The energy sector is facing unprecedented challenges, with the global Covid-19 pandemic complicating an already challenging transition toward a low-carbon future. One of the key elements in addressing both the current pandemic and climate change is with forward-looking collaborations in technology development and innovation-which have long been a hallmark of MIT’s approach to problem solving.
Apply to speak if your startup has an innovative solution for energy: include energy storage, low-carbon energy, energy analytics, etc.
Sompo Japan Insurance seeks Startups in AgTech, Energy, and IoT
Murata is seeking startups to trial its innovative cell fractionation filter, CELLNETTA, to identify key challenges this product can solve.
We are looking for 5-6 energy related startups to exhibit at the Showcase session of the 2020 MIT Energy Conference.
Join us to explore pioneering projects from MIT’s Senseable City Lab, a multidisciplinary research group transforming urban living worldwide. From urban mobility and biodiversity to environmental quality and community well-being, the presentation showcases how digital technologies are reshaping cities at every scale—from individual buildings to entire metropolises.
This webinar provides invaluable perspectives for anyone dedicated to creating smarter, more livable cities.
MIT Startup Exchange is looking for 10 startups to present and exhibit at the MIT Japan Conference in Tokyo on Tuesday, January 23, 2024.
Fujitsu Limited(“Fujitsu”) would like to solicit applications from interested members of the industry and academia to test the quantum simulator on novel problems and applications.
This year’s theme will be built around ensuring the durability of the energy transition in the face of future unknowns.
Japanese multinational company looking globally for startups to collaborate with in the field of energy storage and related battery systems.
We are looking to partner with experts to find, develop, and validate selective solutions that can target and efficiently remove targeted constituents from mine-influenced water (MIW) to enhance water recovery, reduce residual wastes, and the recovery of resources to generate new revenue streams and offset closure costs.