Stanford Mechanics and Computation

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  1. High Power and High Energy Systems at Small Scales
  2. Huajian Gao
  3. Ignacio Romero
  4. Imaging and Modeling of Cardiac Cells and Tissues
  5. Inhomogeniety and size of microstructure - a new paradigm in understanding deformation mechanism of nano crystalline metals
  6. Inverse Wave Problems, Time Reversal and Damage Identification
  7. Isogeometric Analysis of Solids, Structures, and FSI: From Early Results to Recent Developments
  8. Jaume Peraire
  9. Jeremy Templeton
  10. Jimmy Hsia
  11. Joe Howard
  12. JohnBassani
  13. K. Ravi-Chandar
  14. KC Park
  15. Katia Bertoldi
  16. Kim Turner
  17. King signup link
  18. Kit Parker
  19. Klaus W. Schwarz
  20. Kris Dahl
  21. LeonKeer
  22. LlorcaAbstract
  23. Lorca
  24. Lorna Gibson
  25. MEMS and Nanotechnology for the Automotive Market
  26. Making devices based on ion-ion correlations in nanofluidics, biology, and beyond
  27. Marino Arroyo
  28. MarkusBuehler
  29. Mary boyce
  30. Mathematical models for the cardiovascular system: numerical simulation, control and optimization, clinical applications
  31. Matrix Regulation of Mesenchymal Stem Cells: Implications for Heart Valve Disease
  32. Matteo Negri
  33. Mechanical Behavior of Cells on Tissue Engineering Scaffolds
  34. Mechanical Engineering in the Biotech Century
  35. Mechanical Investigation of Naturally-Occurring High Performance Materials
  36. Mechanical Signaling by Motor Proteins during Mitosis and Cell Motility
  37. Mechanical Signaling in Cells and Tissues
  38. Mechanical and Chemical Effects in the Adhesion of Shells
  39. Mechanics of Biologically Inspired Adhesion, Friction and Engineered Surfaces
  40. Mechanics of Deformation-Triggered Pattern Transformations and Superelastic Behavior in Periodic Elastomeric Structures
  41. Mechanics of Soft Composites: The Interplay between Geometrical Structuring and Large Deformation to Achieve Novel Behavior
  42. Mechanics of Stretchable and Dissolvable Electronics
  43. Mechanics of Surface Effects in Nanoscale Device-Making and Manufacturing
  44. Mechanics of Two-dimensional Media: Carbon Nanotubes and Fluid Membranes
  45. Mechanics of two-dimensional media: carbon nanotubes and fluid membranes
  46. Mechanisms of self-organization for the collagen fibril lattice in the human cornea
  47. Mesoscale models of flow and transport in porous media
  48. Micro Neural Implants
  49. Microfluidic Devices for Cell Capture, Sorting, and Culture
  50. Microfluidic Tools for Metabolomics

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