# Hanqing Jiang Journal Publications

**2014**

Ye, J., An, Y., Heo, T., Biener, M., Nikolic, R., Tang, M., Jiang, H. and Wang, Y., “Enhanced lithiation and fracture behavior of silicon mesoscale pillars via atomic layer coatings and geometry design,” *Journal of Power Sources*, 248, 447-456, 2014.

Tang, R., Huang, H., Tu, H., Liang, H., Liang, M., Song, Z., Xu, Y., Jiang, H. and Yu, H., “Origami-enabled Deformable Silicon Solar Cells,” *Applied Physics Letters*, Vol. 104, **8**, 083501, 2014.

Song, Z., Ma, T., Tang, R., Cheng, Q., Wang, X., Krishnaraju, D., Panat, R., Chan, C., Yu, H. and Jiang, H., “Origami Lithium-ion Batteries,” *Nature Communications*, 5:3140 doi: 10.1038/ncomms4140, 2014.

Huang Gao, Rui Tang, Teng Ma, Hanqing Jiang, Hongyu Yu, Gary J. Cheng, ”Laser shock induced conformal transferring of functional devices on 3D stretchable substrates,” *Journal of Microelectromechanical Systems*, in press, 2014.

Lv, D. Krishnaraju, G. Konjevod, H. Yu, and H. Jiang, “Origami based Mechanical Metamaterials,” *Scientific Reports*, 4:5979 doi: 10.1038/srep05979, 2014.

**2013**

Duan, J. Zhang, Y. An, and H. Jiang, “Simulation of the Transient Behavior of Gels Based on an Analogy Between Diffusion and Heat Transfer,” *Journal of Applied Mechanics*, 80, 041017, 2013.

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, “Electronically Programmable, Reversible Shape Change in Two and Three Dimensional Hydrogel Structures,” *Advanced Materials*, 25, 1541-1546, 2013.

Kim, H. Tu, C. Lv, H. Jiang, H. Yu, and Y. Xu, “A robust polymer microcable structure for flexible devices,” *Applied Physics Letters*, 102, 033506, 2013.

Wang, T. Ma, H. Yu, and H. Jiang, “Random Analysis on Controlled Buckling Structure for Energy Harvesting,” *Applied Physics Letters*, 102, 041915, 2013.

Gao, R. Tang, T. Ma, H. Jiang, H. Yu, and G. Cheng, “Direct Integration of Functional Structures on 3D microscale surfaces by Laser Dynamic Forming,” *Journal of Microelectromechanical Systems*, 22, 1428-1437, 2013.

Chatterjee, Y. Pan, E. C. Stevens, T. Ma, H. Jiang, and L. L. Dai, “Controlled Morphology of Thin Film Silicon Integrated With Environmentally Responsive Hydrogels,” *Langmuir*, 29, 6495-6501, 2013.

Ma, H. Liang, G. Chen, B. Poon, H. Jiang, and H. Yu, “Micro-strain sensing using wrinkled stiff thin films on soft substrates as tunable optical grating,” *Optics Express*, 21, 11994-12001, 2013.

Ma, Y. Wang, R. Tang, H. Yu, and H. Jiang, “Pre-patterned ZnO Nanoribbons on Soft Substrates for Stretchable Energy Harvesting Applications,” *Journal of Applied Physics*, 113, 204503, 2013.

An, H. Jiang, “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, 2013.

Cheng, Z. Song, T. Ma, B. B. Smith, R. Tang, H. Yu, H. Jiang, C. K. Chan, “Folding Paper-Based Lithium-Ion Batteries for Higher Areal Energy Densities,” *Nano Letters*, 13, 4969-4974, 2013.

Tu, H. Jiang, H. Yu, and Y. Xu, “Hybrid silicon-polymer platform for self-locking and self-deploying origami,” *Applied Physics Letters*, 103, 241902, 2013.

**2012**

Yu, X. Li, T. Ma, J. Rong, R. Zhang, J. Shaffer, Y. An, Q. Liu, B. Q. Wei, and H. Jiang, “Silicon Thin Films As Anodes For High Performance Lithium Ion Batteries With Effective Stress Relaxation,” *Advanced Energy Materials*, 2, 68-73, 2012.

Fei, K. Yazzie, N. Chawla, and H. Jiang, “The Effect of Random Voids in the Modified Gurson Model,” *Journal of Electronic Materials*, 41, 177-183, 2012.

Li, Y. An, R. Huang, H. Jiang and T. Xie, “Unique aspects of a shape memory polymer as the substrate for surface wrinkling,” *ACS Applied Materials & Interfaces*, 4, 598-603, 2012.

Fei, A. Abraham, N. Chawla, and H. Jiang, “Evaluation of Micro-Pillar Compression Tests for Accurate Determination of Elastic-Plastic Constitutive Relations,” *Journal of Applied Mechanics*, 79, 061011, 2012.

Jiang, H. Jiang, and N. Chawla, “The Effect of Crystallographic Orientation on the Mechanical Behavior of Cu6Sn5 by Micropillar Compression Testing,” *Journal of Electronic Materials*, 41, 2083-2088, 2012.

Fei, K. Yazzie, N. Chawla, and H. Jiang, “Modeling Fracture of Sn-Rich (Pb-Free) Solder Joints under Mechanical Shock Conditions,” *Journal of Electronic Materials*, 41, 2089-2099, 2012.

Yazzie, H. Fei, H. Jiang, and N. Chawla, “Rate-Dependent Behavior of Sn Alloy-Cu Couples: Effects of Microstructure and Composition on Mechanical Shock Resistance,” *Acta Materialia*, 60, 4336-4348, 2012.

Zhang, Y. AN, K. Yazzie, N. Chawla, and H. Jiang, “Finite Element Simulation of Swelling-Induced Crack Healing in Gels,” *Soft Matter*, 8, 8107-8112, 2012.

Lee, J. Zhang, H. Jiang, and N. Fang, “Prescribed Pattern Transformation in Swelling Gel Tubes by Elastic Instability,” *Physical Review Letters*, 108, 214304, 2012.

Chen, E. Azhar, T. Ma, H. Jiang, and H. Yu, “Facile Large-Area Photolithography of Periodic Sub-Micron Structures Using a Self-Formed Polymer Mask,” *Applied Physics Letters*, 100, 233503, 2012.

K.E. Yazzie, H. Fei, H. Jiang, and N. Chawla, “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, 2012.

Duan, Y. An, J. Zhang, and H. Jiang, “The Effect of Large Deformation and Material Nonlinearity on Gel Indentation,” *Acta Mechanica Sinica*, 28, 1058-1067, 2012.

Qu, K. Li, H. Jiang, M. Wang, and Z. Li, “Rate Dependent Stress-Stretch Relation of Dielectric Elastomers Subject to Pure Shear Like Loading and Electric Field,” *Acta Mechanica Solida Sinica*, 25, 542-549, 2012.

Y. Lv, H. Jiang, H. J. Liu, and J. Shi, “Boundary Effect on the Plasticity and Stress of Lithiated Silicon: First-Principles Calculations,” *Journal of Applied Physics*, 112, 103509, 2012.

**2011**

Zhang, H. Jiang, “Molecular Dynamic Simulations of Forming Graphene Nanoribbons from Single-Wall Carbon Nanotubes,” *Journal of Computational Theoretical Nanoscience*, 8, 717-721, 2011.

Fei, K. Yazzie, J. Williams, N. Chawla, and H. Jiang, “Multiscale Modeling of the Interfacial Fracture Behavior in the Sn-Cu6Sn5-Cu System,” *Journal of Computational Theoretical Nanoscience*, 8, 873-880, 2011.

Yu, Y. Pan, H. Ma, T. Ma, J. Zhang, Y. Song, M. Y. S. Kalani, L. Dai, and H. Jiang, “Thermoresponsiveness of Integrated Ultra-thin Silicon with Poly(N-isopropylacrylamide) Hydrogels,” *Macromolecular Rapid Communications*, 32, 820-824, 2011.

Li, R. Zhang, H. Jiang, and G. J. Cheng, “Scalable Nano-Patterning of Graphenes Using Laser Shock,” *Nanotechnology*, 22, 475303, 2011.

An, X. Li, Q. Wei, and H. Jiang, “A Statistical Mechanics Model of Carbon Nanotube Macro-films,” *Theoretical and Applied Mechanics Letters*, 1, 041003, 2011.

**2010**

Yu, K. O’Brien, Y. H. Zhang, H. Yu, and H. Jiang, “Tunable Optical Gratings Based on Buckled Nano-Scale Thin Films on Transparent Elastomeric Substrates,” *Applied Physics Letters*, 96, 041111, 2010.

K.E. Yazzie, J.J. Williams, D. Kingsbury, P. Peralta, H. Jiang, and N. Chawla, “Digital Image Correlation Analysis of the Deformation Behavior of Pb-free Solders at Intermediate Strain Rates,” *JOM*, 62, 18-23, 2010.

Yu and H. Jiang, “Forming wrinkled stiff films on polymeric substrates at room temperature for stretchable interconnects applications,” *Thin Solid Films*, 519, 818-822, 2010.

An, F. J. Solis, H. Jiang, “A Thermodynamic Model of Physical Gels,” *Journal of the Mechanics and Physics of Solids*, 58, 2083-2099, 2010.

**2009**

Yu, C. Masarapu, J. P. Rong, B. Q. Wei, H. Jiang, “Stretchable Supercapacitors based on Buckled Single-Walled Carbon Nanotube Macro-Films,” *Advanced Materials*, 21, 4793-4797, 2009.

Yu, Z. Wang, H. Yu, H. Jiang, “A Stretchable Temperature Sensor Based on Elastically Buckled Thin Film Devices on Elastomeric Substrates,” *Applied Physics Letters*, 95, 141912, 2009.

Yu, H. Gao, H. Yu, H. Jiang, G. Cheng, “Laser Dynamic Forming of Functional Materials Laminated Composites on Patterned Three-Dimensional Surfaces with Applications on Flexible Microelectromechanical Systems,” *Applied Physics Letters*, 95, 091108, 2009.

X.-P. Zheng, Y.-P. Cao,B. Li, X.-Q. Feng, H. Jiang and Y. Huang, “Determining the elastic modulus of thin films using a buckling-based method: computational study,” *Journal of Physics D: Applied Physics*, 42, 175506, 2009.

Fei, H. Jiang, and D.-Y. Khang, “Nonsinusoidal buckling of thin gold ?lms on elastomeric substrates, *Journal of Vacuum Science and Technology A*, 27, L9-L12, 2009.

Song, H. Jiang, Y. Huang, and J. A. Rogers, “Mechanics of Stretchable Inorganic Electronic Materials,” *Journal of Vacuum Science and Technology A*, 27, 1107-1125, 2009.

Zhang, X. Zhao, Z. Suo, H. Jiang, “A Finite Element Method for Transient Analysis of Concurrent Large Deformation and Mass Transport in Gels,” *Journal of Applied Physics*, 105, 093522, 2009.

He, J.-Q. Lu, H. Jiang, “Controlled Carbon Nanotube Junctions Self-assembled from Graphene Nanoribbons,” *Small*, 5, 2802-2806, 2009.

E. Yazzie, H. Fei, J. J. Williams, H. Jiang, and N. Chawla, “Mechanical Shock Behavior of Bulk Pure Sn Solder,” *Journal of Electronic Materials*, 28, 2746-2755, 2009.

**2008**

Jiang, D.-Y. Khang, H. Fei, H. Kim, Y. Huang, J. Xiao, and J. A. Rogers, “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, 2008.

Jiang, Y. Sun, J. A. Rogers, and Y. Huang, “Post-buckling Analysis for the Precisely Controlled Buckling of Thin Film Encapsulated by Elastomeric Substrates,” *International Journal of Solids and Structures*, 45, 2014-2023, 2008.

Song, H. Jiang, Z. J. Liu, D. Y. Khang, Y. Huang, J. A. Rogers, C. Lu, and C. G. Koh, “Buckling of a Stiff Thin Film on a Compliant Substrate in Large Deformation,” *International Journal of Solids and Structures*, 45, 3107-3121, 2008.

Song, H. Jiang, W. M. Choi, D.-Y. Khang, Y. Huang, and J. A. Rogers, “An Analytical Study of Two-Dimensional Buckling of Thin Films on Compliant Substrates,” *Journal of Applied Physics*, 103, 014303, 2008.

D.-Y. Khang, J. Xiao, C. Kocabas, S. MacLaren, T. Banks, H. Jiang, Y. Huang, and J. A. Rogers, “Molecular Scale Buckling Mechanics on Individual, Aligned Single-Wall Carbon Nanotubes on Elastomeric Substrates,” *Nano Letters*, 8, 124-130, 2008.

Xiao, A. Carlson, Z. J. Liu, Y. Huang, H. Jiang, and J. A. Rogers, “Stretchable and Compressible Thin Films of Stiff Materials on Compliant Wavy Substrates,” *Applied Physics Letters*, 93, 013109, 2008.

T.-H. Kim, W. M. Choi, D. H. Kim, M. A. Meitl, E. Menard, H. Jiang, J. A. Carlisle, and J. A. Rogers, “Printable, Flexible and Stretchable Forms of Ultrananocrystalline Diamond with Applications in Thermal Management,” *Advanced Materials*, 20, 2171, 2008.

Xiao, H. Jiang, D.-Y. Khang, J. Wu, Y. Huang, and J.A. Rogers, “Mechanics of buckled carbon nanotubes on elastomeric substrates,” *Journal of Applied Physics*, 104, 033543, 2008.

Jiang, J.-Q. Lu, M.-F. Yu, and Y. Huang, “Carbon Nanotube Transmission between Linear and Rotational Motions,” *CMES: Computer Modeling in Engineering & Sciences*, 24, 95-102, 2008.

Guo, A.Y.T. Leung, X.Q. He, H. Jiang, and Y. Huang, “Bending buckling of single-walled carbon nanotubes by atomic-scale finite element,” *Composites Part B: Engineering*, 39, 202-208, 2008.

Song, J. Wu, Y. Huang, K.C. Hwang, and H. Jiang, “Stiffness and thickness of boron-nitride nanotubes,” *Journal of Nanoscience and Nanotechnology*, 8, 3774-3780, 2008.

Feng, H. Jiang, Y. Huang, B. Liu, and J.-S. Chen, “Modeling Fracture in Carbon Nanotubes Using A Meshless Atomic-scale Finite Element Method,” *JOM*, 60, 50-55, 2008.

Q. Lu, H. Jiang, “Theoretical Modeling on Mechanical-Electrical Coupling of Carbon Nanotubes,” *Journal of Computational and Theoretical Nanoscience*, 5, 449-463, 2008.

Jiang, J. Zhang, “Mechanics of Microtubule Buckling Supported by Cytoplasm,” *Journal of Applied Mechanics*, 75, 061019, 2008.

Jiang, L.Y. Jiang, J.D. Posner, B.D. Vogt, “Atomistic-based Continuum Constitutive Relation for Microtubules: Elastic Modulus Prediction,” *Computational Mechanics*, 42, 607-618, 2008.

L. Chen, B. Liu, J. Wu, Y. Huang, H. Jiang, and K. C. Hwang, “Mechanics of Hydrogen Storage in Carbon Nanotubes,” *Journal of the Mechanics and Physics of Solids*, 56, 3224-3241, 2008.

Q. Zhang, B. Liu, Y. L. Chen, H. Jiang, K. C. Hwang, Y. Huang, “Mechanical properties of functionalized carbon nanotubes,” *Nanotechnology*, 19, 395702, 2008.

**2007**

Jiang, D.-Y. Khang, J. Song, Y. Sun, Y. Huang, and J. A. Rogers, “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, 2007.

Jiang, Y. Sun, J. A. Rogers, and Y. Huang, “Mechanics of Precisely Controlled Thin Film Buckling on Elastomeric Substrate,” *Applied Physics Letters*, 90, 133119, 2007.

W.M. Choi, J. Song, D.-Y. Khang, H. Jiang, Y. Huang, and J. A. Rogers, “Biaxially stretchable “wavy” silicon nanomembranes,” *Nano Letters*, 7, 1655-1663, 2007.

Jiang, K.C. Hwang, Y. Huang, “Mechanics of Carbon Nanotubes: A Continuum Theory Based on Interatomic Potentials,” *Key Engineering Materials*, 340-341, 11-20, 2007.

Song, H. Jiang, J. Wu, Y. Huang, and K. C. Hwang, “Stone-Wales transformation in boron nitride nanotubes,” *Scripta Materialia*, 4, 571-574, 2007.

Jiang, M.-F. Yu, J.-Q. Lu, Y. Huang, H.T. Johnson, X.-G. Zhang, and P. Ferreira, “Carbon Nanotube Electronic Displacement Encoder with Sub-Nanometer Resolution,” *Journal of Computational and Theoretical Nanoscience*, 4, 574-577, 2007.

Guo, A.Y.T. Leung, H. Jiang, X.Q. He, Y. Huang, “Critical strain of carbon nanotubes: an atomic-scale finite element study,” *Journal of Applied Mechanics*, 74, 347-351, 2007.

**2006**

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, 2006.

Feng, Y. Huang, H. Jiang, D. Ngo, and A.J. Rosakis, “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, 2006.

Sun, W.-M. Choi, H. Jiang, Y. Huang, and J. A. Rogers, “Controlled Buckling of Semiconductor Nanoribbons for Stretchable Electronics,” *Nature Nanotechnology*, 1, 201-207, 2006.

Song, H. Jiang, D.-L. Shi, X.-Q. Feng, Y. Huang, M.-F. Yu, and K. C. Hwang, “Stone-Wales transformation: precursor of fracture in carbon nanotubes,” *International Journal of Mechanical Sciences*, 48, 1464-1470, 2006.

Song, Y. Huang, H. Jiang, K. C. Hwang, and M.-F. Yu, “Deformation and bifurcation analysis of boron-nitride nanotubes,” *International Journal of Mechanical Sciences*, 48, 1197-1207, 2006.

L.Y. Jiang, Y. Huang, H. Jiang, G. Ravichandran, H. Gao, K.C. Hwang, and B. Liu, “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, 2006.

A.Y.T. Leung, X. Guo, X.Q. He, H. Jiang, Y. Huang, “Postbuckling of carbon nanotubes by atomic-scale finite element,” *Journal of Applied Physics*, 99, 124308, 2006.

**2005**

D.-L. Shi, X.-Q. Feng, H. Jiang, Y. Huang, and K.C. Hwang, “Multiscale analysis of fracture of carbon nanotubes embedded in composites,” *International Journal of Fracture*, 134, 369-386, 2005.

Jiang, Y. Huang, and K.C. Hwang, “A Finite-Temperature Continuum Theory based on Interatomic Potential,” *Journal of Engineering Materials and Technology*, 127, 408-416, 2005.

Liu, H. Jiang, Y. Huang, S. Qu, M.-F. Yu, and K.C. Hwang, “Atomic-scale finite element method in multiscale computation with applications to carbon nanotubes,” *Physical Review B*, 72, article 035435, 2005.

**2004**

Jiang, M.-F. Yu, B. Liu, and Y. Huang, “Intrinsic Energy Loss Mechanisms in a Cantilevered Carbon Nanotube Beam Oscillator,” *Physical Review Letters*, 93, article 185501, 2004.

Liu, H. Jiang, H. T. Johnson, and Y. Huang, “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, 2004.

Jiang, B. Liu, Y. Huang, and K. C. Hwang, “Thermal Expansion of Single Wall Carbon Nanotubes,” *Journal of Engineering Materials and Technology*, 126, 265-270, 2004.

Jiang, X.-Q. Feng, Y. Huang, K. C. Hwang, and P. D. Wu, “Defect Nucleation in Carbon Nanotubes Under Tension and Torsion: Stone-Wales Transformation,” *Computer Methods in Applied Mechanics and Engineering*, 193, 3419-3429, 2004.

Zhang, H. Jiang, Y. Huang, P. H. Geubelle, and K. C. Hwang, “An Atomistic-based Continuum Theory for Carbon Nanotubes: Analysis of Fracture Nucleation,” *Journal of the Mechanics and Physics of Solids*, 52, 977-998, 2004.

Liu, Y. Huang, H. Jiang, S. Qu, and K. C. Hwang, “The Atomic-scale Finite Element Method,” *Computer Methods in Applied Mechanics and Engineering*, 193, 1849-1864, 2004.

C. Hwang, Y. Guo, H. Jiang, Y. Huang, and Z. Zhuang, “The Finite Deformation Theory of Taylor-based Nonlocal Plasticity,” *International Journal of Plasticity*, 20, 831-839, 2004.

Qu, Y. Huang, W. D. Nix, H. Jiang, F. Zhang, and K. C. Hwang, “The Indenter Tip Radius Effect on the Nix-Gao Relation in Micro- and Nanoindentation Hardness Experiments,” *Journal of Materials Research*, 19, 3423-3434, 2004.

Qu, Y. Huang, H. Jiang, C. Liu, P. D. Wu, and K. C. Hwang, “Fracture Analysis in the Conventional Theory of Mechanism-based Strain Gradient (CMSG) Plasticity,” *International Journal of Fracture*, 129, 199-220, 2004.

Jiang, Y. Huang, and C. Liu, “Fracture Analysis of Facesheets in Sandwich Composites,” *Composites Part B: Engineering*, 35, 551-556, 2004.

**2003**

Jiang, P. Zhang, B. Liu, Y. Huang, P. H. Geubelle, H. Gao, and K. C. Hwang, “The Effect of Nanotubes Radius on the Constitutive Model for Carbon Nanotubes,” *Computational Materials Science*, 28, 429-442, 2003.

C. Hwang, H. Jiang, Y. Huang, and H. Gao, “Finite Deformation Analysis of Mechanism-based Strain Gradient Plasticity: Torsion and Crack Tip Field,” *International Journal of Plasticity*, 19, 235-251, 2003.

**2002**

C. Hwang, H. Jiang, Y. Huang, H. Gao, and N. Hu, “A Finite Deformation Theory of Strain Gradient Plasticity”, *Journal of the Mechanics and Physics of Solids*, 50, 81-99, 2002.

Jiang, Y. Huang, T. F. Guo, and K. C. Hwang, “An Alternative Decomposition of the Strain Gradient Tensor,” 69, 139-141, 2002.

**2001**

Jiang, Y. Huang, Z. Zhuang, and K. C. Hwang, “Fracture in Mechanism-based Strain Gradient Plasticity,” *Journal of the Mechanics and Physics of Solids*, 49, 979-993, 2001.

Shi, Y. Huang, H. Jiang, K. C. Hwang, and M. Li, “The Boundary-layer Effect on the Crack Tip Field in Mechanism-based Strain Gradient Plasticity,” *International Journal of Fracture*, 112, 23-41, 2001.