Invited Lectures

After joining IISc(2016-Present)

  1. "Printed 2D electronics with predominant intra-flake transport", 11th ICMAT, Singapore, June 2023

  2. "Printed 2D electronics with predominant intra-flake transport", 37th Aachen Graphene Center Seminar, RWTH Aachen, Germany, June 2023

  3. "Inkjet-printed super-flexible oxide electronics and its application at sensor interfaces" CM@S lecture at University of Wuppertal, Germany, May 2023

  4. "Low temperature curable silver nanoink for PET/paper/glass/textile substrates" 1st Silver conference, Jaipur, India, April 2023

  5. "Low temperature processed printed electronics based on 2D semiconductors" IUMRS 2022, IIT Jodhpur, India, December 2022

  6. "Fully-printed, ultra-flexible and low temperature processed oxide electronics" ICEE 2022, Bangalore, India, December 2022

  7. "Printed, oxide-based unipolar pseudo-CMOS electronics" IFETC 2022, Qingdao, China, August 2022

  8. "Fully printed, ultra-flexible and low temperature processed oxide electronics" SCDT Flex-E center webinar, IIT Kanpur, April 2022

  9. "‘Emerging Electronic Materials and Devices: Flexible and Printed Electronics’ AICTE training and learning academy (ATAL) FDP lecture, Ramaiah Institute of technology, Bangalore, July 2021

  10. ‘Fully printed vertical transport edge FETs for high power oxide electronics’ EDTM 2020, Penang Malaysia, March 2020

  11. ‘Printed, flexible and high power FETs and circuits’ FlexEV 2020, Manipal University Jaipur, March 2020

  12. ‘Printed high power and flexible FETs based on organic/ inorganic hybrid semiconductors’ Workshop on 3D and heterogeneous system integration, IISc, January 2020

  13. ‘Printed high power and flexible FETs based on organic/ inorganic hybrid semiconductors’ ICANN 2019, IIT Guwahati, December 2019

  14. ‘Printed electronics for mass production of functional devices and automation’ Indo-German workshop on Recent Advances in Nanoscience and Nanotechnology, IIT Madras, March 2019

  15. 'Solution-processed switches' Empa- Swiss Federal Laboratories for Materials Science and Technology, February 2019

  16. 'Solution-processed switches' Karlsruhe Institute of Technology (KIT), February 2019

  17. 'Electrochemical control of physical properties of materials' NSEMD-2018, CSIR-CSMCRI, Bhavnagar, September 2018

  18. ‘Printed Oxide Electronics: Present Status and Future Prospects’ Central University of Karnataka, Gulbarga, February 2017

  19. ‘Printed and Electrolyte-Gated Oxide Electronics’ ICEE 2016: 3rd IEEE conference on Emerging electronics, IIT Bombay, Mumbai, India, December 2016

  20. ‘Printed and Electrolyte-Gated Oxide Electronics’ IMID 2016: 16th International meeting on Information Display, Jeju, Korea, August 2016



  21. Before IISc (2006- 2016)

  22. ‘Tunable electronic transport in nanoporous carbon: a step towards bulk field effect devices’ IMRC: XXIV International Materials Research Congress, Cancun, Mexico, August 2015

  23. ‘Printed Inorganic Electronics’ Invited Tutorial, Cusanuswerk: Symposium on Modern Printing, Burg Wildenstein, Germany, May, 2015

  24. ‘Printed and low-temperature processed oxide electronics’ ICEE: an IEEE conference, Bengaluru, India December 2014

  25. ‘Printed electronics from inorganic oxide nanomaterials’ BASF, Germany, June 2014

  26. ‘Printed and low-temperature processed oxide field-effect transistors’ EMRS spring meeting, Lille, France, May 2014

  27. ‘Electrochemical field-effect & ion-exchange: Unconventional approach to tune functional properties of nanomaterials’ Physical & Life Science Directorate, Lawrence Livermore National Laboratory, Livermore, CA, USA, February, 2014

  28. ‘Intercalation-driven control of magnetism in bulk ferromagnets’ Department of Physics, University of Duisburg-Essen, Germany, October, 2013

  29. ‘Low temperature processing of printed field effect transistors based on inorganic nanostructures’ AMPC 2013, Chennai, India, February, 2013

  30. ‘Revisit to electrochemical gating: Fast enough for printed electronics?’ ICCAD, 2012, Embedded Tutorial: Printable Electronics, San Jose, California, USA, November 2012

  31. ‘Revisit to electrochemical gating: Fast enough for printed electronics?’ IISER, Kolkata, India, October, 2012

  32. ‘Printed Electronics at Karlsruhe Institute of Technology: Electrochemical gating and oxide electronics’, Schwabinger Druck & Repro, Germany, June, 2012

  33. ‘Electronically Tunable Nanostructures’, School of Material Science and Engineering, Nanyang Technological University (NTU), Singapore, February, 2012

  34. ‘Electrochemically tunable transport in metals and metal-like oxides’, Evonik GmbH, Marl, Germany, January, 2008