International Journal of Energy Engineering

International journal of Energy Engineering is an open access, peer-reviewed scientific journal that publishes original articles, critical reviews, research notes, debate and short reports in all areas of energy engineering.

Xianqiao Wang

Editorial Board Member of International Journal of Energy Engineering

Assistant Professor, College of Engineering-Mechanical Engineering, University of Georgia, USA

Research Areas

Multiscale Material Modeling and Simulation, Computational Nanomechanics, Bio-continuum Mechanics, Nanoscale Energy Harvesting, Bio-inspired Material & Structure, Coupled Physics Analyses of Nanomaterials, Molecular Dynamics Simulation, Microcontinuum Fie

Education

2007-2011Ph.DThe George Washingtong University, Washington DC, USA
2007M.ScHunan University, Changsha, China
2004B.ScHunan University, Changsha, China
09/2007-02/2011Ph.D.Mechanical Engineering, George Washington University, USA
09/2004-06/2007M.S.Engineering Mechanics, Hunan University, China
09/2000-06/2004B.S.Engineering Mechanics, Hunan University, China

Experience

2011-presentAssistant Research Professor, Department of Mechanical and Aerospace Engineering, The George Washingtong University, Washington DC, USA
2008-2011Graduate Teaching Assistant, Department of Mechanical & Aerospace Engineering, The George Washington University, Washington, DC
2007-2011Research Assistant, Department of Mechanical & Aerospace Engineering, The George Washington University, Washington, DC
2004-2007Research Assistant, Department of Engineering Mechanics, Hunan University, Changsha, China
08/2012-presentAssistant Professor, College of Engineering, University of Georgia, Athens, GA
03/2011-07/2012Assistant Research Professor, Department of Mechanical & Aerospace Engineering, George Washington University, Washington, DC
09/2007-02/2011Research Assistant, Department of Mechanical & Aerospace Engineering, George Washington University, Washington, DC
09/2008-02/2011Graduate Teaching Assistant, Department of Mechanical & Aerospace Engineering, George Washington University, Washington, DC
09/2004-06/2007Research Assistant, Department of Engineering Mechanics, Hunan University, Changsha, China

Academic Achievement

Winner of the Interdisciplinary Research Fund Competition of GW Institute for BiomedicalEngineering, 2011
Student Travel Award, 16th US National Congress of Theoretical and Applied Mechanics, 2010
Chinese Government Award for Outstanding Self-Financed Students Abroad, 2010
GW Graduate Fellowship, 2007-2010
Outstanding Thesis Award for Master Degree of Hunan Province, 2008
Excellent Thesis Award for Master Degree at Hunan University, 2007
The National Scholarship of China, 2003-2004
Li Xun Scholarship, 2003
Winner of the Interdisciplinary Research Fund Competition of GW Institute for Biomedical Engineering, 2011
Student Travel Award, 16th US National Congress of Theoretical and Applied Mechanics, 2010
Chinese Government Award for Outstanding Self-Financed Students Abroad, 2010
GW Graduate Fellowship, 2007-2010
Outstanding Thesis Award for Master Degree of Hunan Province, 2008 *The highest thesis award for all graduate students of Hunan Province, China
Excellent Thesis Award for Master Degree at Hunan University, 2007
The National Scholarship of China, 2003-2004
Li Xun Scholarship, 2003

Membership

Member, American Nano Society(ANS), 2011-Present
Member, Sigma Xi Society, 2011-Present
Member, American Society of Mechanical Engineering(ASME), 2010-Present
Member, American Physical Society(APS), 2010-Present
Member, AIAA, 2010-Present
Member, Materials Research Society(MRS), 2010-Present
Member, American Nano Society(ANS), 2011-Present
Member, Sigma Xi Society, 2011-Present
Member, American Society of Mechanical Engineering(ASME), 2010-Present
Member, American Physical Society(APS), 2010-Present
Member, AIAA, 2010-Present
Member, Materials Research Society(MRS), 2010-Present

Publications: Journals

[1]  Xianqiao Wang and J. D. Lee, "Heat Resistance of Carbon Nanoonions by Molecular Dynamics Simulations", Interaction and Multiscale Mechanics, accepted.
[2]  Z. Zhang, Xianqiao Wang and J. Li, "Simulation of Collisions between Buckyballs and Graphene Sheets", International Journal of Smart and Nano Materials, accepted.
[3]  Xianqiao Wang and J. D. Lee, "Heat Wave Driven by Nanoscale Mechanical Impact", Journal of Nanomechanics and Micromechanics, accepted.
[4]  J.D. Lee and Xianqiao Wang, "Generalized Micromorphic Solids and Fluids," International Journal of Engineering Science, accepted.
[5]  Xianqiao Wang and J. D. Lee, "Temperature-driven Nanopump: Non-equilibrium Molecular Dynamics Simulation", Journal of Computational and Theoretical Nanoscience, accepted.
[6]  Xianqiao Wang, J.D. Lee, "Mechanics of Nanobuckling: an Atomistic Field Simulation," International Journal of Terraspace Science and Engineering, 3(2): 185-190, 2011.
[7]  Xianqiao Wang, "Continuum Aspect of Nanomechanics: From Micromorphic Theory to Atomistic Field Theory," Journal of Computational and Theoretical Nanoscience, 8, 1-18, 2011.
[8]  Xianqiao Wang and J.D. Lee, "Coarse-grained Non-equilibrium Simulation for Crystalline Materials at Nano Scale," Journal of Nanoengineering and Nanosystems (invited paper), 224(1-2):55-68, 2011.
[9]  Xianqiao Wang and J.D. Lee, "Wave Propagating across Atomic-Continuum Interface," Philosophical Magazine Letters, 91(5): 375-386, 2011.
[10]  Xianqiao Wang and J.D. Lee, "Effects of Electric Fields on Nanocrack Propagation," International Journal of Fracture, 169(1):27, 2011.
[11]  X. Zeng, Xianqiao Wang, J.D. Lee and Y. Lei, "Multiscale Modeling of Nano/Micro Systems by A Multiscale Continuum Field Theory," Computational Mechanics, 47(2): 205-216, 2011.
[12]  Xianqiao Wang and J.D. Lee, "Modeling and Simulation of Wave Propagation by Atomistic Field Theory," ASME Journal of Applied Mechanics, 78(2): 021012, 2011.
[13]  Xianqiao Wang and J.D. Lee, "An Atom-Based Continuum Method for Multi-element Crystals at Nano Scale," CMES: Computer Modelling in Engineering & Sciences, 69(3):199-222, 2010.
[14]  Xianqiao Wang and J.D. Lee, "Atomistic Simulation of MgO Nanowires Subject to Electromagnetic Wave," Modelling and Simulation in Materials Science and Engineering, 18: 085010, 2010.
[15]  Xianqiao Wang and J.D. Lee, "Nano-Piezoelectricity in BaTiO3: an Atomistic/Continuum Simulation," Advanced Science Letters , 3: 1-6, 2010
[16]  Xianqiao Wang and J.D. Lee, "Concurrent Atomistic/Continuum Simulation of Thermo-Mechanical Coupling Phenomena," CMES: Computer Modelling in Engineering & Sciences , 63(2): 150-170, 2010
[17]  Xianqiao Wang and J.D. Lee, "Micromorphic Theory: A Gateway to Nano World," International Journal of Smart and Nano Materials, 1(2): 115-135, 2010
[18]  J. Chen, Xianqiao Wang, H. Wang and J.D. Lee, "Multiscale Modeling of Dynamic Crack Propagation," Engineering Fracture Mechanics, 77: 736-743, 2010.
[19]  J.D. Lee, Xianqiao Wang and Y. Chen, "Multiscale material modeling and its application to a dynamic crack propagation problem," Theoretical and Applied Fracture Mechanics, 51: 33-40, 2009.
[20]  J.D. Lee, Xianqiao Wang and Y. Chen, "Multiscale Computation for Nano/Micromaterials," ASCE Journal of Engineering Mechanics, 134(3): 192-202, 2009.
[21]  Y.M. Fu and Xianqiao Wang, "A continuum damage model of piezoelectric materials", Acta Mechanica Sinica, 24(2): 171-179, 2008. Xianqiao (Mark) Wang: CV Page 4 of 8
[22]  Y.M. Fu and Xianqiao Wang, "Analysis of bifurcation and chaos of the piezoelectric plate including damage effects," International Journal of Nonlinear Science and Numerical Simulation, 9(1): 61-74, 2008.
[23]  Y.M. Fu, Xianqiao Wang and J.H. Yang, "Nonlinear dynamic response of piezoelastic laminated plates considering damage effects," Composite Structures, 81(3): 353-361, 2007.
[24]  Y.M. Fu and Xianqiao Wang, "Free vibration analysis of piezoelastic laminated plate with damage," Acta Mechanica and Solida Sinica, 28(2): 121-131, 2007.
[25]  J.H. Yang, Y.M. Fu and Xianqiao Wang, "Variational analysis of delamination growth for composite laminated cylindrical shells under circumferential concentrated load," Composite Science and Technology, 67: 541-550, 2007.
[26]  Y.M. Fu and Xianqiao Wang, "Nonlinear dynamic response of piezoelectric plates considering damage effects," Key Engineering Materials, 324-325: 299-301, 2006.
[27]  Y.M. Fu, J.W. Hong and Xianqiao Wang, "Analysis of nonlinear vibration for embedded carbon nanotubes," Journal of Sound and Vibration, 296: 746-756, 2006.
[28]  K.P. Chong, Xianqiao Wang and S.L. Chong, “Translational Research in Sustainability and Mechanics”, International Journal of Sustainable Materials and Structural Systems, Accepted.
[29]  Z. Zhang, Xianqiao Wang and J. Li, “Simulation of Collisions between Buckyballs and Graphene Sheets”, International Journal of Smart and Nano Materials, 3(1): 14-22, 2012.
[30]  Xianqiao Wang and J. D. Lee, “Heat Wave Driven by Nanoscale Mechanical Impact”, Journal of Nanomechanics and Micromechanics, 2(2): 23-27, 2012.
[31]  Xianqiao Wang and J. D. Lee, “Temperature-driven Nanopump: Non-equilibrium Molecular Dynamics Simulation”, Journal of Computational and Theoretical Nanoscience, 9, 83-91, 2012.
[32]  Xianqiao Wang and J. D. Lee, “Heat Resistance of Carbon Nanoonions by Molecular Dynamics Simulations”, Interaction and Multiscale Mechanics, 4(4), 247-255, 2011.
[33]  J.D. Lee and Xianqiao Wang, "Generalized Micromorphic Solids and Fluids," International Journal of Engineering Science, 49(12), 1378:1387, 2011.
[34]  Xianqiao Wang, J.D. Lee, “Mechanics of Nanobuckling: an Atomistic Field Simulation,” International Journal of Terraspace Science and Engineering, 3(2): 185-190, 2011.
[35]  Xianqiao Wang, "Continuum Aspect of Nanomechanics: From Micromorphic Theory to Atomistic Field Theory," Journal of Computational and Theoretical Nanoscience, 8, 1-18, 2011.
[36]  Xianqiao Wang and J.D. Lee, "Coarse-grained Non-equilibrium Simulation for Crystalline Materials at Nano Scale," Journal of Nanoengineering and Nanosystems (invited paper), 224(1-2):55-68, 2011.
[37]  Xianqiao Wang and J.D. Lee, "Wave Propagating across Atomic-Continuum Interface," Philosophical Magazine Letters, 91(5): 375-386, 2011.
[38]  Xianqiao Wang and J.D. Lee, "Effects of Electric Fields on Nanocrack Propagation," International Journal of Fracture, 169(1):27, 2011.
[39]  X. Zeng, Xianqiao Wang, J.D. Lee and Y. Lei, "Multiscale Modeling of Nano/Micro Systems by A Multiscale Continuum Field Theory," Computational Mechanics, 47(2): 205-216, 2011.
[40]  Xianqiao Wang and J.D. Lee, "Modeling and Simulation of Wave Propagation by Atomistic Field Theory," ASME Journal of Applied Mechanics, 78(2): 021012, 2011.
[41]  Xianqiao Wang and J.D. Lee, "An Atom-Based Continuum Method for Multi-element Crystals at Nano Scale," CMES: Computer Modelling in Engineering & Sciences, 69(3):199-222, 2010.
[42]  Xianqiao Wang and J.D. Lee, "Atomistic Simulation of MgO Nanowires Subject to Electromagnetic Wave," Modelling and Simulation in Materials Science and Engineering, 18: 085010, 2010.
[43]  Xianqiao Wang and J.D. Lee, "Nano-Piezoelectricity in BaTiO3: an Atomistic/Continuum Simulation," Advanced Science Letters , 3: 1-6, 2010.
[44]  Xianqiao Wang and J.D. Lee, "Concurrent Atomistic/Continuum Simulation of Thermo-Mechanical Coupling Phenomena," CMES: Computer Modelling in Engineering & Sciences , 63(2): 150-170, 2010.
[45]  Xianqiao Wang and J.D. Lee, "Micromorphic Theory: A Gateway to Nano World," International Journal of Smart and Nano Materials, 1(2): 115-135, 2010.
[46]  J. Chen, Xianqiao Wang, H. Wang and J.D. Lee, "Multiscale Modeling of Dynamic Crack Propagation," Engineering Fracture Mechanics, 77: 736-743, 2010.
[47]  J.D. Lee, Xianqiao Wang and Y. Chen, "Multiscale material modeling and its application to a dynamic crack propagation problem," Theoretical and Applied Fracture Mechanics, 51: 33-40, 2009.
[48]  J.D. Lee, Xianqiao Wang and Y. Chen, "Multiscale Computation for Nano/Micromaterials," ASCE Journal of Engineering Mechanics, 134(3): 192-202, 2009.
[49]  Y.M. Fu and Xianqiao Wang, "A continuum damage model of piezoelectric materials", Acta Mechanica Sinica, 24(2): 171-179, 2008.
[50]  Y.M. Fu and Xianqiao Wang, "Analysis of bifurcation and chaos of the piezoelectric plate including damage effects," International Journal of Nonlinear Science and Numerical Simulation, 9(1): 61-74, 2008.
[51]  Y.M. Fu, Xianqiao Wang and J.H. Yang, "Nonlinear dynamic response of piezoelastic laminated plates considering damage effects," Composite Structures, 81(3): 353-361, 2007.
[52]  Y.M. Fu and Xianqiao Wang, "Free vibration analysis of piezoelastic laminated plate with damage," Acta Mechanica and Solida Sinica, 28(2): 121-131, 2007.
[53]  J.H. Yang, Y.M. Fu and Xianqiao Wang, "Variational analysis of delamination growth for composite laminated cylindrical shells under circumferential concentrated load," Composite Science and Technology, 67: 541-550, 2007.
[54]  Y.M. Fu and Xianqiao Wang, "Nonlinear dynamic response of piezoelectric plates considering damage effects," Key Engineering Materials, 324-325: 299-301, 2006.
[55]  Y.M. Fu, J.W. Hong and Xianqiao Wang, "Analysis of nonlinear vibration for embedded carbon nanotubes," Journal of Sound and Vibration, 296: 746-756, 2006.

Publications: Conferences/Workshops/Symposiums

[1]  J.D. Lee, Xianqiao Wang, "Coarse-grained Molecular Dynamics Simulation with Generalized Gauss Quadrature", Proceedings of 13th International Congress on Mesomechanics, July 6-8, 2011, Vicenza, Italy.
[2]  J.D. Lee, Xianqiao Wang, J. Chen, and J. Li, "Interatomic Potential: the Constitutive Equations at Nanoscale", Proceedings of 13th International Congress on Mesomechanics, July 6-8, 2011, Vicenza, Italy.
[3]  Xianqiao Wang and J.D. Lee, "Coarse-grained Atomistic Simulation through Generalized Gauss Quadrature", Proceedings of 11th US National Congress on Computational Mechanics, July 25-29, Minnesota, USA.
[4]  J.D. Lee, Xianqiao Wang and J. Chen, "Coarse-Grained Molecular Dynamics Simulation of Thermal-Mechanical-Electromagnetic Coupling Phenomena", Proceedings of 11th US National Congress on Computational Mechanics, July 25-29, Minnesota, USA.
[5]  Xianqiao Wang and J.D. Lee, "Mutiscale simulation of dynamic fracture by a concurrent atomistic/continuum meshless method", Proceedings of ASME International Engineering Congress & Exposition, November 12-18, 2010, Vancouver, British Columbia, Canada.
[6]  Xianqiao Wang and J.D. Lee, "An atom-based meshless method and its application to cellular material", Proceedings of ASME International Engineering Congress & Exposition, November 12-18, 2010, Vancouver, British Columbia, Canada.
[7]  Xianqiao Wang and J.D. Lee, "Material design of AxB1-xO nano thin film by atomic field theory", ASME International Engineering Congress & Exposition, November 12-18, 2010, Vancouver, British Columbia, Canada.
[8]  Xianqiao Wang and J.D. Lee, "Wave propagation through interface in coupled atomistic/continuum simulations," Proceedings of 16th US National Congress of Theoretical and Applied Mechanics, June 27-July 2, 2010, State College, Pennsylvania, USA.
[9]  Xianqiao Wang and J.D. Lee, "A multiple-length/time-scale algorithm for concurrent atomistic/continuum simulations," Proceedings of 16th US National Congress of Theoretical and Applied Mechanics, June 27-July 2, 2010, State College, Pennsylvania, USA.
[10]  J.D. Lee, Xianqiao Wang and J. Chen, "An overview of micromorphic theory," Proceedings of 12th International Congress on Mesomechanics, June 21-25, 2010, Taipei, Taiwan.
[11]  Xianqiao Wang and J.D. Lee, "A numerical implementation of a thermomechanical coupled multiscale theory," 2009 ASME International Mechanical Engineering Congress & Exposition, November 13-19, 2009, Lake Buena Vista, FL, USA.
[12]  Xianqiao Wang and J.D. Lee, "Modeling and simulation of wave propagation of magnesium oxide by a multiscale field theory," The 10th U.S. National Congress on Computational Mechanics, July 15-19, 2009, Columbus, OH, USA.
[13]  J. Chen, Xianqiao Wang, H. Wang and J.D. Lee, "A multiscale modeling of dynamic crack propagation," The 2009 Joint ASCE-ASME-SES Conference on Mechanics and Materials, June 24-27,2009, Blacksburg, VA, USA.
[14]  Xianqiao Wang and J.D. Lee, "Simulation of wave propagation by a multiscale field theory," The 2009 Joint ASCE-ASME-SES Conference on Mechanics and Materials, June 24-27,2009, Blacksburg, VA, USA.
[15]  J.D. Lee, Xianqiao Wang and Y.P. Chen, "Multiscale concurrent atomic/continuum theory and its numerical implementation," 2008 ASME International Mechanical Engineering Congress & Exposition-"Engineering a Better World", Oct.31-Nov.6, 2008, Boston, MA, USA.
[16]  Y.M. Fu and Xianqiao Wang, "Nonlinear dynamic response of piezoelectric plates considering damage effects," The 5th International Conference on Fracture and Damage Mechanics, Sept., 2006, Harbin, China.
[17]  J.D. Lee, Xianqiao Wang, J. Chen and J. Li, " Simulation of Thermal-Mechanical-Electromagnetic Coupling Phenomena by Non-equilibrium Molecular Dynamics", 2011 ASME International Mechanical Engineering Congress & Exposition, November 11-17, Denver, USA.
[18]  Xianqiao Wang and J.D. Lee, "An Atomistic/Continuum Model for Dynamic Fracture", 2011 ASME International Mechanical Engineering Congress & Exposition, November 11-17, Denver, USA.
[19]  J.D. Lee, Xianqiao Wang, "Coarse-grained Molecular Dynamics Simulation with Generalized Gauss Quadrature", Proceedings of 13th International Congress on Mesomechanics, July 6-8, 2011, Vicenza, Italy.
[20]  J.D. Lee, Xianqiao Wang, J. Chen, and J. Li, "Interatomic Potential: the Constitutive Equations at Nanoscale", Proceedings of 13th International Congress on Mesomechanics, July 6-8, 2011, Vicenza, Italy.
[21]  Xianqiao Wang and J.D. Lee, "Coarse-grained Atomistic Simulation through Generalized Gauss Quadrature", Proceedings of 11th US National Congress on Computational Mechanics, July 25-29, Minnesota, USA.
[22]  J.D. Lee, Xianqiao Wang and J. Chen, "Coarse-Grained Molecular Dynamics Simulation of Thermal-Mechanical-Electromagnetic Coupling Phenomena", Proceedings of 11th US National Congress on Computational Mechanics, July 25-29, Minnesota, USA.
[23]  Xianqiao Wang and J.D. Lee, "Mutiscale simulation of dynamic fracture by a concurrent atomistic/continuum meshless method", Proceedings of ASME International Engineering Congress & Exposition, November 12-18, 2010, Vancouver, British Columbia, Canada.
[24]  Xianqiao Wang and J.D. Lee, "An atom-based meshless method and its application to cellular material", Proceedings of ASME International Engineering Congress & Exposition, November 12-18, 2010, Vancouver, British Columbia, Canada.
[25]  Xianqiao Wang and J.D. Lee, "Material design of AxB1-xO nano thin film by atomic field theory", ASME International Engineering Congress & Exposition, November 12-18, 2010, Vancouver, British Columbia, Canada.
[26]  Xianqiao Wang and J.D. Lee, "Wave propagation through interface in coupled atomistic/continuum simulations," Proceedings of 16th US National Congress of Theoretical and Applied Mechanics, June 27 - July 2, 2010, State College, Pennsylvania, USA.
[27]  Xianqiao Wang and J.D. Lee, "A multiple-length/time-scale algorithm for concurrent atomistic/ continuum simulations," Proceedings of 16th US National Congress of Theoretical and Applied Mechanics, June 27 - July 2, 2010, State College, Pennsylvania, USA.
[28]  J.D. Lee, Xianqiao Wang and J. Chen, "An overview of micromorphic theory," Proceedings of 12th International Congress on Mesomechanics, June 21-25, 2010, Taipei, Taiwan.
[29]  Xianqiao Wang and J.D. Lee, "A numerical implementation of a thermomechanical coupled multiscale theory," 2009 ASME International Mechanical Engineering Congress & Exposition, November 13-19, 2009, Lake Buena Vista, FL, USA.
[30]  Xianqiao Wang and J.D. Lee, "Modeling and simulation of wave propagation of magnesium oxide by a multiscale field theory," The 10th U.S. National Congress on Computational Mechanics, July 15-19, 2009, Columbus, OH, USA.
[31]  J. Chen, Xianqiao Wang, H. Wang and J.D. Lee, "A multiscale modeling of dynamic crack propagation," The 2009 Joint ASCE-ASME-SES Conference on Mechanics and Materials, June 24-27,2009, Blacksburg, VA, USA.
[32]  Xianqiao Wang and J.D. Lee, "Simulation of wave propagation by a multiscale field theory," The 2009 Joint ASCE-ASME-SES Conference on Mechanics and Materials, June 24-27,2009, Blacksburg, VA, USA.
[33]  J.D. Lee, Xianqiao Wang and Y.P. Chen, "Multiscale concurrent atomic/continuum theory and its numerical implementation," 2008 ASME International Mechanical Engineering Congress & Exposition - "Engineering a Better World", Oct.31-Nov.6, 2008, Boston, MA, USA.
[34]  Y.M. Fu and Xianqiao Wang, "Nonlinear dynamic response of piezoelectric plates considering damage effects," The 5th International Conference on Fracture and Damage Mechanics, Sept., 2006, Harbin, China.

Publications: Books/Book Chapters

[1]  J.D. Lee, Y. Chen and Xianqiao Wang, "Extending Micromorphic Theory to Atomic Scale," in Mechanics of Generalized Continua by Gerard A. Maugin and Andrei V. Metrikine, Springer, 2010.
[2]  J.D. Lee, Xianqiao Wang and J. Chen, "An Overview of Micromorphic Theory," in Multiscaling of Synthetic and Natural systems with Self-Adaptive Capability by G.C. Sih, National Taiwan University of Science and Technology Press, 81-84, 2010
[3]  Xianqiao Wang, J Li, J.D. Lee and A. Eskandarian, "A Multiscale Modeling of Multiple Physics" in Handbook of Micromechanics and Nanomechanics by Shaofan Li and Xinlin Gao, Pan Stanford Publishing Pte Ltd, 2012.
[4]  J.D. Lee, Y. Chen and Xianqiao Wang, "Extending Micromorphic Theory to Atomic Scale," in Mechanics of Generalized Continua by Gerard A. Maugin and Andrei V. Metrikine, Springer, 2010.
[5]  J.D. Lee, Xianqiao Wang and J. Chen, “An Overview of Micromorphic Theory,” in Multiscaling of Synthetic and Natural systems with Self-Adaptive Capability by G.C. Sih, National Taiwan University of Science and Technology Press, 81-84, 2010.