List

Award Lectures

1. Control of interfacial stability in electrochemical systems, Andreas Acrivos Award for Professional Progress in Chemical Engineering Lecture, AIChE Annual Meeting, Orlando, FL, Nov. 12, 2019. (SLIDESHOW, ChEnected interview)

2. Theory of Electrochemical Interfaces at High Voltage, Alexander Kuznetsov Prize Lecture, ISE Annual Meeting, Den Haag, Netherlands, August 22, 2016. (slideshow)

   Honorary Lectures

3. Learning Battery Physics from Images, Distinguished Lecture in Chemical Engineering, U. British Columbia, Feb. 25, 2022.

4. Learning Battery Physics from Images, Patten Distinguished Lecture in Chemical Engineering, U. Colorado, Jan. 18, 2022.

5. Learning Battery Physics from Images, Bird-Stewart-Lightfoot Lecture, University of Wisconsin, Dec. 7, 2021.

6. Control of interfacial stability in electrochemical systems, Institute of Molecular Engineering Distinguished Colloquium, University of Chicago, Jan. 22, 2020.

7. Control of interfacial stability in electrochemical systems, Richard and Carol Pletcher Seminar, Mechanical Engineering, Iowa State University, Oct. 15, 2019.

8. Nonequilibrium Thermodynamics of Li-ion Batteries, IMA Lighthill Lecture, British Applied Mathematics Colloquium, Oxford, UK, April 7. 2016. (slideshow)

9. Nonlinear electrokinetic phenomena, Stanley Corrsin Memorial Lecture in Fluid Mechanics, Johns Hopkins University, Dec. 10, 2013.

10. Phase separation dynamics in Li-ion batteries, Peter G. Winchell Distinguished Lecture, Purdue School of Material Science, Sept. 7, 2012.

11. Induced-charge electrokinetic phenomena, Paris-Sciences Chair Lecture Series, ESPCI, Paris, France, January 7 - February 14, 2008.
    1. Introduction to nonlinear electrokinetics
    2. Induced-charge electrophoresis in colloids
    3. AC electro-osmosis in microfluidics
    4. Theory at large applied voltages

12. Fluctuations in correlated systems: Granular flow and percolation, Paris-Sciences Chair Lecture Series, ESPCI, October 3-24, 2002.
    1. Particle Mixing in Granular Drainage
    2. Velocity Correlations in Granular Drainage
    3. Fluctuations and Crossover in Percolation
    4. Stochastic Renormalization Group in Percolation

    Plenary / Keynote Lectures

13. Nonequilibrium thermodynamics of Li-ion batteries, Joint European Thermodynamic Conference, Prague, Czech Republic, June 17, 2021. (virtual)

14. Multivalent ion separations by shock electrodialysis, European Symposium on Electrochemical Engineering, Leeuwaarden, Netherlands, June 16, 2021. (virtual)

15. Control of battery phase transformations by electro-autocatalysis, ModVal 2019, Braunschweig, Germany, March 13, 2019.

16. Control of phase separation in rechargeable batteries, Complex Heterogeneous Systems, Heriot-Watt University, Edinburgh, June 26, 2018.

17. Electrokinetic control of interfacial instabilities, ELKIN International Symposium on Electrokinetics, Dresden, Germany, September 2017.

18. Shock electrodialysis and other electrochemical water purification methods, Water Grand Challenges Plenary Session, AIChE Annual Meeting, San Francisco, CA, Nov. 15, 2016.

19. Nonlinear electrokinetics in porous media, ACS Colloids, Baltimore, MD June 2012.

20. Desalination shocks in microstructures, Gordon-Kenan Research Conference on the Physics and Chemistry of Microfluidics, Waterville Valley, NH, June 25, 2011.

21. Induced-charge electrokinetics in microfluidics, ELKIN International Electrokinetics Symposium, Turku, Finland, June 2010.

22. Induced-charge electrophoresis, ELKIN, Santa Fe, NM May 22, 2008.

    Summer School Lectures

23. Electrochemical Nonequilibrium Thermodynamics, Lawrence Livermore National L aboratory, Computational Chemistry and Materials Science Summer Institute, 7/20-21/2016.
    1. Theory
    2. Applications
24. Induced-charge electrokinetic Phenomena, CISM Summer School on Electrokinetics and Electrohydrodynamics of Microsystems, Udine, Italy, June 22-26, 2009.
    1. Introduction
    2. Low Voltage Theory
    3. Particle Motion
    4. Fluid Motion
    5. Large Voltage Theory

25. Asymptotic methods in electrochemistry, five-lecture mini-course, Centre de Recherche Paul Pascal, Pessac, France, June 5-18, 1999.

    
    

    Invited Talks at Conferences

26. Highly selective electrochemical separations of metals, MRS Fall Meeting, Boston, MA, Dec. 4, 2023.

27. Unified theory of electrochemical kinetics by coupled ion-electron transfer, Faraday Discussion on Iontronics, Edinburgh, Scotland, June 21, 2023.

28. Teaching electrochemical science and engineering online, ECS Meeting, Boston, MA, May 31, 2023.

29. Controlling electrodeposition via electrokinetic phenomena and phase separaation, ECS Meeting, Boston, MA, May 30, 2023.

30. Learning electrochemical models from images, ECS Meeting, Boston, MA, May 29, 2023.

31. Learning Heterogeneous Reaction Kinetics from Images of Li-Ion Battery Nanoparticles, MRS Fall Meeting, Boston, MA Nov 28, 2022.

32. Lithium intercalation by coupled ion-electron transfer, Computational Modeling of Batteries, TU Ulm, Germany, October 25, 2022.

33. Lithium intercalation by coupled ion-electron, 2nd Annual International Shell Battery Conference, Sept 19-20, 2022. (virtual)

34. Learning battery physics from images, International Symposium on Recent Advances in Computational Analysis and Modeling, IIT Roorkee, Inda, June 19, 2022. (virtual)

35. Driven nucleation and growth in lithium batteries, Electrochemical Society Meeting, Vancouver, CA, May 31, 2022. (virtual)

36. Analysis of transport phenomena: The legacy of Bill Deen in 10.50, AIChE Annual Meeting, Boston, MA, Nov. 8, 2021.

37. Continuous Low-Cost Separation of Multivalent Ions from Dilute Aqueous Solutions by Shock Electrodialysis, ECS Annual Meeting, Orlando, FL, Oct. 10, 2021. (virtual)

38. Ion concentration shock waves: From microfluidics to porous media, SciX, Providence, RI, Sept. 28, 2021.

39. Beyond six feet: A guideline to limit indoor airborne transmission of COVID-19, COVID-19 and our Environment, Library of Congress, July 21, 2021. (virtual)

40. Learning Battery Physics from Images, International Battery Manufacturing Days, Picardie, France, June 23, 2021. (virtual)

41. Beyond Six Feet: A guideline to limit indoor airborne transmission of COVID-19, COVID-19 Symposium, Columbia School of Public Health June 16, 2021.

42. Some surprises in confined electrolytes: Electroneutrality breakdown and extreme cryotolerance, APS March Meeting (virtual), March 14, 2021.

43. Mathematical models of charge-mass correlations in ionic liquids, SIAM Confrence on Computational Science and Engineering (virtual), March 1, 2021.

44. A Guideline to Limit Indoor Airborne Transmission of COVID-19, APS DFD Meeting, Fluid Mechanics of Infectious Diseases, Nov. 22, 2020.

45. Shock electrodialysis for ion-selective water purification, AIChE Annual Meeting, Orlando, FL, Nov. 11, 2019.

46. Electrokinetic control of multiphase flow in porous media, SPWLA Meeting, Schlumpberger-Doll Research, Cambridge, MA, Nov. 1, 2019.

47. Charge screening and electrokinetic phenomena with strongly correlated ions, ELKIN International Electrokinetics Symposium, MIT, June 13, 2019.

48. Control of battery phase transformations by electro-auto-catalysis, Oxford Battery Modeling Symposium, Oxford, UK, March 19, 2019.

49. Nanoscale control of electrochemical phase transformations by electro-auto-catalysis, Dutch Electrochemistry Workshop, Groningen, Netherlands, Nov. 21, 2018.

50. Control of phase separation by electro-autocatalysis, AIChE Annual Meeting, Minneapolis, MN, Nov. 2017.

51. Thermodynamic stability of driven, open systems and control of phase separation by electro-autocatalysis, Chemical Physics of Electroactive Materials Faraday Discussion, Cambridge, UK, April 11, 2017.

52. Shock Electrodialysis, ACS Meeting, Philadelphia, August 26, 2016.

53. Driven coherent phase separation in nanoparticles, MRS Spring Meeting, Phoenix, AZ, March 30, 2016.

54. Shock electrochemistry in porous media, GdRi/MIT Workshop on Porous Media, Aug. 28, 2015. (PDF)

55. Coating process engineering, Wet Coating Days, Saint Gobain Northboro R&D Center, Sept. 28, 2015.

56. Shock electrochemistry in porous media, GdRI/CNRS/MIT Worshop on Porous Media, Aug. 28, 2015.

57. Advances in process engineering with porous media, Saint Gobain Research Conference, Ferrieres, Paris, June 8, 2015.

58. Overlimiting current and shock electrochemistry in porous media, AIChE Annual Meeting, Tutorial Session on Electrochemical Methods, Nov. 18, 2014.

59. Nonequilibrium thermodynamics of Li-ion batteries, Third International Phase Field Conference, Penn. State, Aug. 26, 2014.

60. Theory of phase transformations and charge transfer in battery electrodes, Gordon Conference on Batteries, Ventura, CA, March 13, 2014.

61. Nonequilibrium thermodynamics of electrodes, Gordon Conference on Electrochemistry, Ventura, CA, Jan. 7, 2014.

62. Nonequilibrium thermodynamics of rechargeable batteries, Materials for Sustainability, Institute for Pure and Applied Mathematics, UCLA, Nov. 6, 2013.

63. Nonlinear electrokinetic separations in porous media, EREM 2013, International Symposium on Electrokinetic Remediation, June 24, 2013.

64. Non-equilibrium Thermodynamics of Li-ion Batteries, MRS Spring Meeting, 2013.

65. Nonlinear electrokinetics in porous media, ICREA Nanfluidics, Colloids and Membranes, Barcelona, Spain, July 18, 2012.

66. Overlimiting current and shock electrodialysis in porous media, International Society of Electrochemistry, Washington, DC, May 24, 2012.

67. Phase transformations in Li-ion batteries, Symposium on “Mathematics and Our Energy Future”, AAAS Annual Meeting, Washington, DC, Feb. 17, 2011.

68. Induced-charge electrokinetic phenomena (tutorial), IMA Workshop on Electrokinetics and Interfacial Phenomena, December 5, 2009.

69. Intercalation dynamics in rechargeable batteries, Joint Mathematics Meeting (AMS, MAA, SIAM), Washington, DC, January 8, 2009.

70. Nanoscale phenomena in induced-charge electrokinetics, Annual Meeting of the American Institute of Chemical Engineers, Philadelphia, Nov 18, 2008.

71. Towards an understanding of nonlinear electrokinetics at large voltages, MIT-Spain Workshop on Electrokinetics, MIT, Oct. 20, 2008.

72. Nanoscale phenomena in nonlinear electrokinetics, Physics of Micro- and Nanofluids, Lorentz Center, Leiden, Netherlands, June 10, 2008.

73. Nanoscale phenomena in induced-charge electrokinetics, Gordon Research Conference on the Physics and Chemistry of Microfluidics, Waterville, NH, July 16, 2007. (HTML slides)

74. Induced-charge electro-osmosis, Frontiers in Applied and Computational Mathematics, New Jersey Institute of Technology, May 16, 2007.

75. Stochastic plasticity: A multiscale model for granular flow, SAMSI Workshop on Computer Models, Duke University, September 10, 2006.

76. Nonlinear electrokinetics at highly charged surfaces, SIAM Annual Meeting, Boston, July 13, 2006.

77. Conformal mapping of some non-harmonic functions in transport theory, SIAM Annual Meeting, Boston, July 12, 2006.

78. Random-packing dynamics in dense granular flow, March Meeting of the American Physical Society, Focus Session on Jamming, March 2006.

79. Simulations of granular flow in pebble-bed nuclear reactors, Advanced Simulations: A Critical Tool for Future Nuclear Fuel Cycles, Lawrence Livermore National Laboratory, Dec. 15, 2006.

80. Multiscale modeling of granular flow, IPAM Workshop on Multiscale Analysis and Computation, UCLA, Nov. 16, 2005.

81. Induced-charge electro-osmosis and electrophoresis, New England Complex Fluids Workshop, Sept. 16, 2005.

82. Cooperative diffusion and stochastic plasticity in granular flow, KITP Workshop on Friction, Fracture, and Earthquakes, Santa Barbara, CA August 16, 2005. ( SLIDES AND STREAMING VIDEO)

83. Time-dependent electro-diffusion and nonlinear electrokinetics, SIAM Annual Meeting, New Orleans, LA, July 2005.

84. A microscopic mechanism for granular flow, Prager Symposium in honor of S. Torquato, Annual Meeting of the Society of Engineering Science, Lincoln, NE, Oct. 10, 2004.

85. A theory of cooperative diffusion in dense granular flows, New England Granular Materials Workshop, Yale University, June 3, 2004.

86. A theory of cooperative diffusion in dense granular flows, SIAM Conference on Materials Science, Los Angeles, May 2004.

87. Conformal-map dynamics for transport-limited aggregation, SIAM Conference on Materials Science, Los Angeles, May 2004.

88. Non-Laplacian Transport-Limited Aggregation, Session: DLA and Beyond, Annual March Meeting of the American Physical Society, Montreal, Canada, March 22, 2004.

89. The fractal central limit theorem in percolation, Horizons in Complex Systems, Messina, Italy, December 6, 2001.

90. The Environment-Dependent Interatomic Potential for covalent bonding, Lakeview Conference on Computational Materials Science, Morgantown, WV, June 9, 2001.

91. Renormalization of the order-parameter distribution in percolation, New England Complex Fluids Conference, MIT, September 22, 2000.

    
    

    Invited Seminars and Colloquiua

92. Learning the physics of Li-ion batteries from images, Chemical Engineering Colloquium, Technical University of Delft, Netherlands, Jan. 8, 2024.

93. Learning the physics of Li-ion batteries from images, Chemical Engineering Colloquium, Penn State, Nov. 18, 2023.

94. Learning the physics of Li-ion batteries from images, Engineering Physics Seminar, Ecole Polytechnique, Montreal, Canada, Nov. 9, 2023.

95. Learning the physics of Li-ion batteries from images, Harvard Engineering Colloquium, Jan. 23, 2023.

96. Learning chemical physics from images, Chemistry Seminar, Oxford University, UK, March 8, 2022.

97. Learning Battery Physics from Images, Chemical Engineering Colloquium, Stanford University, Nov. 29, 2021.

98. Beyond six feet: A guideline to limit indoor airborne transmission of COVID-19, Physics Colloquium, Brandeis Univerity, Nov. 9, 2021.

99. Learning Battery Physics from Images, Materials Science and Engineering, U. Texas Arlington, Oct 15, 2021 (virtual).

100. Chemical engineering science at Saint Gobain Research North America, Gay Lussac Days, Saint Gobain, Northboro, MA, Sept. 8, 2021. (virtual)

101. A guideline to limit indoor airborne transmission of COVID-19, Princeton Plasma Physics Laboratory, Aug. 31, 2021. (virtual)

102. Learning Battery Non-equilibrium Thermodynamics from Images, ATOMS Seminar, UFRJ Brazil, July 21, 2021. (virtual)

103. Beyond six feet: A guideline to limit indoor airborne transmission of COVID-19, Physics Colloquium, Harvard Univerity, April 19, 2021. (virtual)

104. Beyond six feet: A guideline to limit indoor airborne transmission of COVID-19, Physical Mathematics Seminar, MIT, March 2, 2021. (virtual)

105. Learning Battery Physics from Images, Helmholtz Institute Ulm, Germany, Feb. 9, 2021. (virtual)

106. Beyond six feet: A guideline to limit indoor airborne transmission of COVID-19, Cooperative Strategies, Feb. 4, 2021. (virtual)

107. Beyond six feet: A guideline to limit indoor airborne transmission of COVID-19, Chemical Engineering Seminar, U. Florida, Jan. 25, 2021. (virtual)

108. Beyond six feet: A guideline to limit indoor airborne transmission of COVID-19. Physical Mathematics Seminar, MIT (virtual), Dec. 2020.

109. Beyond six feet: A guideline to limit indoor airborne transmission of COVID-19, Mechanical Engineering Seminar, U. Illinois, Jan. 15, 2021. (virutal)

110. Beyond six feet: A guideline to limit indoor airborne transmission of COVID-19. Physical Mathematics Seminar, MIT (virtual), Dec. 2020.

111. Control of interfacial stability in electrochemical systems, Chemical Engineering Seminar, University of California, Santa Barbara, April 23, 2020.

112. Stability and kinetics of Li-ion battery interfaces, Materials Science seminar, Rice University, February 6, 2020.

113. Control of interfacial stability in electrochemical systems, Mechanical Engineering Seminar, University of Michigan, Jan. 14, 2020.

114. Stability and kinetics of Li-ion battery interfaces, University of Pavia, Italy, July 2, 2019.

115. Control of battery phase transformations by electro-autocatalysis, Chemical Engineering Seminar, University of Pisa, Italy, June 20, 2019.

116. Electrokinetic control of interfacial instabilities, Chemical Engineering Colloquium, Univ. California Berkeley, Feb. 20, 2019.

117. Shock Electrodialysis, Wetsus, Leeuwarden, Netherlands, Nov. 19, 2018.

118. Electrokinetic control of interfacial instabilities, Levich Institute Seminar, City University of New York, Nov. 5, 2018.

119. Electrokinetic control of interfacial instabilities, Program in Applied Mathematics Colloquium, Princeton University, Nov. 4, 2018.

120. Electrokinetic Control of Interfacial Instabilities, Georgia Tech Chemical Engineering Seminar, October 10, 18.

121. Electrokinetic control of interfacial instabilities, Energy Engineering Seminar, Imperial College London, July 19, 2018.

122. Electrokinetic control of interfacial instabilities, Physics Seminar, U. Cambridge, July 12, 2018 .

123. Electrokinetic control of interfacial instabilities, Energy and Environmental Engineering Seminar, Washington University, Saint Louis, Feb. 21, 2018.

124. Control of phase transformations in rechargeable batteries, Ecole Normal Superieure, Physics, Paris, France, July 19, 2017.

125. Control of phase transformations in rechargeable batteries, LCRS, Amiens, France, July 18, 2017.

126. Control of phase transformations in rechargeable batteries, Saint Gobain Recherche seminar, Paris, July 17, 2017.

127. Shock Electrochemistry, Saint Gobain Northboro R&D Center seminar, June 3, 2017.

128. Control of phase transformations in rechargeable batteries, Saint Gobain Northboro R&D Center seminar, May 12, 2017.

129. Shock Electrochemistry, Mechanical Engineering Seminar, Tufts University, Oct. 13, 2016.

130. Physics of Next Generation Batteries, Stanford Energy Seminar, April 7, 2016.

131. Shock Electrodialysis, Environmental Engineering Seminar, Stanford University, February 5, 2016.

132. Nonequilibrium thermodynamics of Li-ion batteries, Materials Science and Engineering Colloquium, Stanford University, Nov. 13, 2015.

133. Extreme electrochemistry in porous media, CREE, Cavaillon, France, June 29, 2015.

134. Control of dendritic growth in electrodeposition, ESPCI, Gulliver seminar, Paris, June 15, 2015.

135. Some new concepts in batteries, PRISM Seminar, Princeton University, April 1, 2015.

136. Coating and wetting of porous media, Saint Gobain R&D Center, Northboro, MA. Dec. 18, 2014.

137. Nonequilibrium thermodynamics of Li-ion batteries, WPI, Mathematics Seminar, Sept. 11, 2014.

138. Extreme Electrochemistry, Saint Gobain Recherche, Paris, July 12, 2014.

139. Extreme Electrochemistry, ESPCI, Paris, Theoretical Physical Chemistry Seminar, July 7, 2014.

140. Shock electrodialysis and electrodeposition, RPI, Chemical Engineering Seminar, May 14, 2014.

141. Extreme Electrochemistry, Chemical Engineering Colloquium, MIT, March, 2014.

142. Nonequilibrium thermodynamics of Li-ion batteries, Solid Mechanics Seminar, Brown University, Oct. 28, 2013.

143. Nonequilibrium thermodynamics of Li-ion batteries, Chemical Engineering Seminar, Universit of Michigan, Oct. 8, 2013.

144. Reliability of Li-ion batteries, IEEE Boston Reliability Seminar, Lincoln Lab, 9/11/13.

145. Nonequilbrium thermodynamics of Li-ion batteries, CM4 webinar, PNNL, 7/15/13.

146. Nonequilbrium thermodynamics of Li-ion batteries, CRIBB Seminar, MIT, May 3, 2013.

147. Driven phase separation in Li-ion batteries, Applied Physics Colloquium, Harvard University, March 8, 2013.

148. Phase separation dynamics in Li-ion batteries, Condensed Matter Seminar, U. Mass. Amherst, Sept. 13, 2012.

149. Phase separation dynamics in Li-ion battery nanoparticles, Materials Science Seminar, Stanford University, July 31, 2012.

150. Overlimiting current and shock electrodialysis in porous media, Fluid Mechanics Seminar, Stanford University, July 30, 2012.

151. Overlimiting current and shock electrodialysis in porous media, Gulliver Seminar, ESPCI, Paris, July 3, 2012.

152. Driven phase separation under confinement: Water sorption in nanopores and lithium intercalation in nanocrystals, Microfluidics Seminar, ESPCI, Paris, June 26, 2012.

153. Shock electrodialysis in microchannels and porous media, Chemical Engineering Seminar, California Institute of Technology, July 8, 2011.

154. Shock electrodialysis, Chemical Engineering Seminar, University of California, Santa Barbara, July 6, 2011.

155. Desalination shocks in microstructures, Mechanical Engineering Seminar, MIT, March 15, 2011.

156. Induced-charge electrokinetic phenomena, Mechanical Engineering Seminar, Brown University, Oct. 19, 2010.

157. Phase transformation dynamics in Li-ion batteries, Gulliver Seminar, ESPCI, Paris, France, July 5, 2010.

158. Non-equilibrium thermodynamics of Li-ion batteries, PRISM Seminar, Princeton Institute for the Science and Technology of Materials, Princeton University, Mar. 31, 2010.

159. Induced-charge electrokinetic phenomena, Chemical Engineering Seminar, North Carolina State University, Jan. 19, 2010.

160. Induced-charge electrokinetic phenomena, Theoretical and Applied Mechanics Seminar, Northwestern University, Feb. 5, 2009.

161. Induced-charge electrokinetic phenomena, Theoretical Mechanics Seminar, Cornell, Oct. 15, 2008.

162. Induced-charge electrokinetic phenomena, Institute of Computational and Mathematical Engineering, Stanford University, Oct. 6, 2008.

163. Induced-charge electrokinetic phenomena, Applied Mathematics Seminar, Berkeley, Oct. 3, 2008.

164. Stochastic plasticity in granular flow, PMMH, ESPCI, Paris, France, April 4, 2008.

165. Induce-charge electrokinetic phenomena, LadHyX, Ecole Polytechnique, Paris, France, March 20, 2008.

166. Stochastic plasticity in granular flow, Fac. de Fisica, Univ. de Sevilla, Spain, March 7, 2008.

167. Induced-charge electrokinetic phenomena, Dpto. de Electronica y Electromagnetismo, Facultad de Fisica, Universidad de Sevilla, Spain, Feb. 29, 2008.

168. Multiscale modeling of dense granular flow, Theoretical Physics Seminar, CEA, Saclay, France, Dec. 13, 2007.

169. Mathematical modeling of rechargeable batteries, CNRS Gulliver, ESPCI, Paris, France, Sept. 24, 2007.

170. Induced-charge electro-osmosis, Micro/Nanosystems Seminar Series, Research Laboratory for Electronics, MIT, Sept. 13, 2007.

171. Induced-charge electro-osmosis, Condensed Matter Theory Seminar, Harvard University, May 3, 2007.

172. The dynamics of electrolytes at large voltages, Lawrence Livermore National Laboratory, March 29, 2007.

173. Nonlinear electrokinetics at large voltages, Fluid Dynamics Seminar, Danish Techical University, Copenhagen, Denmark, October 23, 2006.

174. Electrokinetics at large induced voltages, Chemical Engineering Seminar, University of Pennsylvania, August 12, 2006.

175. Induced-charge electro-osmosis, Mechanical Engineering Seminar, Stanford University, May 20, 2006.

176. Induced-charge electro-osmosis, Mechanical Engineering Seminar, University of Pennsylvania, April 28, 2006.

177. Induced-charge electro-osmosis and electrophoresis, Mechanical Engineering Seminar, University of Illinios, March 30, 2006.

178. Induced-charge electro-osmosis and electrophoresis, Applied Mathematics Seminar, UCLA, March 9, 2006.

179. Some new applications of conformal mapping, Computations in Science Seminar, University of Chicago, Jan. 18, 2006.

180. Induced-charge electro-osmosis and electrophoresis, Applied Mathematics Colloquium, Northwestern University, Jan. 16, 2006.

181. Some new applications of conformal mapping, Applied Mathematics Colloquium, MIT, Dec. 12, 2005.

182. Stochastic conformal maps and transport-limited aggregation, Statistics Seminar, Harvard University, Nov. 7, 2005.

183. Random-packing dynamics in granular flow, Physics Colloquium, University of Pennsylvania, Oct. 5, 2005. (slides)

184. Induced-charge electro-osmosis and electrophoresis, Physical Mathematics Seminar, MIT, Sept. 20, 2005.

185. Induced-charge electro-osmosis: Theory and microfluidic applications. Mechanical Engineering Seminar, Stanford University, June 7, 2005.

186. The dynamic of random packings: Granular flow in pebble-bed nuclear reactors, Mechanical Engineering Seminar, Stanford University, April 7, 2005.

187. Transport and aggregation in two dimensions, Ergodic Theory and Statistical Mechanics Seminar, Dept. of Mathematics, Princeton University, March 31, 2005.

188. Dynamics of random packings in granular flow, Physics Colloquium, MIT, March 3, 2005.

189. Dynamics of random packings in granular flow, Mechanics Seminar, MIT, Nov. 29, 2004.

190. Cooperative diffusion in dense granular flow, Physics Colloquium, University of Massachusetts, Amherst, Nov. 18, 2004.

191. Cooperative diffusion in dense granular flow, Nonlinear and Complex Systems Seminar, Duke University, Nov. 16, 2004.

192. Induced-charge electro-osmosis: theory and microfluidic applications, Chemical Engineering Seminar, University of Minnesota, Sept. 27, 2004.

193. Stochastic conformal mapping and transport-limited aggregation, Institute for Mathematics and Its Applications, University of Minnesota, Sept. 8, 2004.

194. Induced-charge electro-osmosis, Microfluidics Seminar, Lawrence Livermore National Laboratory, June 2, 2004.

195. Induced-charge electro-osmosis, Mechanical Engineering Seminar, Stanford University, May 27, 2004.

196. A theory of cooperative diffusion in dense granular flows, Applied Mechanics Seminar, Harvard University, April 21, 2004.

197. A theory of cooperative diffusion in dense granular flows, Mechanical Engineering Colloquium, California Institute of Technology, Jan. 13, 2004.

198. Transport-limited aggregation in two dimensions, Applied Math Colloquium, California Institute of Technology, Jan. 12, 2004.

199. Transport-limited aggregation in two dimensions, Applied Mathematics Colloquium, Princeton University, Nov. 3, 2003.

200. Particle dynamics in granular drainage, Physics Seminar, Charles University, Prague, Czech Republic, Jan 6, 2003.

201. Induced-charge electro-osmosis: theory and microfluidic applications, Microfluidics Seminar, ESPCI, Paris, France, Dec. 11, 2002.

202. Conformal mapping of advection-diffusion and some other non-Laplacian transport phenomena, Statistical Physics Seminar, Ecole Normale Superieure, Paris, Dec 4, 2002.

203. Conformal mapping of advection-diffusion and some other non-Laplacian transport phenomena, Applied Mathematics Seminar, DAMTP, Cambridge, UK, Nov 29, 2002.

204. Particle dynamics in granular drainage, British Petroleum Institute, Cambridge, UK, Nov 28, 2002.

205. Particle dynamics in granular drainage, Materials Seminar, Oxford, UK, Nov 25, 2002.

206. Conformal mapping of advection-diffusion and some other non-Laplacian transport phenomena, Mathematics Seminar, Imperial College, London, UK, Nov 20, 2002.

207. Particle dynamics in granular drainage, Chemical Engineering Seminar, University College London, Nov 19, 2002.

208. Induced-charge electro-osmosis: theory and microfluidic applications, Mechanics Seminar, Mechanical Engineering, MIT, May 13, 2002.

209. Induced-charge electro-osmosis: theory and microfluidic applications, Materials Research Seminar, University of Chicago, January 21, 2002.

210. Electrophoresis of conductors: theory and microfluidic applications , Physical Mathematics Seminar, MIT, November 6, 2001.

211. The fractal central limit theorem in percolation, Physics Colloquium, Clark University, October 11, 2001.

212. Electrophoresis of conductors: theory and microfluidic applications, Applied Mathematics Lab Seminar, Courant Institute of Mathematical Sciences, NYU, October 4, 2001.

213. Defects, surfaces, and phase transitions of amorphous silicon Materials Seminar, Princeton Materials Institute, October 3, 2001.

214. The fractal central limit theorem in percolation, Applied Mathematics Colloquium, Princeton University, October 1, 2001.

215. Atomistic modeling of amorphous silicon: Defects, surfaces, and phase transitions, Materials Science Seminar, Oxford University, June 18, 2001.

216. Percolation and renormalization, Materials Science Seminar, Oxford University, June 18, 2001.

217. Percolation and renormalization, British Petroleum Institute, Cambridge, England, June 12, 2001.

218. Electrophoresis of conductors, Fluid Mechanics Seminar, DAMTP, University of Cambridge. June 5, 2001.

219. Percolation and renormalization, Applied Mathematics Seminar, DEAS, Harvard University, May 23, 2001.

220. Renormalization groups and limit theorems in percolation, Mechanical Engineering Seminar, MIT, March 19, 2001.

221. Renormalization groups and limit theorems in percolation, Applied Mathematics Colloquium, California Institute of Technology, January 8, 2001.

222. Renormalization groups and limit theorems in percolation, Applied Mathematics Colloquium, University of Arizona, April 21, 2000.

223. Asymptotic theory of diffuse charge, Condensed Matter Physics Seminar, University of Arizona, April 20, 2000.

224. Theory of pricing "risky" financial derivatives, Mathematical Modeling Seminar, University of Arizona, April 20, 2000.

225. A limit theorem for subcritical percolation, Mathematical Physics Seminar, University of Arizona, April 19, 2000.

226. Finite-size scaling in percolation, Civil Engineering Seminar, MIT, February 11, 2000.

227. Renormalization groups and central limit theorems in percolation, Applied Mathematics Seminar, Courant Institute of Mathematical Sciences, NYU, Oct. 1, 1999.

228. Renormalization groups and central limit theorems in percolation, Applied Mathematics Colloquium, MIT, Sept. 27, 1999.

229. The largest cluster in subcritical percolation, Lab. Bordelais de Recherche en Informatique, Talence, France, June 18, 1999.

230. The largest cluster in subcritical percolation, Centre de Recherche Paul Pascal, Pessac, France, June 10, 1999. (abstract in French)

231. Diffuse charge and limiting current in dilute, binary electrochemical cells, Centre de Recherche Paul Pascal, Pessac, France, June 5, 1999.

232. The largest cluster in subcritical percolation, Condensed Matter Theory Seminar, Dept. of Physics, Harvard University, April 29, 1999.

233. The largest cluster in subcritical percolation, Microsoft Research, Redmond, WA, March 10, 1999.

234. Diffusion-limited corrosion of porous solids, Applied Mathematics Colloquium, University of Washington, March 9, 1999.

235. The Environment-Dependent Interatomic Potential: theory and application to amorphous silicon, Materials Modeling Seminar, Dept. of Nuclear Engineering, M.I.T., May 22, 1998.

236. The Environment-Dependent Interatomic Potential for silicon, Materials Science Seminar, Harvard University, May 7, 1998.

237. Mobius series inversion rediscovered, Mathematical Physics Seminar, Dept. of Mathematics, California Institute of Technology, March 18, 1998.

238. Mobius series inversion rediscovered, Physical Mathematics Seminar, Dept. of Mathematics, M.I.T., February 17, 1998.

239. Mechanical and thermodynamic properties of silicon at the atomic level, Theoretical and Applied Mechanics Seminar, Czech Academy of Sciences, Prague, Czech Republic, August 7, 1997.

240. Effective equations for electrodeposition, Condensed Matter Theory Seminar, Dept. of Physics, Harvard University, November 21, 1996.

241. Virtual silicon, Department of Energy Computational Science Graduate Fellowship Program, Baltimore, MD, August, 1995.

242. Scalable parallel molecular dynamics for inhomogeneous systems, Thinking Machines Corporation, Cambridge, MA, September, 1994.

     
     

     Contributed Talks at Conferences

     (Not including many conference talks and posters given by collaborators and students.)

243. Control of phase separation by electro-autocatalysis and thermodynamic stability of driven, open systems, ISE Annual Meeting, Providence, RI, Aug. 2017.

244. Phase transformation dynamics in LiFePO4 nanoparticles, Electrochemical Society Meeting, Las Vegas, Oct 12, 2010.

245. Phase transformation dynamics in LiFePO4 nanoparticles, AIChE Annual Meeting, Salt Lake City, Nov. 9, 2010.

246. Mathematical modeling of Li-ion batteries: Paradigm shift, AIChE Annual Meeting, Nashville, TN, Nov. 12, 2009.

247. Anisotropic electro-osmotic flow over superhydrophobic surfaces, AIChE Annual Meeting, Nashville, TN, Nov. 11, 2009.

248. Anisotropic surface-reaction-limited phase-transformation dynamics in LiFePO4 (poster), MRS Fall Meeting, Boston, Nov 29, 2007.

249. Electrolyte dependence of AC electro-osmosis (poster), MicroTAS, Paris, France Oct. 2007.

250. A theory of electrokinetics at highly charged surfaces, ELKIN06 International Meeting on Electrokinetics, Nancy, France, June 2006.

251. Exact solutions of the Navier-Stokes equations having steady vortex structures (talk and poster entry in the Gallery of Fluid Motion), APS Division of Fluid Dynamics Meeting, Chicago, IL, Nov. 21, 2005. (SLIDES: talk - 3.4MB, poster - 1.3MB)

252. A theory of cooperative diffusion in dense granular flow (poster), Workshop on Modeling Soft Materials, IMA, Minnesota, Sept 27, 2004.

253. Induced-charge electro-osmosis: theory and microfluidic applications, International Conference on Electrokinetics, Carnegie Mellon University, June 15, 2004.

254. Particle dynamics in gravity-driven, dense granular flows, Granular Materials Workshop, Clark University, July 18, 2003.

255. Dynamics of conformal maps for a class of non-Laplacian growth phenomena, APS Condensed Matter Physics, Austin, TX, March 4, 2003.

256. Electrophoresis of conductors: theory and microfluidic applications, APS Division of Fluid Dynamics Meeting, San Diego, November 18, 2001.

257. Recent developments with the Environment-Dependent Interatomic Potential, APS Computational Physics Meeting, MIT, June 25, 2001.

258. Mass distributions of incipient infinite clusters in percolation, APS Computational Physics Meeting, MIT, June 26, 2001.

259. Mass distributions of incipient infinite clusters in percolation, Rutgers Statistical Mechanics Conference, May 7, 2001.

260. Renormalization of the order-parameter distribution in percolation, Greater Boston Area Statstical Physics Meeting, Brandeis University, October 14, 2000.

261. Asymptotic Analysis of Diffuse Charge Layers in Electrochemistry (poster), Nonlinear Mathematics 2000, Courant Institute, NYU, May 31, 2000.

262. Diffuse charge and limiting current in dilute, binary micro-electrochemical cells (poster), 4th Itzykson Meeting, Saclay, France, June 23, 1999.

263. The structure of surfaces and voids in amorphous silicon, M.R.S. Fall Meeting, Boston, MA, December 3, 1998.

264. Simulations of phase transitions in silicon with the Environment-Dependent Interatomic Potential, A.P.S. March Meeting, Los Angeles, CA, March 20, 1998.

265. The Enviroment-Dependent Interatomic Potential applied to silicon disordered structures and phase transitions M.R.S. Fall Meeting, Boston, MA, December 1, 1997.

266. The Environment-Dependent Interatomic Potential for bulk silicon (poster), Workshop on Multiscale Materials Modeling, M.I.T., September 15, 1997.

267. Interatomic potential for silicon condensed phases and bulk defects, A.P.S. March Meeting, Kansas City, MO, March 20, 1997.

268. Ab initio cluster potentials for materials simulation, A.P.S. March Meeting, St. Louis, MO, March, 1996.

269. Interatomic potentials from inversion of ab initio cohesive energy curves, Workshop on Multiscale Methods in Materials Modelling, M.I.T., February, 1996.

270. Derivation of interatomic potentials from inversion of ab initio cohesive energy curves (poster), M.R.S. Fall Meeting, Boston, MA, December, 1995.

271. Method for imposing conditions at irregular boundaries using a regular grid, S.I.A.M. Conference on Nonlinear Mathematics and Computation, S.U.N.Y. - Stony Brook, NY, April, 1993.

272. Method for imposing conditions at irregular boundaries using a regular grid, Arizona Fluid Mechanics Conference, Tucson, AZ, February, 1992.

M.R.S. = Materials Research Society
A.P.S. = American Physical Society
S.I.A.M. = Society for Industial and Applied Mathematics

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