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Invited Presentations

Journal Publications | Book Chapters | Conference Proceedings | Invited Presentations

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P162. L. Shi, “Impacts of Mingo’s Theories on Thermal Transport Measurements of Materials,” MRS Spring Meeting, April 9, 2025

P161. L. Shi, “Ultrahigh-thermal Conductivity Semiconductors and Semimetals,” Walker Department of Mechanical Engineering, University of Texas at Austin, October 4, 2024

P160. L. Shi, “Unconventional Approaches to High or Tunable Thermal Conductivity in Solids,” MRS Spring Meeting, MRS Distinguished Invited Speaker, April 24, 2024

P159. L. Shi, “Ultrahigh-thermal Conductivity Semiconductors and Semimetals,” Alan Chapman Lectureship, Department of Mechanical Engineering, Rice University, April 10, 2024

P158. L. Shi, “Ultrahigh-thermal Conductivity Semiconductors and Semimetals,” Department of Mechanical and Aerospace Engineering, University of California at San Diego, October 20, 2023

P157. L. Shi, “Ultrahigh-thermal Conductivity Semiconductors and Semimetals,” Distinguished Departmental Seminar, Department of Mechanical Engineering, University of Houston, August 24, 2023

P156. H. Lee, S. Sullivan, A. Weathers, L. Shi, “Frequency-dependent Spin Caloritronic Phenomena in a Metal-Magnetic Insulator Heterostructure,” Spin Caloritronics XI, University of Illinois at Urbana-Champaign, May 25, 2022

A155. M. M. Sadeghi, Y. Huang, C. Lian, F. Giustino, E. Tutuc, A. H. MacDonald, T. Taniguchi, K. Watanabe, L. Shi,“Electron-phonon Interactions and the Wiedemann-Franz Law in Graphene,” MRS Spring Meeting, May 10, 2022

P154. S. Sullivan, H. Lee, A. Weathers, L. Shi, “Phonon-mediated Unidirectional Magnetoresistance in a Metal on an Insulator with Highly Nonequilibrium Magnons,” MRS Fall Meeting, December 6, 2021

P153. L. Shi, “Phonon Interactions with Dirac Fermions and Nonequilibrium Magnons,” Department of Materials Science & NanoEngineering, Rice University, October 28, 2021.

P152. L. Shi, “Atomic Scale Phonon Band Engineering of Semiconductors,” TUBA World Conference on Energy Science and Technology (TUBA WCEST-2021), the Turkish Academy of Sciences, August 11, 2021

P151. L. Shi, “Phonon Interactions with Dirac Fermions and Nonequilibrium Magnons,” Condensed Matter Physics Seminar, University of California at San Diego, May 5, 2021.P150. Y.Y. Zhou, Q. Jia, C. Li, G. Gamage,Z. Ren, D. Broido L. Shi, “Peak Thermal Conductivity Measurements of Bulk Boron Arsenide Crystals and Individual Carbon Nanotubes,” MRS Spring Meeting, April 19, 2021

P150. Y.Y. Zhou, Q. Jia, C. Li, G. Gamage,Z. Ren, D. Broido L. Shi, “Peak Thermal Conductivity Measurements of Bulk Boron Arsenide Crystals and Individual Carbon Nanotubes,” MRS Spring Meeting, April 19, 2021

P149. D. Cahill, S. Graham, L. Shi, H. Wang “The Impact and Future of Thermal Metrology,” MIT International Colloquia on Thermal Innovations, February 3, 2021

P148. L. Shi, “Atomic Scale Phonon Band Engineering of Semiconductors,” Department of Materials Science and Engineering, Texas A&M University, November 9, 2020

P.147. G. Coloyan, B. Smith, K. Parrish, F. Wen, E. Fleming, K. Jarvis, A. J. H. McGaughey, E. Tutuc, L. Shi, “Thermal Conductivities and Phonon Mean Free Paths of Silicon Germanium Nanowires of Different Lengths,” MRS Fall Meeting, Boston, December 2, 2019.

146. L. Shi, “Extraordinary Heat Transport by Phonons, Electrons, and Spins in Quantum Materials, Harvard University, November 15, 2019

145. L. Shi, “Extraordinary Heat Transport by Phonons, Electrons, and Spins in Quantum Materials, Department of Mechanical Engineering, Louisiana State University, November 8, 2019

144. L. Shi, “Heat Transport Mediated by Phonons, Electrons, and Spins in Low-Dimensional Systems,” Conference on Nanophononics, Bridging Statistical Physics, Molecular Modeling and Experiments, International Centre for Theoretical Physics, Trieste, Italy, June 26, 2019

143. L. Shi, “Lattice and Electronic Thermal Transport in h-BN/graphene/h-BN Heterostructures, Boron Arsenide Bulk Crystals, and Silicon Germanium Nanowires,” MRS Spring Meeting, Phoenix, March 24, 2019

142. L. Shi, “Electronic Thermal Transport in h-BN/Graphene/h-BN Heterostructures,” APS March Meeting, Boston, March 7, 2019

141. L. Shi, “Optical Generation and Detection of Non-equilibrium Phonons and Magnons,” ASME International Mechanical Engineering Congress and Exposition, Pittsburg, November 12, 2018

140. L. Shi, “Recent Progress in High-Thermal Conductivity Materials Research,” IEEE Nanotechnology Materials and Devices Conference, Portland, October 15, 2018

139. L Shi, “Recent Progresses and Outstanding Questions in Heat Conduction mediated by Phonons, Electrons, and Magnons,” The Sixteenth International Heat Transfer Conference, Beijing, August 11, 2018

138. L. Shi, “Materials with Extraordinary Heat and Spin Transport Properties,” Department of Mechanical and Aerospace Engineering, University of California at Los Angeles, June 19, 2018.

137. D. Choi, M. M. Sadeghi, B. Smith L. Shi, “Recent Experiments with Scanning Thermal and Thermoelectric Microscopy ,” MRS Spring Meeting, Phoenix, April 3, 2018

136. L. Shi, “Recent Experiments on High Thermal Conductivity Materials,” MRS Fall Meeting, Boston, November 27, 2017

135. L. Shi, “Recent Experiments on High Thermal Conductivity Materials,” 3M Innovation Center, Austin, August 23, 2017

134. L. Shi, “Recent Experiments on Materials with Unusual Thermal, Thermoelectric, and Spin Caloritronic Properties,” Center for Nanoscale Materials, Argonne National Laboratory, July 26, 2017.

133. L. Shi, “Inelastic Light Scattering Measurements of Phonon and Magnon Transport in Materials with Unusual Thermal Properties,” Keynote Presentation, 9th US-Japan Joined Seminar on Nanoscale Transport Phenomena, Tokyo, Japan, July 5, 2017.

132. L. Shi, “Emerging Materials with Unusual Thermal, Thermoelectric, and Spin Caloritronic Properties,” Department of Engineering Mechanics, Tsinghua University, June 23, 2017

131. L. Shi, “Probing Energy Carrier Transport and Coupling in Low-Dimensional and Complex Structures” MRS Spring Meeting, Phoenix, Arizona, April 19, 2017.

130. L. Shi, “Searching for Materials with Extraordinary Thermal Properties,” Plenary Lecture, The 6th International Symposium on Micro and Nano Technology, Fukuoka, Japan, March 21, 2017.

129. L. Shi, “Recent Progresses in Nanoscale Thermal Transport Measurements of Emerging Materials,” University of Tokyo, Japan, March 15, 2017.

128. L. Shi, “Emerging Materials with Unusual Thermal, Thermoelectric, and Spin Caloritronic Properties,” National Institute for Materials Science, Tsukuba, Japan, March 14, 2017.

127. L. Shi, “Weakly Coupled Transport in Some Low-Dimensional and Complex Materials,” SHINES Workshop on Spins and Heat, University of California at Riverside, January 13, 2017.

126. L. Shi, “Probing Thermoelectric Transport in Organic and Hybrid Layered Materials,” MRS Fall Meeting, Boston, November 30, 2016.

125. L. Shi, “Probing Highly Non-Equilibrium Energy Carrier Transport in Low-Dimensional and Incommensurate Structures,” Plenary Lecture, The 9th International Symposium on Heat Transfer, Beijing, August 16-18, 2016.

124. L. Shi, “Diffusive, Ballistic, and Hydrodynamic Thermal Transport in Two-Dimensional Materials,” Gordon Research Conference on Two Dimensional Electronics Beyond Graphene, Mount Holyoke College, South Hadley, Massachusetts, June 5, 2016

123. L. Shi, “Probing Highly Non-equilibrium Energy Carrier Transport in Simple and Complex Materials,” Department of Materials Science & NanoEngineering, Rice University, February 4, 2016

122. L. Shi, “Probing Thermal and Thermoelectric Transport in Organic Nanofibers and Thin Films,” International Conference on Organic Thermoelectrics, Kyoto, Japan, January 18-20, 2016

121. L. Shi, “Probing Intrinsic and Interfacial Thermal and Thermoelectric Transport in Nanowires and Two-Dimensional Materials,” MRS Fall Meeting, Boston, November 30, 2015

120. L. Shi, “Probing Thermal and Thermoelectric Transport in Nanostructures and Complex Crystals,” Heater School in Thermoelectrics, University of Toronto, November 9, 2015

119. L. Shi, “Thermal Transport Properties and Thermal Management Prospect of Two-dimensional Layered Materials,” International Graphene Innovation Conference, Qingdao, China, October 29, 2015

118. L. Shi, “Engineering Thermal Energy Transport, Conversion, and Storage with Nanostructured and Complex Materials,” School of Engineering of Matter, Transport, and Energy, Arizona State University, October 23, 2015

117. L. Shi, “Phonon Dynamics in Simple and Complex Materials,” Department of Mechanical and Civil Engineering, California Institute of Technology, October 22, 2015

116. L. Shi, “Engineering Thermal Energy Transport, Conversion, and Storage with Nanostructured and Complex Materials,” Department of Mechanical Engineering and Material Science, University of Pittsburgh, October 1, 2015

115. L. Shi, “Probing Magnon and Phonon Dynamics with Inelastic Light and Neutron Scattering Experiments,” Workshop on Non-linear spin-heat interactions, Ohio State University, September 16, 2015

114. L. Shi, “Thermal Transport Properties and Thermal Management Prospects of Two-dimensional Layered Materials,” ASME International Electronic Packaging Technical Conference and Exhibition, San Francisco, CA, USA, July 7, 2015

113. L. Shi, “Engineering Thermal Energy Transport, Conversion, and Storage in Nanostructured and Complex Materials,” Northrop Grumman Aerospace Systems Nanotechnology Basic Research Workshop, Redondo Beach, CA, USA, July 6, 2015

112. L. Shi,  “Composite Phase Change Materials with Ultrathin Graphite Foams for Thermal Energy Storage and Thermal Management,” Workshop on Thermal Management for Future Vehicles, Toyota Research Institute of North America, Ann Arbor, Michigan, June 9, 2015

111. L. Shi,  “Probing Thermal and Thermoelectric Transport in Nanostructures and Complex Crystals,” Status Meeting of the German Thermoelectric Priority Program, Bad Aussee, Austria, February 23, 2015

110. L. Shi,  “Composite Phase Change Materials with Ultrathin Graphite Foams for Thermal Energy Storage and Thermal Management,”Gordon Research Conference on Micro and Nanoscale Phase Change Heat Transfer, Galveston, January 13, 2015

109. L. Shi,  “Lattice Dynamics and Thermoelectric Transport in Higher Manganese Silicides with Quasi-One Dimensional Substructures,” MRS Fall 2014 Meeting, December 3, 2014

108. L. Shi,  “Evaluating Broader Impacts of Nanoscale Thermal Transport Research,” ASME International Mechanical Engineering Congress and Exposition, Montreal, Canada, November 18, 2014

107. L. Shi, “Engineering Thermal Energy Transport, Conversion, and Storage with Nanostructured and Complex Materials,” Department of Mechanical and Aerospace Engineering, Rutgers, The State University of New Jersey, November 5, 2014

106. L. Shi, “Engineering Thermal Energy Transport, Conversion, and Storage with Nanostructured and Complex Materials,” Department of Mechanical Engineering, University of Minnesota, September 17, 2014

105. L. Shi, “Thermal and Thermoelectric Properties and Applications of Two-Dimensional Materials beyond Graphene,” 2D Science and Technology Applications: International Technical Exchange, Army Research Laboratory, Adelphi, MD, USA, August 12-13, 2014

104. L. Shi, “Electronic Thermal Conductivity of Bi2-xSbxTe3 and PEDOT Thin Layers,” International Conference on Thermoelectrics, Nashville, TN, USA, July 6-10, 2014

103. L. Shi, “Evaluating Impact and Disseminating Findings of Nanoscale Thermal Transport Research,” Closing Remarks, 8th US-Japan Joint Seminar on Nanoscale Transport Phenomena, Santa Cruz, CA, USA, July 13-16, 2014

102. L. Shi, “Twisting Phonons in Complex Crystals with Quasi-One-Dimensional Substructures,” Keynote Presentation, 8th US-Japan Joint Seminar on Nanoscale Transport Phenomena, Santa Cruz, CA, USA, July 13-16, 2014

101. L. Shi, “Phonons in Higher Manganese Silicide of a Complex Nowotny Chimney Ladder Structure,” The 2nd International Conference on Phonons and Thermal Energy Science, Shanghai, May 31, 2014

100. L. Shi, “Open Questions on Experimental Phonon Transport Studies of One-dimensional and Two-dimensional Materials,” The 2nd International Conference on Phonons and Thermal Energy Science, Shanghai, May 27, 2014

99. L. Shi, “Engineering Thermal Energy Transport, Conversion, and Storage with Two-Dimensional Materials,” 247th ACS National Meeting, Dallas, March 19, 2014

98.L. Shi, “’Thermal and Thermoelectric Transport in Two-Dimensional Materials and Devices beyond Graphene,” APS March Meeting, Denver, March 5, 2014

97. L. Shi, “Heat Conduction at the Nanoscale: Current Understanding and Future Opportunities,” Panel on Nanoscale Heat Transfer: Recent Advances and Emerging Challenges, ASME Summer Heat Transfer Conference and 75th Anniversary of the ASME Heat Transfer Division, Minneapolis, July14-19, 2013

96. L. Shi, “Thermal Transport in Graphene and other Two-Dimensional Materials,” Harrington Symposium on Next-Generation Materials for Energy Generation, Storage, and Transport, University of Texas at Austin, May 9, 2013.

95. L. Shi, “Thermal Transport in Graphene and other Two-Dimensional Materials,” Department of Mechanical Engineering, Southern Methodist University, April 12, 2013

94. L. Shi, “Phonon Transport and Thermoelectricity in Two-Dimensional Materials,” MRS Spring Meeting,  San Francisco, April 3, 2013

93. L. Shi, “Thermal Transport in Graphene and other Two-Dimensional Materials”, Center for Nanotechnology, University of Washington at Seattle, February 26, 2013

92. L. Shi, “Thermal Transport in Graphene and other Two-Dimensional Materials”, Department of Mechanical Engineering and Applied Mechanics, University of Pennsylvania, February 12, 2013

91. L. Shi, “Thermal and Thermoelectric Transport in Two-Dimensional Materials”, IOTEC 2013: Harvesting Electricity from Heat – Inorganic and Organic Thermoelectrics, Linköping University, Sweden, January 24, 2013

90. L. Shi, ” Bridging Nanoscale Transport Physics and Thermal Energy Engineering”, The Academy of Medicine, Engineering, and Science of Texas 10th Annual Conference—Probing the Depths: under the Sea and into the Brain, Dallas, January 17, 2013

89. L. Shi, “Thermal and Thermoelectric Transport in Two-Dimensional Materials”, Workshop on Micro-nanoscale Fabrication and Energy Transport in Nanostructures, Southest University, Nanjing, January 3-4, 2013

88. L. Shi, “Thermal Transport in Two-Dimensional Building Blocks and Their Three-Dimensional Architectures”, ASME International Mechanical Engineering Congress and Exposition, Houston, November 14, 2012

87. L. Shi, “Thermal and Thermoelectric Transport in Two-Dimensional Materials,” Department of Mechanical, Aerospace and Nuclear Engineering and Department of Materials Science and Engineering, Rensselaer Polytechnic Institute, September 26, 2012.

86. L. Shi, “Thermal and Thermoelectric Transport in Two-Dimensional Materials,” 2D Materials Beyond Graphene Workshop, Ohio State University, Columbus, Ohio, August 7-8, 2012.

85. M. T. Pettes, I. Jo, H. X. Ji, Z. Yao, R. S. Ruoff, and L. Shi, “Combined Structure–Thermal Characterizations of Carbon Nanomaterials,” Keynote Presentation, The International Conference of Young Researchers on Materials, Singapore, July, 2012.

84. L. Shi, “Thermal Transport in Graphene and other Two-Dimensional Systems,” Plenary Lecture, Phonon School of the 15th International Workshop on Computational Electronics, Madison, Wisconsin, May 21, 2012.

83. L. Shi, “Thermal Transport and Thermoelectric Conversion in Nanostructured and Complex Materials,” Department of Mechanical Engineering, Carnegie Mellon University, April, 2012.

82. L. Shi, “Thermal Transport in Nanostructured Materials: Fundamental Limits and Engineering Approaches toward Macroscale Thermal Energy Conversion and Storage Applications,” MRS Spring Meeting, San Francisco, April, 2012.

81. L. Shi, “Thermoelectric Transport in Bismuth Telluride Nanoplates, Semiconductor Nanowires, and Silicide Nanocomposites: Effects of Low Dimensionality, Surface States, Interface Structures, and Crystal Complexity,” APS March Meeting, Boston, February 27, 2012.

80. L. Shi, “Thermal Transport in Graphene and Other Two-dimensional Systems,” 39th AVS Conference on the Physics and Chemistry of Surfaces and Interfaces, Santa Fe, New Mexico, USA, January 23, 2012.

79. L. Shi, “Thermal Transport and Thermoelectric Energy Conversion in Nanostructured and Complex Materials,” Department of Materials Science and Engineering, Tsinghua University, Beijing, December 15, 2011.

78. L. Shi, “Thermal Transport and Thermoelectric Conversion in Nanostructured and Complex Materials,” Department of Mechanical Engineering, University of Michigan, December 7, 2011.

77. L. Shi, “Thermal Transport and Coupling with Electrical and Mechanical Behaviors in Graphene and Complex Crystals,” Keynote Presentation, ASME International Mechanical Engineering Congress and Exposition, Denver, Colorado, November 14, 2011

76. L. Shi, “Thermal Transport in Nanostructured and Complex Materials,” Condensed Matter Seminar, Department of Physics, Purdue University, October 21, 2011.

75. L. Shi, “Thermal Transport and Thermoelectric Conversion in Nanostructured and Complex Materials,” Solid State Solar Thermal Energy Conversion Center, Massachusetts Institute of Technology, September 6, 2011.

74. L. Shi, “Phonon Transport and Energy Dissipation in Graphene,” XX International Materials Research Congress, Cancun, Mexico, June, 2011.

73. L. Shi, “Thermal and Thermoelectric Transport in Nanostructured and Complex Materials,” IBM Zurich Research Laboratory, June, 2011.

72. L. Shi, “Thermal and Thermoelectric Transport in Nanostructured and Complex Materials,” Department of Mechanical and Process Engineering, ETH Zurich, June, 2011.

71. L. Shi, “Thermal and Thermoelectric Transport in Low Dimensional and Nanostructured Materials,” CECAM Workshop on Thermal and Electronic Transport at the Nanoscale, Lugano, Switzerland, June, 2011.

70. L. Shi, “Thermal Properties of Silicide Nanostructures,” 2011 MRS Spring Meeting , San Francisco, April, 2011.

69. L. Shi, “Thermal Transport, Thermomechanical Coupling, and Thermoelectric Conversion in Nanostructured and Complex Materials,” ASME International Mechanical Engineering Congress and Exposition, Vancouver, BC, Canada, November, 2010.

68. L.  Shi, “Thermal Transport and Thermoelectric Energy Conversion in Nanostructured and Complex Materials,” New trends in Nonlinear Dynamics: Heat Control and Thermoelectricity” (HEAT 2010), Erice, Italy, October, 2010.

67. L. Shi, “”Thermal Transport and Thermoelectric Energy Conversion in Nanostructured and Complex Materials,” Vanderbilt Institute of Nanoscale Science and Engineering (ViNSE) Colloquium, Vanderbilt University, October 20, 2010

66. L. Shi, “Thermal and Thermoelectric Transport Characterization of Nanostructures,” IEEE Nanotechnology Materials and Devices Conference, Monterey, California, October, 2010.

65. L. Shi, “Thermal Transport in Supported and Suspended Graphene,” 16th U.S. National Congress of Theoretical and Applied Mechanics, State College, Pennsylvania, July 1, 2010.

64. L. Shi, “Thermal Energy Transport and Conversion in Nanostructured and Complex Materials,” Shanghai Institute of Ceramics, Chinese Academy of Science, June 8, 2010.

63. L. Shi, “Thermal Energy Transport and Conversion in Nanostructured and Complex Materials,” Department of Engineering Mechanics, Tsinghua University, China, June 4, 2010.

62. L. Shi, “Thermal Energy Transport and Conversion in Nanostructured and Complex Materials,” Department of Mechanical Engineering, Southeast University, China, June 3, 2010.

61. L. Shi, “Thermoelectric Transport in Nanostructures of Complex Crystals,” 29th International Conference on Thermoelectrics, Shanghai, China, May 30-June 2, 2010.

60. L. Shi, “Characterization of Thermoelectric Transport in Individual Nanostructures,” Shanghai International Workshop on High-Performance Ceramics-Thermoelectric Transport Fundamentals, Hangzhou, China, May 29-May 30, 2010.

59. L. Shi, “Thermal Energy Transport and Conversion in Graphene and Semiconductor Nanowires,” School of Mechanical and Aerospace Engineering, Seoul National University, Seoul, Korea, April 7, 2010

58. L. Shi, “Thermal Energy Transport and Conversion in Nanostructured and Complex Materials,” The Seventh US-Korea Forum on Nanotechnology- Nanotechnology Convergence in Energy, Seoul, Korea, April 5, 2010

57. L Shi, “Thermoelectric Transport in Nanostructures of Complex Crystals,” Wilhelm and Else Heraeus Seminar on Nanostructured Thermoelectric Materials, Germany, February 2010

56. L. Shi, “Thermal Energy Transport and Conversion in Graphene and Semiconductor Nanowires,” Solid State Physics Division, Lund University, Sweden, February 2010

55. L. Shi, “Thermal Energy Transport and Conversion in Graphene and Semiconductor Nanowires,” Texas Materials Institute and Center for Nano and Molecular Science and Technology, University of Texas at Austin, February 2010

54. L. Shi, “Thermal Transport and Thermoelectricity in Carbon Nanotubes, Graphene, and Complex Nanowires,” 3rd International Conference on One-Dimensional Nanomaterials, Atlanta, December 2009

53. L. Shi, “Thermoelectric Transport in Complex Nanowire Structures,” MRS Fall 2009 Meeting, Boston, December 2009

52. L. Shi, “Phonon Transport and Thermoelectric Conversion in Nanostructures,” Condensed Matter Seminar, Department of Physics, University of Texas at Austin, November, 2009

51. L. Shi, “Thermal Transport and Thermoelectric Energy Conversion in Nanomaterials,” Department of Electrical Engineering, Texas Tech University, November 2009

50. L. Shi, “Thermal Transport and Thermoelectric Energy Conversion in Nanomaterials,” Condensed Matter Seminar, Department of Physics, Case Western Reserve University, October, 2009

49. L. Shi, “Thermal Transport and Thermoelectricity in Nanomaterials,” Department of Mechanical Engineering, Hongkong Polytechnic University, July 2009

48. L. Shi, “Thermal Transport and Thermoelectricity in Nanomaterials,” Industrial Technology Research Institute, Hsinchu, Taiwan, July 2009

47. L. Shi, “The Role of Defects on Thermal and Thermoelectric Transport in Nanowires,” 2009 MRS Spring Meeting, San Francisco, April 16, 2009

46. L. Shi, “Thermal Transport and Thermoelectric Energy Conversion in Nanomaterials,” Woodruff School of Mechanical Engineering, Georgia Institute of Technology, March, 2009

45. L. Shi, “Thermoelectric Energy Conversion in Nanostructured Materials,” Woodruff School of Mechanical Engineering, Georgia Institute of Technology, November, 2008

44. L. Shi, “Thermoelectric Energy Conversion in Nanostructured Materials,” Department of Physics, Boston College, November 5, 2008

43. L. Shi, “Thermoelectric Characterization of Nanowires and Thin Films,” International Thermoelectric Conference, Oregon, August, 2008

42. L. Shi, “Thermal Transport and Thermoelectricity in Nanomaterials,” Sandia National Laboratories, Albuquerque, July 31, 2008

41. L. Shi, “Thermoelectric Transport in Nanowires and Nanostructured Thin Films,” 6th US-Japan Joint Seminar on Nanoscale Transport Phenomena – Science and Engineering, Boston, MA, July 13-16, 2008

40. L. Shi, “Thermal Transport and Thermoelectricity in Nanomaterials,” The 3rd Sino-US Nanomeeting, Beijing, June 17-18, 2008

39. L. Shi, “Thermal Transport and Thermoelectricity in Individual Nanowires, Nanotubes, and Nanostructured films,” The Second International Workshop on Transmission of Information and Energy in Nonlinear and Complex Systems (TIENCS), Singapore, June 4-6, 2008

38. L. Shi, “Thermal Transport and Thermoelectricity in Individual Nanowires, Nanotubes, and Nanostructured films,” 2nd Integration & Commercialization of Micro & Nanosystems International Conference & Exhibition, Hongkong, June 3-4, 2008

37. L. Shi, “Nanostructured Materials: From Thermoelectric Properties to Energy, Sensor, and Therapeutic Applications,” Materials Science and Engineering Graduate Program, University of Wisconsin-Madison, April 10, 2008

36. L. Shi, “Nanostructured Materials: From Thermoelectric Properties to Energy, Sensor, and Therapeutic Applications,” Daniel J. Epstein Department of Industrial and Systems Engineering, University of Southern California, November 8, 2007

35. L. Shi, “Thermal Transport and Thermoelectric Energy Conversion in Nanomaterials,” Office of Naval Research YIP Seminars, September, 2007

34. L. Shi, “Thermal Transport and Thermoelectric Energy Conversion in Nanomaterials,” NANO Summit 2007, Texas A&M University, August, 2007

33. M. T. Pettes, A. Mavrokefalos, F. Zhou, L. Shi, “Thermal and Thermoelectric Characterization of Nanotubes, Nanowires and Nanofilms using a Nanofabricated Test Platform,” 9th US National Congress on Computational Mechanics, San Francisco, July, 2007

32. L. Shi, “Thermal and Thermoelectric Measurements of Nanotubes, Nanowires, and Nanofilms,” New/Nano Materials for Thermal Management Panel, Thermal Challenges in Next Generation Electronic Systems II (THERMES II 2007), January 8, 2007

31. L. Shi, “Nanostructured Materials for Thermoelectric Energy Conversion and Sensor Applications,” Texas State University Nanomaterials Application Center Colloquium, December 11, 2006

30. L. Shi, “Combined Thermoelectric and Structure Characterizations of Nanowires and Thin Films,” Materials Science Institute, University of Oregon, October 6, 2006

29. L. Shi, “Combined Thermoelectric and Structure Characterizations of Thin Films and Nanowires, Workshop on Nanoscale Energy Conversion and Information Processing Devices, Nice, France, September, 2006

28. L. Shi, “Thermoelectric Characterization of Individual Nanowires,” Plenary Presentation, Energy Nanotechnology International Conference, June 25-28, 2006 in MIT, Cambridge, MA

27. L. Shi, “Thermal and Thermoelectric Properties of Individual Single-Walled Carbon Nanotubes, Bismuth-based and III-V Nanowires,” March Meeting of the American Physical Society, March 13-17, 2006 in Baltimore, Maryland

26. L. Shi, “Thermal Transport and Thermoelectric Energy Conversion in Nanomaterials,” School of Materials Science and Engineering, Georgia Institute of Technology, November 17, 2005

25. L. Shi, “Developing Nanowire Sensor and Energy Technologies Employing Microelectromechanical Systems,” NanoSecurity Workshop, Max Planck Institute of Microstructure Physics, Halle, Germany, October 2005

24. L. Shi, “Characterization of Nanowire Thermoelectric Materials,” NASA Center for Nanotechnology, NASA Ames Research Center, July 2005

23. L. Shi, “Nanowires for Thermoelectric Energy Conversion and Sensor Applications,” Nanoarchitectonics Workshop, National Institute of Advanced Industrial Science and Technology, Japan, March 2005

22. L. Shi, “Nanostructured Materials for Thermoelectric Energy Conversion and Sensor Applications,” Department of. Mechanical Engineering, University of Houston, February 2005

21. L. Shi, “Nanomaterials and Microsystems: Integration, Characterization, Energy and Sensor Applications,” 2005 Guangzhou International Conference on Nanotechnology and Nano-Biotechnology, Guangzhou, China, January 2005

20. C. Yu, Q. Hao, L. Shi,, X. Kong, Z. L. Wang, “Integration of Metal Oxide Nanobelts with Microsystems for Sensor Applications,” SPIE International Symposium on Optics East, October 2004

19. L. Shi, “Nanomaterials and Microsystems: Integration, Characterization, Energy and Sensor Applications,” Materials Council Institute Wide Seminar Series, Georgia Institute of Technology, August 2004

18. L. Shi, “Thermal Properties of Materials,” ASME Nano Training Boot Camp, Evanston, July 2004

17. L. Shi, “Nanostrucuterd Materials and Microfluidic Devices: Fabrication, Characterization, and Applications,” Department of Electrical Engineering, University of California at Santa Cruz, April 2004

16. L. Shi, “Thermal and Thermoelectric Characterization of Nanostructures,” Tutorial on Micro and Nano Scale Heat Transfer, 2003 ASME Int. Mechanical Eng. Congress & Exposition, Washington DC, November 2003

15. L. Shi, “Thermal Properties of Materials,” ASME Nano Training Boot Camp, Northwestern University, July 2003

14. L. Shi, “Using MEMS and STM for Nanoscale Thermoelectric Measurements and Nanosensor Applications,” NSF Nanoscale Mechanical Engineering Workshop, NSF, June 14-15, 2003

13. L. Shi, “Thermal and Thermoelectric Properties of Low Dimensional Materials,” MRS Spring Meeting, San Francisco, April 2003

12. L. Shi, “Micro-Nano Scale Thermal/Fluid Measurements and Devices,” NASA Ames Research Center, April 2003

11. L. Shi, “Nanoscale Thermal and Thermoelectric Mapping of Semiconductor Devices and Interconnects,” NIST/SEMATECH Int. Conf. on Characterization and Metrology for ULSI Technology, Austin, March 2003

10. L. Shi, “Micro-Nano Scale Thermal/Fluid Measurements and Devices,” Department of Aerospace Engineering and Engineering Mechanics, The University of Texas at Austin, February, 2003

9. L. Shi, “Thermal and Thermoelectric Properties of Nanostructures,” NASA Nanospace2002 Conference, Galveston, June 2002

8. L. Shi, “Thermal Measurements of Nanostructures Using Micromachined Sensors,” Department of. Mechanical Engineering, New Mexico State University, March 2002

7. L. Shi, “Thermal Measurements of Nanostructures Using Micromachined Sensors,” Department of. Mechanical Engineering & Nanoscale Science and Engineering Center, Columbia University, March 2002

6. L. Shi, “Review of Mesoscopic Thermal Transport Measurements,” Nano Thermal-Fluids Tutorial, 2001 ASME Int. Mechanical Eng. Congress & Exposition, NY, November 2001

5. L. Shi, “Mesoscopic Thermophysical Measurements of Microstructures and Carbon Nanotubes,” Woodruff School of Mechanical Engineering, Georgia Institute of Technology, June 2001

4. L. Shi, “Mesoscopic Thermophysical Measurements of Microstructures and Carbon Nanotubes,” Department of Mechanical Engineering, University of California at Los Angeles, June 2001

3. L. Shi, “Mesoscopic Thermophysical Measurements of Microstructures and Carbon Nanotubes,” Department of Mechanical Engineering, Purdue University, May 2001

2. L. Shi, “Mesoscopic Thermophysical Measurements of Microstructures and Carbon Nanotubes,” Department of Mechanical Engineering, University of Texas at Austin, May 2001

1. L. Shi, “Thermal Transport Measurements of Carbon Nanotubes,” SRI Internatioal, May 2000