"Material scientists, chemists, and physicists developing materials for energy storage and energy harvesting would find this book interesting and useful because it covers many of the most recent developments in microsupercapacitor technology. It also compares microsupercapacitors to current technologies and discusses the challenges in scaling down existing supercapacitors." --IEEE - Electrical Insulation Magazine

1. Nanomaterials, Aerogels, Biomaterials, Composites, Inks 2. Silicon-based electrodes 3. The Role and the Necessary Features of Electrolytes for Microsupercapacitors 4. Standard Electrochemical Techniques for Defining the Performance of Microsupercapacitors 5. Energy Storage 6. Microbatteries 7. Energy Harvesting 8. Design and Technology Processes Used for Microsupercapacitors 9. Fiber-Shaped Microsupercapacitors 10. Recent Research and Issues

Kazufumi Kobashi is a Senior Researcher at the National Institute of Advanced Industrial Science and Technology (AIST) in Tokyo, Japan. Since 2009, Dr Kobashi has been developing the CNT microsupercapacitor technology; since 2017, he has focused on the characterization technology of nanocarbon-based, neat and composite materials in AIST, and applied research in CNT. Karolina Laszczyk is an Assistant Professor at Wroclaw University of Science and Technology in Wroclaw, Poland. Whilst working at the National Institute of Advanced Industrial Science and Technology (AIST) and at the Technology Research Association for Single Wall Carbon Nanotubes (TASC) in Japan between 2011-2016, Dr Laszczyk worked on developing microsupercapacitor technology. For this work she was awarded the "12th IIjima Award for Young Scientists” by The Japanese Fullerenes, Nanotubes and Graphene Research Society, and the silver medal at The International Trade Fair Ideas Inventions New Products IENA in Nuremberg 2017.