Nanoscale and Microscale Phenomena

Prof. Yogesh M. Joshi is a Professor and P. K. Kelkar Research Fellow in the Department of Chemical Engineering, Indian Institute of Technology Kanpur. He obtained B.E. in Polymer Engineering from Pune University in 1996 and Ph.D. in Chemical Engineering from National Chemical Laboratory Pune and Indian Institute of Technology Bombay in 2001. Subsequently he worked at Benjamin Levich Institute, New York as a post-doctoral fellow. Dr. Joshi joined IIT Kanpur in July 2004. Prof. Joshi is a recipient of numerous awards including NASI Scopus Young Scientist Award (2012), DAE-SRC Outstanding Investigator Award (2012), Amar Dye Chem Award (2009), INAE Young Engineer award (2008) and INSA medal for young scientist (2006). He is a life member of National Academy of Sciences India (2012), an Associate of Indian National Academy of Engineering (2013-2019) and was an Associate of Indian Academy of Sciences (2006 – 2009). Prof. Joshi has served as a visiting faculty in Université du Maine, France (2008) and as a INSA visiting scientist in University of Edinburgh UK (2010). He has over 50 research publications in international journals and has given over 50 lectures/invited talks in India and abroad. His current research interests are thixotropy, rheological behavior of glasses and gels, phase behavior clay suspensions, and electrorheology. Prof. Sameer Khandekar is affiliated to the Department of Mechanical Engineering, Indian Institute of Technology Kanpur, India, since September 2004. Prof. Khandekar completed Masters Degree from IIT Kanpur, India in 2000 with specialization in fluid-thermal engineering and subsequently earned doctoral degree from the University of Stuttgart, Germany (2000-2004). Earlier, after his undergraduate studies in Mechanical Engineering from Government Engineering College, Jabalpur (MP) in 1993, he worked as a marine power plant engineer on board sea-going merchant vessels for four years (1994-1998). Prof. Khandekar is a recipientof P. K. Kelkar Research Fellowship (IIT Kanpur; 2008-2011)), DAAD Fellowship (2011), Prof. K. N. Seetharamu Award (Indian Society of Heat and Mass Transfer, 2010), George Grover Medal (International Heat Pipe Committee, 2007) and Young Scientist Award (Department of Atomic Energy, India, 2005). He is a member of the International Heat Pipe Committee since 2008 and editorial board member of two international journals on science and technology of heat pipes. He has served as an academic senate member of one centrally funded institute and one state funded autonomous engineering institute. Prof. Khandekar has also served as an international invited faculty member at four universities in Germany, France, Brazil and Thailand. He has over 50 research publications in international journals and over sixty publications in international conferences, including 15 keynote lectures/invited talks. His current research interests are in experimental microscale phase-change passive thermo-fluidic systems, boiling and condensation, pulsating heat pipes and energy systems.

Section 1: Chapter 1. Novel Method for Synthesizing Mono-disperse Dispersion of Nanometer Liposomes.- Chapter 2. Preparation of Liposomes for Drug Delivery Applications by Extrusion of Giant Unilamellar Vesicles.- Chapter 3. Worm-like Micelles as Templates for Rod-shaped Nanoparticles: Experiments and Simulations.- Chapter 4. Scalable Synthesis of Noble Metal Nanoparticles.- Section 2: Chapter 5. Dewetting and Hole Formation in Spin-coated Films of Lipid Bilayers.- Chapter 6. Understanding Wetting Transitions Using Molecular Simulation.- Chapter 7. Effect of Electric Field on Planar Fluid-fluid Interfaces.- Chapter 8. Suppression of Interfacial Instabilities Using Soft, Deformable Solid Coatings.- Section 3: Chapter 9. Effect of Asymmetry on Adhesion and Locomotion of Soft Bodied Objects.- Chapter 10. Dynamics of Soft Glassy Materials Under Tensile and Squeeze Flow Fields.- Chapter 11. Carbon Based Hierarchical Micro- and Nano- Structures: From Synthesis to Applications.- Chapter 12. Micro-structured Reactors for Hydrogen Production from Ethanol.- Chapter 13. Axial Back-Conduction through Channel Walls during Internal Convective Micro-channel Flows.