James Chen

Any intelligent fool can make things bigger, more complex, and more violent. It takes a touch of genius -- and a lot of courage -- to move in the opposite direction.

 

Book Chapters

  1. James Chen and J. D. Lee, “Multiscale Modeling of Fracture: Remedy of Sensitive Interatomic Potential” in Multiscaling Associated with Ecological and Biological Systems, Vol. I: Fundamentals of Physical and Mathematical Considerations (edited by G. C. Sih, S. V. Panin and V. M. Fomin), Elsevier, 2010, in press (Invited Chapter)
  2. J. D. Lee and James Chen, Sensitivity of Interatomic Potentials in Multiscale Modeling of Fracture in Multiscaling of Synthetic and Natural systems with Self-adaptive Capability, National Taiwan Univresity of Science and Technology Press, 41-44, 2010
  3. James Chen and James D. Lee, Dynamic Characteristics of Nano/Micro Biosensors in Multiscaling of Synthetic and Natural systems with Self-adaptive Capability, National Taiwan Univresity of Science and Technology Press, 77-80, 2010
  4. J. D. Lee, X. Wang and James Chen, An Overview of Micromorphic Theory in Multiscaling of Synthetic and Natural systems with Self-Adaptive Capability, National Taiwan Univresity of Science and Technology Press, 81-84, 2010

Peer-Reviewed Journal Articles

  1. James Chen, C. Liang and J. D. Lee, “Micropolar Electromagnetic Fluids: Control of Vortex Shedding Using Imposed Transverse Magnetic Field”, under review
  2. James Chen, C. Liang and J. D. Lee, "Numerical Simulation for Unsteady Compressible Micropolar Fluid Flow," under review
  3. James Chen, J. D. Lee and C. Liang, "Extention of Nonlinear Onsager Theory of Irreversibility," under review
  4. James Chen, J. D. Lee and C. Liang, "Constitutive Equations of Micropolar Electromagnetic Fluids," Journal of Non-Newtonian Fluids, 166, 867–874, 2011
  5. James Chen, C. Liang and J. D. Lee, “Theory and Simulation of Micropolar Fluid Dynamics”, Journal of nanoengineering and nanosystems, 224, 31-40, 2011
  6. James Chen and J. D. Lee, “The Buckingham Catastrophe in Multiscale Modeling of Fracture”, International Journal of Theoretical and Applied Multiscale Mechanics, 2, 3-11, 2011 (Invited Paper)
  7. James Chen, "Atomistic Field Theory of Nano Energy Harvesting", Journal of Computational and Theoretical Nanoscience, 8, 722-728, 2011
  8. James Chen and J. D. Lee, “Atomistic Analysis of Micro/Nano Bio-sensors”,Interaction and Multiscale Mechanics, 3, 111-121, 2010
  9. James Chen and J. D. Lee, "Atomistic Formulation of Nano-piezoelectrics of Barium Titanate", Nanoscience and Nanotechnology Letters, 2, 26-29, 2010
  10. James Chen, X. Wang, H. Wang and J. D. Lee, “Multiscale Modeling of Dynamic Crack Propagation”, Engineering Fracture Mechanics, 77, 736-743, 2010
  11. James Chen and J. D. Lee, “Multiscale Modeling of Fracture of MgO: Sensitivity of Different Interatomic Potentials”, Throretical and Applied Fracture Mechanics, 55, 74-79, 2010
  12. U. Lei, C.-W. Huang, James Chen, C.-Y. Yang, Y.-J. Lo, A. Wo, C.-F. Chen, and T.-B. Fung, ”A traveling wave dielectrophoretic pump for blood delivery”, Lab on a Chip, 9, 1349-1356, 2009 (Advanced Article)

Peer-Reviewed Proceeding Articles

  1. James Chen, and J. D. Lee, Multiscale Modeling of Fracture of Magnesia with Different Interatomic Potentials in the Proceeding of 16th US National Congress of Theoretical and Applied Mechanics, 2010 (CD-ROM)

Conference Presentations and Technical Reports

  1. James Chen, and J. D. Lee, “Multiscale Modeling of Fracture of Magnesia with Different Interatomic Potentials”, 16th US National Congress of Theoretical and Applied Mechanics, PA, June 2010
  2. J. D. Lee and James Chen, “Sensitivity of Interatomic Potentials in Multiscale Modeling of Fracture”, 12th International Congress on Micromechanics (MESOMECHANICS 2010), Taipei, June 2010 (Invited Keynote Lecture)
  3. James Chen and J. D. Lee, “Dynamic Characteristics of Nano/Micro Biosensors”, 12th International Congress on Mesomechanics (MESOMECHANICS 2010), Taipei June 2010
  4. J. D. Lee, X. Wang and James Chen, “Introduction to Micromorphic theory”, 12th International Congress on Mesomechanics (MESOMECHANICS 2010), Taipei June 2010
  5. James Chen and J. D. Lee, "Fundamental Theory of Nanogenerator", APS APril Meeting, Washington DC, 2010
  6. James Chen and J. D. Lee, "Dynamic Analysis of Biosensors", APS March Meeting, Portland, OR, 2010 (Accepted)
  7. James Chen, X. Wang, H. Wang, and J. D. Lee, “A multiscale modeling of fracture mechanics”, US Congress of Computational Mechanics, Coloumbus, Ohio 2009
  8. James Chen, X. Wang, H. Wang, and J. D. Lee, “A multiscale modeling of dynamic crack propagation”, ASCE-ASME-SES joint Conference,Blacksburg, VA 2009
  9. U. Lei, M.-C. Chen, C.-Y. Yang, Y.-J. Lo, A. Wo, "A traveling wave dielectrophoretic pump for two-phase suspension fluid.", The first ASME Micro/Nanoscale Heat Transfer International Conference, 2007. (Accepted)
  10. James Chen, C.-F. Chen, C.-W. Huang, and T.-W. Hsu, “Neural Signal Driven Arm”, 2006, NSC Technical Report (Advised by Prof. Horn-Sen Tzou, U. of Kentucky)
  11. James Chen and K.-S. Liao, “The next generation of strain gage and mechanical properties of cell”, Summer Internship program final report at National Instruments