Jiang Group at Arizona State University
Publications

Stretchable electronics

  1. 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. [PDF]
  2. 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. [PDF]
  3. 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. [PDF]
  4. 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. [PDF]
  5. 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. [PDF]
  6. H. Fei, H. Jiang, and D.-Y. Khang, 2009, Non-sinusoidal buckling of thin gold films on elastomeric substrates, Journal of Vacuum Science and Technology A, 27, L9-L12. [PDF]
  7. 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. [PDF]
  8. 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. [PDF]
  9. 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. [PDF]
  10. 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. [PDF]
  11. 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. [PDF]
  12. 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. [PDF]
  13. 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. [PDF]
  14. 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. [PDF]
  15. 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. [PDF]
  16. 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. [PDF]

  1. 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. [PDF]
  2. 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. [PDF]
  3. 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. [PDF]

  1. 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. [PDF]
  2. 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. [PDF]

Soft matters

  1. 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. [PDF]

Nanomechanics and nanomaterials

  1. L. He, J.-Q. Lu, H. Jiang, 2009, Controlled Carbon Nanotube Junctions Self-assembled from Graphene Nanoribbons, Small, 5, 2802-2806 (inside cover). [PDF]

  1. 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. [PDF]
  2. 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. [PDF]
  3. 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.
  4. 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.
  5. 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).
  6. 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).
  7. J. Song J, H. Jiang, J. Wu J, Y. Huang, and K. C. Hwang, 2007, Stone-Wales transformation in boron nitride nanotubes, Scripta Materialia, 4, 571-574. [PDF]
  8. 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.

  1. 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. [PDF]
  2. 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.
  3. 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.
  4. 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. [PDF]
  5. 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. [PDF]
  6. 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. [PDF]
  7. 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. [PDF]
  8. 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. [PDF]
  9. 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. [PDF]
  10. 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. [PDF]
  11. 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. [PDF]
  12. 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. [PDF]
  13. 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. [PDF]
  14. 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. [PDF]
  15. 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. [PDF]

Strain Gradient Plasticity

  1. 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. [PDF]
  2. 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. [PDF]
  3. 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¨C220. [PDF]
  4. 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. [PDF]
  5. 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. [PDF]
  6. 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. [PDF]
  7. 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. [PDF]
  8. 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. [PDF]

Other areas

  1. 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. [PDF]
  2. H. Jiang, J. Zhang, Mechanics of Microtubules Buckling Supported by Cytoplasm, 2008, Journal of Applied Mechanics, 75, 061019. [PDF]
  3. 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. [PDF]
  4. 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. [PDF]
  5. H. Jiang, Y. Huang, and C. Liu, 2004, Fracture Analysis of Facesheets in Sandwich Composites, Composites Part B: Engineering, 35, 551-556. [PDF]