Physics of Solids, 56, 2585-2598.
49. H. Jiang✉*, J. Zhang*, Mechanics of Microtubule Buckling Supported by Cytoplasm, 2008, Journal of Applied Mechanics, 75, 061019.
48. H. Jiang✉*, Y. Sun, J. A. Rogers, and Y. Huang, 2008, Post-buckling Analysis for the Precisely Controlled Buckling of Thin Film Encapsulated by Elastomeric Substrates, International Journal of Solids and Structures, 45, 2014-2023.
47. H. Jiang✉*, J.-Q. Lu, M.-F. Yu, and Y. Huang, 2008, Carbon Nanotube Transmission between Linear and Rotational Motions, CMES: Computer Modeling in Engineering & Sciences, 24, 95-102.
46. H. Jiang✉*, L.Y. Jiang, J.D. Posner, B.D. Vogt, 2008, Atomistic-based Continuum Constitutive Relation for Microtubules: Elastic Modulus Prediction, Computational Mechanics, 42, 607-618.
45. J. Song*, H. Jiang*, Z. J. Liu, D. Y. Khang, Y. Huang✉, J. A. Rogers, C. Lu, and C. G. Koh, 2008, Buckling of a Stiff Thin Film on a Compliant Substrate in Large Deformation, International Journal of Solids and Structures, 45, 3107-3121.
44. J. Song*, H. Jiang*, W. M. Choi, D.-Y. Khang, Y. Huang✉, and J. A. Rogers, 2008, An Analytical Study of Two-Dimensional Buckling of Thin Films on Compliant Substrates, Journal of Applied Physics, 103, 014303.
43. D.-Y. Khang*, J. Xiao, C. Kocabas, S. MacLaren, T. Banks, H. Jiang, Y. Huang, and J. A. Rogers✉, 2008, Molecular Scale Buckling Mechanics on Individual Aligned Single-Wall Carbon Nanotubes on Elastomeric Substrates, Nano Letters, 8, 124-130.
42. Y. L. Chen*, B. Liu✉*, J. Wu, Y. Huang✉, H. Jiang, and K. C. Hwang, 2008, Mechanics of Hydrogen Storage in Carbon Nanotubes, Journal of the Mechanics and Physics of Solids, 56, 3224-3241.
41. Z. Q. Zhang*, B. Liu, Y. L. Chen, H. Jiang, K. C. Hwang, Y. Huang✉, 2008, Mechanical Properties of Functionalized Carbon Nanotubes, Nanotechnology, 19, 395702.
40. J. Xiao*, A. Carlson, Z. J. Liu, Y. Huang✉, H. Jiang, and J. A. Rogers✉, 2008, Stretchable and Compressible Thin Films of Stiff Materials on Compliant Wavy Substrates, Applied Physics Letters, 93, 013109.
39. X. Guo*, A.Y.T. Leung✉, X.Q. He, H. Jiang*, and Y. Huang, 2008, Bending Buckling of Single-Walled Carbon Nanotubes by Atomic-Scale Finite Element, Composites Part B: Engineering, 39, 202-208.
38. J. Song*, J. Wu, Y. Huang✉, K.C. Hwang, and H. Jiang*, 2008, Stiffness and Thickness of Boron-Nitride Nanotubes, Journal of Nanoscience and Nanotechnology, 8, 3774-3780.
37. X. Feng✉*, H. Jiang✉*, Y. Huang, B. Liu, and J.-S. Chen, 2008, Modeling Fracture in Carbon Nanotubes Using A Meshless Atomic-scale Finite-Element Method, JOM, 60, 50-55.
36. J. Q. Lu✉, H. Jiang✉*, 2008, Theoretical Modeling on Mechanical-Electrical Coupling of Carbon Nanotubes, 2008, Journal of Computational and Theoretical Nanoscience, 5, 449-463 (review article).
35. T.-H. Kim*, W. M. Choi, D. H. Kim, M. A. Meitl, E. Menard, H. Jiang, J. A. Carlisle, and J. A. Rogers✉, 2008, Printable, Flexible and Stretchable Forms of Ultrananocrystalline Diamond with Applications in Thermal Management, Advanced Materials, 20, 2171.
34. J. Xiao*, H. Jiang*, D.-Y. Khang, J. Wu, Y. Huang✉, and J.A. Rogers✉, 2008, Mechanics of Buckled Carbon Nanotubes on Elastomeric Substrates, Journal of Applied Physics, 104, 033543.
33. H. Jiang*, D.-Y. Khang*, J. Song*, Y. Sun, Y. Huang✉, and J. A. Rogers✉, 2007, Finite Deformation Mechanics in Buckled Thin Films on Compliant Supports, Proceedings of the National Academy of Sciences of the United States of America, 104, 15607-15612. SCI Highly Cited Paper
32. H. Jiang✉*, Y. Sun, J. A. Rogers✉, and Y. Huang, 2007, Mechanics of Precisely Controlled Thin Film Buckling on Elastomeric Substrate, Applied Physics Letters, 90, 133119.
31. H. Jiang✉*, K.C. Hwang✉, Y. Huang✉, 2007, Mechanics of Carbon Nanotubes: A Continuum Theory Based on Interatomic Potentials, Key Engineering Materials, 340-341, 11-20 (review article).
30. J. Song*, H. Jiang*, J. Wu J, Y. Huang✉, and K. C. Hwang, 2007, Stone-Wales Transformation in Boron Nitride Nanotubes, Scripta Materialia, 4, 571-574.
29. H. Jiang✉*, M.-F. Yu, J.-Q. Lu, Y. Huang✉, H.T. Johnson, X.-G. Zhang, and P. Ferreira, 2007, Carbon Nanotube Electronic Displacement Encoder with Sub-Nanometer Resolution, Journal of Computational and Theoretical Nanoscience, 4, 574-577. (cover)
28. W.M. Choi*, J. Song, D.-Y. Khang, H. Jiang, Y. Huang, and J. A. Rogers✉, 2007, Biaxially Stretchable “Wavy” Silicon Nanomembranes, Nano Letters, 7, 1655-1663.
27. X. Guo*, A.Y.T. Leung✉, H. Jiang, X.Q. He, Y. Huang, 2007, Critical Strain of Carbon Nanotubes: An Atomic-Scale Finite Element Study, Journal of Applied Mechanics, 74, 347-351.
26. X. Feng*, Y. Huang✉, H. Jiang, D. Ngo, and A.J. Rosakis, 2006, The Effect of Thin Film/Substrate Radii on the Stoney Formula for Thin/Substrate Subjected to Non-Uniform Axisymmetric Misfit Strain and Temperature, Journal of Mechanics of Materials and Structures, 1, 1041-1054.
25. J. Song*, H. Jiang*, D.-L. Shi, X.-Q. Feng, Y. Huang✉, M.-F. Yu, and K. C. Hwang, 2006, Stone-Wales Transformation: Precursor of Fracture in Carbon Nanotubes, International Journal of Mechanical Sciences, 48, 1464-1470.
24. J. Song*, Y. Huang✉, H. Jiang*, K. C. Hwang, and M.-F. Yu, 2006, Deformation and Bifurcation Analysis of Boron-Nitride Nanotubes, International Journal of Mechanical Sciences, 48, 1197-1207.
23. L.Y. Jiang*, Y. Huang✉, H. Jiang*, G. Ravichandran, H. Gao, K.C. Hwang, and B. Liu, 2006, A Cohesive Law for Carbon Nanotube/Polymer Interfaces Based on the van der Waals Force, Journal of the Mechanics and Physics of Solids, 54, 2436-2452. SCI Highly Cited Paper
22. D.-Y. Khang*, H. Jiang*, Y. Huang, and J. A. Rogers✉, 2006, A Stretchable Form of Single Crystal Silicon for High-Performance Electronics on Rubber Substrates, Science, 311, 208-212. SCI Highly Cited Paper.
21. Y. Sun*, W.-M. Choi, H. Jiang, Y. Huang, and J. A. Rogers✉, 2006, Controlled Buckling of Semiconductor Nanoribbons for Stretchable Electronics, Nature Nanotechnology, 1, 201-207. SCI Highly Cited Paper.
20. A.Y.T. Leung✉, X. Guo*, X.Q. He, H. Jiang, Y. Huang, 2006, Postbuckling of Carbon Nanotubes by Atomic-Scale Finite Element, Journal of Applied Physics, 99, 124308.
19. D.-L. Shi*, X.-Q. Feng✉, H. Jiang, Y. Huang, and K.C. Hwang, 2005, Multiscale Analysis of Fracture of Carbon Nanotubes Embedded in Composites, International Journal of Fracture, 134, 369-386.
18. H. Jiang*, Y. Huang✉, and K.C. Hwang, 2005, A Finite-Temperature Continuum Theory based on Interatomic Potential, Journal of Engineering Materials and Technology, 127, 408-416.
17. B. Liu*, H. Jiang*, Y. Huang✉, S. Qu, M.-F. Yu, and K.C. Hwang, 2005, Atomic-Scale Finite Element Method in Multiscale Computation with Applications to Carbon Nanotubes, Physical Review B, 72, article 035435.
16. H. Jiang*, M.-F. Yu✉, B. Liu, and Y. Huang✉, 2004, Intrinsic Energy Loss Mechanisms in a Cantilevered Carbon Nanotube Beam Oscillator, Physical Review Letters, 93, article 185501.
15. K. C. Hwang, Y. Guo*, H. Jiang*, Y. Huang✉, and Z. Zhuang, 2004, The Finite Deformation Theory of Taylor-based Nonlocal Plasticity, International Journal of Plasticity, 20, 831-839.
14. B. Liu*, H. Jiang*, H. T. Johnson✉, and Y. Huang✉, 2004, The Influence of Mechanical Deformation on the Electrical Properties of Single Wall Carbon Nanotubes, Journal of the Mechanics and Physics of Solids, 52, 1-26.
13. H. Jiang*, B. Liu, Y. Huang✉, and K. C. Hwang, 2004, Thermal Expansion of Single Wall Carbon Nanotubes, Journal of Engineering Materials and Technology, 126, 265-270.
12. H. Jiang*, Y. Huang✉, and C. Liu, 2004, Fracture Analysis of Facesheets in Sandwich Composites, Composites Part B: Engineering, 35, 551-556.
11. H. Jiang*, X.-Q. Feng, Y. Huang✉, K. C. Hwang, and P. D. Wu, 2004, Defect Nucleation in Carbon Nanotubes Under Tension and Torsion: Stone-Wales Transformation, Computer Methods in Applied Mechanics and Engineering, 193, 3419-3429.
10. P. Zhang*, H. Jiang*, Y. Huang✉, P. H. Geubelle, and K. C. Hwang, 2004, An Atomistic-based Continuum Theory for Carbon Nanotubes: Analysis of Fracture Nucleation, Journal of the Mechanics and Physics of Solids, 52, 977-998.
9. S. Qu*, Y. Huang✉, W. D. Nix, H. Jiang, F. Zhang, and K. C. Hwang, 2004, The Indenter Tip Radius Effect on the Nix-Gao Relation in Micro- and Nanoindentation Hardness Experiments, Journal of Materials Research, 19, 3423-3434.
8. S. Qu*, Y. Huang✉, H. Jiang, C. Liu, P. D. Wu, and K. C. Hwang, 2004, Fracture Analysis in the Conventional Theory of Mechanism-based Strain Gradient (CMSG) Plasticity, International Journal of Fracture, 129, 199–220.
7. B. Liu*, Y. Huang✉, H. Jiang*, S. Qu, and K. C. Hwang, 2004, The Atomic-Scale Finite Element Method, Computer Methods in Applied Mechanics and Engineering, 193, 1849-1864.
6. K. C. Hwang, H. Jiang*, Y. Huang✉, and H. Gao, 2003, Finite Deformation Analysis of Mechanism-based Strain Gradient Plasticity: Torsion and Crack Tip Field, International Journal of Plasticity, 19, 235-251.
5. H. Jiang*, P. Zhang, B. Liu, Y. Huang✉, P. H. Geubelle, H. Gao, and K. C. Hwang, 2003, The Effect of Nanotubes Radius on the Constitutive Model for Carbon Nanotubes, Computational Materials Science, 28, 429-442.
4. K. C. Hwang, H. Jiang*, Y. Huang✉, H. Gao, and N. Hu, 2002, A Finite Deformation Theory of Strain Gradient Plasticity, Journal of the Mechanics and Physics of Solids, 50, 81-99.
3. H. Jiang*, Y. Huang✉, T. F. Guo, and K. C. Hwang, 2002, An Alternative Decomposition of the Strain Gradient Tensor, Journal of Applied Mechanics, 69, 139-141.
2. H. Jiang*, Y. Huang✉, Z. Zhuang, and K. C. Hwang, 2001, Fracture in Mechanism-based Strain Gradient Plasticity, Journal of the Mechanics and Physics of Solids, 49, 979-993.
1. M. Shi*, Y. Huang✉, H. Jiang, K. C. Hwang, and M. Li, 2001, The Boundary-layer Effect on the Crack Tip Field in Mechanism-based Strain Gradient Plasticity, International Journal of Fracture, 112, 23-41.
Spring 2021 | |
---|---|
Course Number | Course Title |
MAE 493 | Honors Thesis |
MAE 524 | Theory of Elasticity |
EEE 592 | Research |
MAE 595 | Continuing Registration |
MAE 792 | Research |
CHE 792 | Research |
MSE 792 | Research |
MAE 795 | Continuing Registration |
CHE 795 | Continuing Registration |
MSE 799 | Dissertation |
MAE 799 | Dissertation |
Fall 2020 | |
---|---|
Course Number | Course Title |
MAE 492 | Honors Directed Study |
MAE 493 | Honors Thesis |
MAE 595 | Continuing Registration |
MAE 599 | Thesis |
MSE 792 | Research |
MAE 792 | Research |
CHE 792 | Research |
CHE 795 | Continuing Registration |
MAE 795 | Continuing Registration |
MSE 799 | Dissertation |
CHE 799 | Dissertation |
MAE 799 | Dissertation |
Summer 2020 | |
---|---|
Course Number | Course Title |
MAE 595 | Continuing Registration |
MAE 792 | Research |
CHE 792 | Research |
Spring 2020 | |
---|---|
Course Number | Course Title |
MAE 493 | Honors Thesis |
MAE 595 | Continuing Registration |
MSE 792 | Research |
CHE 792 | Research |
MAE 792 | Research |
CHE 795 | Continuing Registration |
MAE 795 | Continuing Registration |
MSE 799 | Dissertation |
MAE 799 | Dissertation |
Fall 2019 | |
---|---|
Course Number | Course Title |
MAE 492 | Honors Directed Study |
MAE 493 | Honors Thesis |
MAE 595 | Continuing Registration |
MAE 599 | Thesis |
MSE 792 | Research |
MAE 792 | Research |
CHE 792 | Research |
CHE 795 | Continuing Registration |
MSE 799 | Dissertation |
MAE 799 | Dissertation |
CHE 799 | Dissertation |
Summer 2019 | |
---|---|
Course Number | Course Title |
MAE 595 | Continuing Registration |
CHE 792 | Research |
MAE 792 | Research |
MAE 795 | Continuing Registration |
Spring 2019 | |
---|---|
Course Number | Course Title |
MAE 493 | Honors Thesis |
MAE 524 | Theory of Elasticity |
MAE 595 | Continuing Registration |
MAE 792 | Research |
CHE 792 | Research |
MSE 792 | Research |
MAE 795 | Continuing Registration |
CHE 795 | Continuing Registration |
MSE 799 | Dissertation |
MAE 799 | Dissertation |
Fall 2018 | |
---|---|
Course Number | Course Title |
ASU 101-MEE | The ASU Experience |
MAE 213 | Mechanics of Materials |
MEE 322 | Structural Mechanics |
MAE 493 | Honors Thesis |
MAE 595 | Continuing Registration |
MAE 599 | Thesis |
MSE 792 | Research |
CHE 792 | Research |
MAE 792 | Research |
CHE 795 | Continuing Registration |
MSE 799 | Dissertation |
CHE 799 | Dissertation |
MAE 799 | Dissertation |
Summer 2018 | |
---|---|
Course Number | Course Title |
MAE 595 | Continuing Registration |
CHE 792 | Research |
MAE 792 | Research |
MAE 795 | Continuing Registration |
Spring 2018 | |
---|---|
Course Number | Course Title |
ASU 101-MEE | The ASU Experience |
MEE 322 | Structural Mechanics |
MAE 595 | Continuing Registration |
MSE 792 | Research |
MAE 792 | Research |
CHE 792 | Research |
MAE 795 | Continuing Registration |
CHE 795 | Continuing Registration |
MSE 799 | Dissertation |
MAE 799 | Dissertation |
Fall 2017 | |
---|---|
Course Number | Course Title |
ASU 101-MEE | The ASU Experience |
MEE 322 | Structural Mechanics |
MAE 492 | Honors Directed Study |
MAE 493 | Honors Thesis |
MAE 595 | Continuing Registration |
MAE 599 | Thesis |
CHE 792 | Research |
MAE 792 | Research |
MSE 792 | Research |
MSE 799 | Dissertation |
MAE 799 | Dissertation |
CHE 799 | Dissertation |
Summer 2017 | |
---|---|
Course Number | Course Title |
MAE 595 | Continuing Registration |
CHE 792 | Research |
MAE 792 | Research |
MAE 795 | Continuing Registration |
Spring 2017 | |
---|---|
Course Number | Course Title |
MAE 492 | Honors Directed Study |
MAE 493 | Honors Thesis |
MAE 524 | Theory of Elasticity |
MAE 592 | Research |
MAE 595 | Continuing Registration |
MAE 599 | Thesis |
MSE 792 | Research |
MAE 792 | Research |
CHE 792 | Research |
MSE 799 | Dissertation |
MAE 799 | Dissertation |
Fall 2016 | |
---|---|
Course Number | Course Title |
ASU 101-MEE | The ASU Experience |
MEE 322 | Structural Mechanics |
MAE 492 | Honors Directed Study |
MAE 595 | Continuing Registration |
MAE 599 | Thesis |
MSE 792 | Research |
MAE 792 | Research |
CHE 792 | Research |
MSE 799 | Dissertation |
MAE 799 | Dissertation |
Summer 2016 | |
---|---|
Course Number | Course Title |
MAE 595 | Continuing Registration |
CHE 792 | Research |
MAE 792 | Research |
MAE 795 | Continuing Registration |
MAE 799 | Dissertation |