Presentations

Invited Talks

[2021]

S. H. Kang, “Self-adaptive materials, structures and devices,” Department of Mechanical and Aerospace Engineering, Ohio State University, Columbus, OH, February 2021. (virtual)
 

[2020]

S. H. Kang, “Self-adaptive materials, structures and devices,” Department of Mechanical Engineering, Villanova University, Villanova, PA, November 2020.

S. H. Kang, “Architected materials with adaptive energy absorption and bioinspired self-adaptable materials & medical devices,” Department of Mechanical Engineering, University of Wisconsin, Madison, WI, October 2020.

S. H. Kang, “Self-adaptive materials, structures and devices,” Air Force Research Laboratory, Dayton, OH, July 2020.

S. H. Kang, “Architected materials with adaptive energy absorption and bioinspired self-adaptable materials,” School of Mechanical Engineering, Georgia Institute of Technology, Atlanta, GA, February 2020. 

S. H. Kang, “Bioinspired self-adaptable materials and “growing” cardiovascular implants,” College of Engineering, Michigan State University, East Lansing, MI, February 2020. 

S. H. Kang, Architected materials with adaptive energy absorption and bioinspired self-adaptable materials,” Department of Mechanical Engineering, Massachusetts Institute of Technology, Cambridge, MA, February 2020. 

S. H. Kang, “Architected materials with extreme energy absorption and bioinspired self-adaptable materials,” Department of Mechanical Engineering, University of South Carolina, Columbia, SC, February 2020. 

[2019]

S. H. Kang, “Architected materials with adaptive energy absorption and bioinspired self-adaptable materials,” Department of Mechanical Engineering, University of Utah, Salt Lake City, UT, November 2019.

S. H. Kang, “Bioinspired Multifunctional Materials and Devices with Self-Adaptability by Harnessing Mechanics,” ASME International Mechanical Engineering Congress and Exposition, Salt Lake City, UT, November 2019.

S. H. Kang, “Architected materials with adaptive energy absorption and bioinspired self-adaptable materials,” Department of Mechanical Engineering, McGill University, Montreal, Canada, October 2019.

S. H. Kang, “Harnessing fluid-structure interactions to utilize ambient wind energy for self-powered devices,” Biofuels – 2019, Toronto, Canada, October 2019.

S. Orrego, Z. Chen, D. Hou, U. Krekora, S. H. Kang, “Self-adaptable material systems inspired by bone,” 56 Annual Technical Meeting of the Society of Engineering Science, St. Louis, MO, October 2019. (Symposium keynote presentation)

S. H. Kang, “Architected materials with adaptive energy absorption and bioinspired self-adaptable materials,” School of Mechanical Engineering, Purdue University, West Lafayette, IN, September 2019.

S. H. Kang, “Metamaterials with adaptive energy absorption and bioinspired self-adaptable materials,” Department of Physics, University of North Texas, Dallas, TX, September 2019.

S. H. Kang, “Bioinspired Synthesis of Multifunctional Materials with Self-Adaptable Mechanical Properties and Regeneration,” The 5th “Multifunctional Materials for Defense” Workshop, Arlington, VA, August 2019.

S. H. Kang, “Architected materials with adaptive energy absorption and bioinspired self-adaptable materials,” Air Force Research Laboratory, Dayton, OH, April 2019.

S. H. Kang, “Bioinspired self-adaptable materials 
and architected materials with adaptive energy absorption,” Department of Materials Science and Engineering, University of California, Los Angeles, CA, April 2019.

S. H. Kang, “Architected materials with adaptive energy absorption and bioinspired self-adaptable materials,” Department of Mechanical and Civil Engineering, California Institute of Technology, Pasadena, CA, April 2019.

S. H. Kang, “Architected materials with adaptive energy absorption and bioinspired self-adaptable materials,” HRL Laboratories, Malibu, CA, April 2019.

S. H. Kang, “Architected materials with adaptive energy absorption and self-adaptable cardiovascular implants,” Department of Mechanical and Aerospace Engineering, University of California, Los Angeles, CA, April 2019.

S. H. Kang, “Architected materials with adaptive energy absorption and bioinspired self-adaptable materials,” Department of Mechanical and Aerospace Engineering, University of California, San Diego, CA, April 2019.

S. H. Kang, “Bioinspired self-adaptable materials 
and architected materials with adaptive energy absorption,” Department of Materials Science and Engineering, University of California, Irvine, CA, April 2019.nce and Engineering, University of California, Irvine, CA, April 2019.

S. H. Kang, “Bioinspired self-adaptable materials and ultrasensitive low-cost nanoporous composites,” Johns Hopkins Applied Physics Laboratory, Laurel, MD, January 2019.

S. H. Kang, “Bioinspired self-adaptable implant devices and materials,” Johns Hopkins University Department of Medicine/Whiting School of Engineering Research Retreat, Baltimore, MD, March 2019 (Johns Hopkins Whiting School of Engineering Lab Research Excellence Award presentation).

[2018]

S. H. Kang, “Bioinspired “growing” cardiovascular implant devices by 3D printing,” The 12th IEEE Int. Conf. on Nano/Molecular Medicine and Engineering (IEEE-NANOMED 2018), Honolulu, HI, December 2018.

S. H. Kang, “Bioinspired self-adaptable materials and “growing” cardiovascular implant devices,” Department of Mechanical and Materials Engineering, Duke University, Durham, NC, October 2018.

S. H. Kang, “Bioinspired self-adaptable materials and “growing” cardiovascular implant devices,” Department Chemical and Biomolecular Engineering, North Carolina State University, Raleigh, NC, October 2018.

S. Orrego, U. Krekora, E. Kang, D. Hou, E. Kang, S. H. Kang, “Bioinspired materials that can sense and adapt to mechanical Loadings and damages,” First International Conference on 4D Materials and Systems, The Electrochemical Society, Yonezawa, Japan, August 2018.

S. H. Kang, “Bioinspired self-adaptable materials and “growing” cardiovascular implant devices,” Department of Mechanical Engineering, Seoul National University, Seoul, Korea, August 2018.

S. H. Kang, “Bioinspired self-adaptable materials and implant devices,” Department of Materials Science and Engineering, Seoul National University, Seoul, Korea, August 2018.

S. H. Kang, “Mechanical metamaterials for tunable elastic wave propagation and reversible energy absorption by harnessing deformation behaviors of soft periodic structures,” Korea Institute of Machinery & Materials, Daejeon, Korea, August 2018.

S. H. Kang, “Bioinspired self-adaptable materials and “growing” cardiovascular implant devices,” Department of Mechanical Engineering, Korea Advanced Institute of Science and Technology, Daejeon, Korea, August 2018.

S. H. Kang, “Ultrasensitive Low-Cost Nanoporous Composites with a Wide Pressure Sensing Range for Tactile Sensors,” International Union of Materials Research, Daejeon, Korea, August 2018.

S. H. Kang, “Bioinspired self-adaptable materials and implant devices,” Department of Mechanical Science and Engineering, University of Illinois at Urbana-Champaign, Urbana, IL, April 2018.

S. H. Kang, “Bioinspired materials with self-adaptable mechanical properties and self-regeneration,” 5th Young Scientist Workshop, Department of Materials Science and Engineering, Seoul National University, Seoul, Korea, February 2018.

[2017]

S. H. Kang, “Synthesis of polymeric composites for ultrasensitive low-cost sensors and bone-inspired materials with self-adaptable mechanical properties and self-healing,” School of Chemical Engineering, Sungkyunkwan University, Suwon, Korea, November 2017.

S. H. Kang, “Harnessing behaviors of piezoelectric polymer composites for enhancing charge generation and bone-inspired materials with self-adaptable mechanical properties and self-healing,” Department of Materials Science and Engineering, Seoul National University, Seoul, Korea, November 2017.

S. H. Kang, “Synthesis of polymer composites for ultrasensitive low-cost sensors and bone-inspired materials with self-regulating mechanical properties,” Department of Materials Science and Engineering, Korea Advanced Institute of Science and Technology, Daejeon, Korea, November 2017.

S. H. Kang, “Ultrasensitive low-cost tactile sensors and bioinspired mineralized scaffolds with self-adaptable mechanical properties and self-regeneration,” Department of Bio and Brain Engineering, Korea Advanced Institute of Science and Technology, Daejeon, Korea, November 2017.

S. H. Kang, “Harnessing behaviors of polymer composites for ultrasensitive low-cost sensors and bone-inspired materials with self-regulating mechanical properties,” Pohang University of Science and Technology, Pohang, Korea, November 2017.

S. H. Kang, “Architected materials for tunable elastic wave propagation and reversible energy absorption,” Korea Institute of Science and Technology, Seoul, Korea, November 2017.

S. H. Kang,“Harnessing behaviors of piezoelectric polymer composites for enhancing charge generation and bone-inspired materials with self-adaptable mechanical properties and self-healing,” College of Engineering and Applied Science,University of Colorado-Denver, Denver, CO, October 2017

[2016]

S. H. Kang, “Design, Fabrication, and Characterization of Architected Materials for Energy Absorption and Vibration Propagation Control,” University of Maryland, Baltimore County, Baltimore, MD, December 2016.

S. H. Kang, “The Future of Vibration Energy Transfer in Solids and Structures: Needs and Opportunities,” Army Research Office Invited Workshop on the Future of Vibration Energy Transfer in Solids and Structures, Seattle, WA, October 2016.

S. H. Kang, “Design, Fabrication, and Characterization of Architected Materials for Energy Absorption and Vibration Propagation Control,” University of Calgary, Calgary, AB, Canada, October 2016.

S. H. Kang, “Steering Behaviors of 3D Printed 
Materials and Structures,” The United States Army Research Laboratory, Aberdeen, MD, August 2016.

S. H. Kang, “Design, Fabrication, and Characterization of Architected Materials for Energy Absorption and Tunable Vibration Propagation,” Under Armour, Baltimore, MD, July 2016.

S. H. Kang, “Design, Fabrication, and Characterization of Architected Materials for Tunable Wave Propagation and Shape-Recoverable Energy-Absorption,” Department of Mechanical and Materials Engineering, Portland State University, Portland, OR, May 2016.

S. H. Kang, “Architected Materials for Tunable Elastic Wave Propagation and Reversible Energy Absorption,” Department of Mechanical Engineering, Stony Brook University, Stony Brook, NY, May 2016.

[2015]

S. H. Kang, “Harnessing Soft Materials for Functionality through Deformation and Instability,” 4th EITA Young Investigator Conference, Cambridge, MA, August 2015.

S. H. Kang, “Steering Interactions between Bioinspired Polymeric Fibrous Structures and Fluids,” National Institute of Standards and Technology, Gaithersburg, MD, June 2015.

S. H. Kang, “3D Technologies and Their Applications for Architected Materials,” Greater Baltimore Committee Education and Workforce, Baltimore, MD, May 2015.

S. H. Kang, “Steering Evaporation-Induced Self-Assembly of Nanopost Arrays by Interplay between Mechanics and Surface Chemistry,” Foundations of Nanoscience, Snowbird, UT, April 2015.

S. H. Kang, S. Shan, J. R. Raney, P. Wang, J. Lewis, and K. Bertoldi, “Design, Fabrication and Characterization of Architected Materials for Tunable Wave Propagation and Shape-Recoverable Energy-Absorption,” 2015 Mach Conference, Annapolis, MD, April 2015. (keynote presentation of a session)

S. H. Kang, “Harnessing Deformation and Instability of Soft Structured Materials for Tunable Structures and Devices,” Department of Aeronautics and Astronautics, University of Washington, Seattle, WA, February 2015.

[before starting independent career]

S. H. Kang and K. Bertoldi, “Soft Structured Materials: Functionality through Deformation and Instability,” Materials Research Society Meeting, San Francisco, CA, April 2014.

S. H. Kang, “Steering Structured Surfaces: Harnessing Geometry, Mechanical and Surface Properties to Form Complex Functional Patterns by Self-Organization,” Department of Mechanical and Industrial Engineering, University of Illinois, Chicago, IL, April 2014.

S. H. Kang, “Steering Structured Surfaces: Harnessing Geometry, Mechanical and Surface Properties to Form Complex Functional Patterns by Self-Organization,” Department of Mechanical Engineering, Virginia Polytechnic Institute and State University, Blacksburg, VA, April 2014.

S. H. Kang, “Steering Materials and Structures Under Extreme Conditions: Harnessing Geometry, Mechanical and Surface Properties to Form Complex Functional Patterns by Self-Organization,” Department of Mechanical Engineering, Johns Hopkins University, Baltimore, MD, March 2014.

S. H. Kang, “Steering Structured Surfaces: Harnessing Geometry, Mechanical and Surface Properties to Form Complex Functional Patterns by Self-Organization,” Department of Mechanical Engineering, University of Connecticut, Storrs, CT, February 2014.

S. H. Kang, “Self-Organization of Bioinspired Structured Surfaces by Interaction with Liquid,” Seoul National University, Seoul, Korea, July 2013.

S. H. Kang, “Harnessing Pattern Formation by Interaction between Liquid and Bioinspired Structured Surfaces,” Korea Institute of Science and Technology, Seoul, Korea, July 2013.

S. H. Kang, B. Pokroy, L. Mahadevan, and J. Aizenberg, “Evaporation-Induced Self-Organization of Polymer Nanorod Arrays: When Structured Solids Met a Liquid,” Society of Engineering Science 49th Annual Technical Meeting, Atlanta, GA, October 2012.

S. H. Kang and J. Aizenberg, “Steering Nanostructures: Controlling Self-Assembly of Bio-inspired Nanofibers,” American Chemical Society Spring Meeting, San Diego, CA, March 2012.

S. H. Kang, B. Pokroy, L. Mahadevan, and J. Aizenberg, “Shape and Size Control of Polymer Nanopost Assembly by Adhesion-Mediated Elastocapillary Interaction: Interplay between Mechanics and Surface Science,” Gordon-Kenan Research Seminar(Adhesion), Lewinston, ME, July 2011.

Contributed Presentations

[2021]

S. H. Kang, “Multi-phase Multifunctional Materials that Sense Mechanical Loading and Adapt,” 2021 Spring Materials Research Society Meeting (Virtual), April 2021.

S. H. Kang, “Architected Liquid Crystalline Elastomers with Strain Rate-Adaptive Extreme Energy Absorption,” 2021 Spring Materials Research Society Meeting (Virtual), April 2021.

S. H. Kang, “Bioinspired Materials with Self-Adaptable Mechanical Properties,” 2021 American Physical Society March Meeting (Virtual), March 2021.

S. H. Kang, “Effects of Environmental Temperature and Humidity on the Geometry and Strength of Polycarbonate Specimens Prepared by Fused Filament Fabrication,” 2021 American Physical Society March Meeting (Virtual), March 2021.

S. H. Kang, “Mechanical Metamaterials with Strain-Rate Adaptive Energy Absorption,” 2021 American Physical Society March Meeting (Virtual), March 2021.

S. H. Kang, “Bioinspired Materials with Self-Adaptable Mechanical Properties,” TMS 2021 Annual Meeting & Exhibition (Virtual), March 2021.

[2020]

S. H. Kang, “Bioinspired Materials with Self-Adaptable Mechanical Behaviors,” 2020 Fall Materials Research Society Meeting (Virtual), November 2020.

S. H. Kang, “Vent-Lock—A Bioinspired Ventilator Splitter to Enhance the Capacity of Treating Patients with COVID-19,” 2020 Fall Materials Research Society Meeting (Virtual), November 2020.

S. Jeon, Z. Zhu, N. Traugutt, B. Shen, T. D. Nguyen, C. M. Yakacki, and S. H. Kang, “Extreme Energy Absorbing Architected Materials Based on Liquid Crystal Elastomers,” American Society of Mechanical Engineers International Mechanical Engineering Congress and Exposition (Virtual), November 2020.

S. Jeon, Z. Zhu, N. Traugutt, B. Shen, T. D. Nguyen, C. M. Yakacki, and S. H. Kang, “Extreme energy absorbing architected materials based on liquid crystal elastomer structures,” Society of Engineering Science Annual Meeting (Virtual Live Talk), September 2020.

S. Orrego, Z. Chen, U. Krekora, D. Hou, S. Jeon, M. Pittman, C. Montoya, Y. Chen, S. H. Kang, “Bioinspired materials with self-adaptable mechanical behaviors,” Society of Engineering Science Annual Meeting (Virtual Live Talk), September 2020.

E. Bachtiar, G. O. Erol, M. Millrod, R. Tao, D. H. Gracias, L. H. Romer, and S. H. Kang, “3D printing and characterization of a soft and biostable elastomer with high flexibility and strength for biomedical applications,” Society of Engineering Science Annual Meeting (Virtual Live Talk), September 2020.

S. Orrego, Z. Chen, U. Krekora, D. Hou, S. Jeon, M. Pittman, C. Montoya, Y. Chen, S. H. Kang, “Bioinspired Multifunctional Composites with Self-Adaptable Mechanical Properties,” Gordon Research Conference on Multifunctional Materials and Structures, Ventura, CA, January 2020.

[2019]

S. H. Kang, “Multifunctional Materials with Self-Adaptive Mechanical Properties and Regeneration,” Materials Research Society Meeting, Boston, MA, December 2019.

S. Jeon, Z. Zhu, C. M. Yakacki, T. D. Nguyen, and S. H. Kang, “Extreme impact energy absorption behaviors of liquid crystal elastomer structures,” ASME International Mechanical Engineering Congress and Exposition, Salt Lake City, UT, November 2019.

G. O. Erol, E. Bachtiar, A. Horowitz, N. Hibino, L. H. Romer, D. H. Gracias, and S. H. Kang, “Self- adaptive cardiovascular implants to accommodate growth,” ASME International Mechanical Engineering Congress and Exposition, Salt Lake City, UT, November 2019.

S. Jeon, Z. Zhu, C. M. Yakacki, T. D. Nguyen, and S. H. Kang, “Extreme impact energy trapping metamaterials based on liquid crystal elastomers,” 56 Annual Technical Meeting of the Society of Engineering Science, St. Louis, MO, October 2019.

L. Fang, Y. Yan, O. Agarwal, K. J. Hemker, and S. H. Kang, “Geometrical and mechanical characterization of interlayer bonding quality in fused filament fabrication,” 56 Annual Technical Meeting of the Society of Engineering Science, St. Louis, MO, October 2019.

Z. Jiang, G. O. Erol, D. Chatterjee, W. Xu, N. Hibino, L. H. Romer, S. H. Kang, and D. H. Gracias, “3D printing of polytetrafluoroethylene with direct ink writing,” 56 Annual Technical Meeting of the Society of Engineering Science, St. Louis, MO, October 2019.

G. O. Erol, E. Bachtiar, A. Horowitz, N. Hibino, L. H. Romer, D. H. Gracias, and S. H. Kang, “Self- adaptive cardiovascular paediatric conduits to accommodate growth,” 56 Annual Technical Meeting of the Society of Engineering Science, St. Louis, MO, October 2019.

G. O. Erol, E. Bachtiar, A. Horowitz, N. Hibino, L. H. Romer, D. H. Gracias, and S. H. Kang, “3D Printed Shape-Adaptive Right Ventricle-to-Pulmonary Artery Conduits with Growth Potential,” 2019 International Conference on Bioengineering and Nanotechnology, Baltimore, MD, May 2019.

G. O. Erol, E. Bachtiar, A. Horowitz, N. Hibino, L. H. Romer, D. H. Gracias, and S. H. Kang, “Bioinspired “growing” RV-PA conduits for pediatric patients with congenital heart defects,” the 6th Interntional Conference on Clinical and Engineering Frontiers in Pediatric and Congenital Heart Disease, Philadelphia, PA, May 2019.

S. Orrego, Z. Chen,D. Hou, U. Krekora, E. Kang, S. H. Kang, “Bioinspired materials with self-regulating mechanical properties upon loading/damages,” American Physical Society March Meeting, Boston, MA, March 2019.

[2018]

G. O. Erol, E. Bachtiar, A. Horowitz, N. Hibino, L. H. Romer, D. H. Gracias, and S. H. Kang, “3D Printed Shape-Changing Cardiovascular Implants for Accommodating Growth,” ASME International Mechanical Engineering Congress and Exposition, Pittsburgh, PA, November 2018.

S. Orrego, U. Krekora, D. Hou, E. Kang, E. Kang, S. H. Kang, “Bioinspired materials with self-adaptable mechanical properties and self-regeneration by coupling mechanics and chemistry using soft stimuli-responsive scaffolds,” ASME International Mechanical Engineering Congress and Exposition, Pittsburgh, PA, November 2018.

L. Fang, J. Li, Z. Zhu, and S. H. Kang, “Piezoelectric polymer thin films with architected cuts for enhanced flexibility and ambient wind energy harvesting,” ASME International Mechanical Engineering Congress and Exposition, Pittsburgh, PA, November 2018.

S. H. Kang, G. O. Erol, E. Bachtiar, and A. Horowitz, “Architected Cardiovascular Implants for Accommodating Growth,” IUTAM Symposium on Architectured Materials, Chicago, IL, September 2018.

L. Fang, J. Li, Z. Zhu, S. H. Kang, “Piezoelectric polymer thin films with architected cuts,” European Solid Mechanics Conference, Bologna, Italy, July 2018.

S. Orrego, U. Krekora, D. Hou, E. Kang, S. H. Kang, “Bioinspired materials with self-adaptable mechanical properties and self-regeneration,” Gordon Research Conference (Bioinspired Materials), Les Diablerets, Switzerland, June 2018.

J. Li, Z. Zhu, L. Fang, S. Guo, U. Erturun, Z. Zhu, J. E. West, S. Ghosh, and S. H. Kang, “Analytical, numerical, and experimental studies of viscoelastic effects on the performance of soft piezoelectric nanocomposites,” 18th U.S. National Congress for Theoretical and Applied Mechanics, Chicago, IL, June 2018.

S. Orrego, U. Krekora, E. Kang, and S. H. Kang, “Bioinspired materials with self-adaptable mechanical properties and self-regeneration,” 2018 American Physical Society March Meeting, Los Angeles, CA, March 2018.

[2017]

S. Orrego, U. Krekora, E. Kang, and S. H. Kang, “Bioinspired materials with self-adaptable mechanical properties and self-regeneration,” 7th International Conference on Mechanics of Biomaterials and Tissues, Waikoloa, HI, December 2017.

J. Li, Z. Zhu, L. Fang, S. Guo, U. Erturun, Z. Zhu, J. E. West, S. Ghosh, and S. H. Kang, “Viscoelastic Effects on the Performance of Soft Piezoelectric Nanocomposites,” ASME 2017 International Mechanical Engineering Congress, Tampa, FL, November 2017.

[2016]

S. H. Kang, “A Bidirectional Self-Folding Actuator Based on Bilayer Shape Memory Polymers and Its Application to a Self-Folding Transformer,” ASME 2016 International Mechanical Engineering Congress, Phoenix, AZ, November 2016.

S. H. Kang, “Harnessing Deformation of Soft Materials for Multifunctionality,” Gordon Research Conference (Multifunctional Materials and Structures), Ventura, CA, February 2016.

[2015]

S. H. Kang, S. Shan, J. R. Raney, P. Wang, F. Candido, J. Lewis, and K. Bertoldi, “Architected Materials for Reversible Trapping of Elastic Strain Energy,” Materials Research Society Fall Meeting, Boston, MA, December 2015.

S. H. Kang, S. Shan, J. R. Raney, P. Wang, J. Lewis, and K. Bertoldi, “Design and Fabrication of Shape-Recoverable Energy-Absorbing Structures by Numerical Modeling and 3D Printing,” ASME 2015 International Mechanical Engineering Congress, Houston, TX, November 2015.

S. H. Kang, S. Shan, J. R. Raney, P. Wang, F. Candido, J. Lewis, and K. Bertoldi, “Harnessing Snapthrough Instablity for Shape-Recoverable Energy-Absorbing Structure,” American Physical Society March Meeting, San Antonio, TX, March 2015.

[before starting independent career]

S. H. Kang, S. Shan, F. Candido, and K. Bertoldi, “Shape Programmable Metamaterials,” Materials Research Society Meeting, San Francisco, CA, April 2014.

S. H. Kang, S. Shan, A. Kosmrlj, and K. Bertoldi, “Formation of Complex Ordered Patterns in Buckling Induced Geometrically Frustrated Triangular Cellular Structures,” Materials Research Society Meeting, San Francisco, CA, April 2014.

S. H. Kang, S. Shan, A. Kosmrlj, W. Noorduin, S. Shian, D. R. Clarke, and K. Bertoldi, “Complex Ordered Patterns in Mechanical Instability Induced Geometrically Frustrated Triangular Cellular Structures,” American Physical Society March Meeting, Denver, CO, March 2014.

S. H. Kang, S. Shan, and K. Bertoldi, “Experiments, Modeling, and Analysis of Geometrically Frustrated Cellular Structures,” Materials Research Society Meeting, Boston, MA, December 2013.

S. H. Kang, S. Shan, A. Kosmrlj, and K. Bertoldi, “Complex Ordered Patterns in Buckling-Induced Geometrically Frustrated Cellular Structures,” ASME 2013 International Mechanical Engineering Congress, San Diego, CA, November 2013.

S. H. Kang and J. Aizenberg, “Self-Organization of Polymer Nanofiber Arrays for Bioinspired Multifunctional Systems,” ASME 2013 International Mechanical Engineering Congress, San Diego, CA, November 2013.

S. H. Kang, S. Shan, A. Kosmrlj and K. Bertoldi, “Complex Patterns with Tunability by Coupling Mechanical Instability with Geometrical Frustration,” New England Workshop on the Mechanics of Materials and Structures, Boston, MA, October 2013.

S. H. Kang, S. Shan, and K. Bertoldi, “Formation of Complex Ordered Patterns by Harnessing Mechanical Instability in Geometrically Frustrated Lattices,” Society of Engineering 50th Annual Technical Meeting, Providence, RI, July 2013.

S. H. Kang, S. Shan, and K. Bertoldi, “Coupling Geometrical Frustration with Mechanical Instabilities to Design Surfaces with Three Dynamically Changing States,” American Physical Society March Meeting, Baltimore, MD, March 2013.

S. H. Kang, S. Shan, W. Noorduin, M. Khan, K. Bertoldi, and J. Aizenberg, “Chiral Pattern Formation in Polymer-Based Supported Cellular Structures by Elastic Instability,” Materials Research Society Meeting, Boston, MA, November 2012.

S. H. Kang, N. Wu, A. Grinthal, and J. Aizenberg, “Capillary-Induced Self-Organization of Soft Pillar Arrays into Moiré Patterns by Dynamic Feedback Process,” American Physical Society March Meeting, Boston, MA, March 2012.

S. H. Kang, L. Mahadevan, and J. Aizenberg, “Pattern Formation by Self-Organization of Biologically-Inspired Fibrous Surfaces,” Growth and Form: Pattern Formation in Biology, Aspen, CO, January 2012.

S. H. Kang, S. Shan, W. Noorduin, M. Khan, K. Bertoldi, and J. Aizenberg, “Instability-Induced Chiral Structure Formation in Surface-Attached Honeycombs,” Materials Research Society Meeting, Boston, MA, November 2011.

S. H. Kang, S. Shan, W. Noorduin, M. Khan, K. Bertoldi, and J. Aizenberg, “Buckling-Induced Chiral Pattern Formation in Rationally Designed Surface-Attached Honeycombs,” New England Workshop on the Mechanics of Materials and Structures, Cambridge, MA, October 2011.

T.-S. Wong, S. H. Kang, S.K.Y. Tang, and J. Aizenberg, “Robust Slippery Surfaces as Optically Transparent, Oleophobic, and Anti-icing Materials,” 14th Nano Science and Technology Institute (NSTI) Nanotech Conference and Expo, Boston, MA, June 2011.

S. H. Kang, B. Pokroy, L. Mahadevan, and J. Aizenberg, “Self-Assembly of Nanofibers with Controlled Hierarchy and Shape by Adhesion Mediated Elastocapillary Interaction,” NSF Workshop and Freund Symposium on Frontiers of Mechanics Research, Providence, RI, June 2011.

S. H. Kang, N. Wu, L. Mahadevan, and J. Aizenberg, “Meniscus Lithography: Using Moiré Effect for Controlling Self-Assembly by Evaporation,” New England Complex Fluid Meeting, New Haven, CT, March 2011.

S. H. Kang, N. Wu, and J. Aizenberg, “Controlling Hierarchical Self-Assembly of Polymer Bristles by Manipulating Meniscus Movement,” Materials Research Society Meeting, Boston, MA, November 2010.

S. H. Kang, B. Pokroy, L. Mahadevan, and J. Aizenberg, “Dynamic Wetting of Soft Fibrous Surface,” Faraday Discussion 146 – Wetting, Richmond, VA, April 2010.

S. H. Kang, N. Wu, L. Mahadevan, and J. Aizenberg, “Fine Tuning of Pattern Formation in Evaporation-Induced Self-Assembly of Polymer Bristles,” Materials Research Society Meeting, San Francisco, CA, April 2010.

S. H. Kang, B. Pokroy, L. Mahadevan, and J. Aizenberg, “Controlled Assembly of Biologically Inspired Arrays of Polymeric Fibers: Potential Applications,” Materials Research Society Meeting, Boston, MA, November 2009.

S. H. Kang, N. Wu, and J. Aizenberg, “Effects of Meniscus Formation and Movement on Self-Assembly of Polymer Post Arrays,” Kavli Institute, Cambridge, MA, November 2009.

S. H. Kang, B. Pokroy, L. Mahadevan, and J. Aizenberg, “Capillary Induced Chiral Self-Organization of High Aspect Ratio Polymeric Nanoposts: Investigating the Effects of Geometry and Elasticity,” Gordon Research Conference (Soft Condensed Matter Physics), New London, NH, August 2009.