Innovations in Bio-based Batteries and Fuel Cells - Energy and Power Systems TOE

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Bio-based energy storage uses biological substances such as glucose, microbes, or viruses as the active material. Bio-based energy storage is gaining high R&D interest lately due to possibilities to create energy storage that is safe to human and environment while providing additional value proposition for the biological subtances. This issue will focus innovations that happen within two major segments of eletrochemical-based energy storage, which are batteries and fuel cells.

The Energy and Power Systems (EPS) TechVision Opportunity Engine (TOE) provides insights on the latest advances in the broad range of technology related to the energy industry. The topics regularly presented range from energy storage technologies (batteries, fuel cells, flywheels and other advanced energy storage devices) to non-renewable energy such as oil and gas. Special emphasis is given to emerging areas in the renewable sector such as photovoltaics, wind energy, and geothermal energy, and emerging alternative fuels such as hydrogen, syngas, ethanol and biofuels. The EPS TOE keeps clients abreast of the latest R&D developments at major corporate and academic research centers, provides competitor intelligence and helps create strategic alliances.

The Sustainable Energy cluster provides global insights and intelligence on a wide variety of disruptive emerging technologies and platforms ranging from energy storage, advanced batteries, solar and wind energy, to unconventional oil, bioenergy, geothermal energy, and energy transmission.

Keywords: bio-based batteries, microbial fuel cells, MFCs, fuel cells

Table of Contents

Innovations in Bio-based Batteries and Fuel Cells - Energy and Power Systems TOEInnovations in BiobatteriesDefinitionUniversity of Southern California, USWrocław University of Technology, PolandWageningen University, NetherlandsState University of New York-Binghamton, USStrategic PerspectivesStrategic PerspectivesIndustry InteractionsInnovations in Microbial Fuel CellsMicrobial Fuel Cells Powered by Catalysts Derived from Food Waste Energy Generation from Waste Tomatoes Using Microbial Fuel CellsPowering Microbial Fuel Cells with WastewaterSelf-Powering Autonomous Robots Using MFCsStrategic PerspectivesStrategic Perspectives (Continued) Industry Contacts




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