Today’s energy, chemicals and plastics players operate in an environment of perpetual tectonic change, which requires constant adaptation. The decarbonization of these sectors carries monumental ...
Phys.org: Curved molecules store sunlight as chemical energy and release heat on demand
Curved molecules store sunlight as chemical energy and release heat on demand
For more than two centuries, fossil fuels have dominated global energy and chemical production, accounting for over 80% of consumption and driving a steep rise in CO₂ emissions. This reliance has ...
The Conversation: Light‑powered reactions could make the chemical manufacturing industry more energy‑efficient
Plant Services: The Industrial Science Report: Circular economy and decarbonization drive change in semiconductor, pharma, and energy sectors
The Industrial Science Report: Circular economy and decarbonization drive change in semiconductor, pharma, and energy sectors
Crude Oil Prices: Europe’s Chemical Industry Is Collapsing Under Energy Costs and Regulation
Investment in Europe’s chemicals sector has collapsed while capacity closures and job losses accelerate. High energy prices and stringent climate regulations are eroding competitiveness against China ...
Forbes: The Global Energy Transition: How Plastics And Chemicals Firms Can Adapt
This energy management interface is the "brain" of a self-powered, battery-free sensor that can harvest the energy it needs to operate from the magnetic field generated in the open air around a wire.
A look at how AI can be used to help support the clean energy transition by helping to manage power grid operations, plan infrastructure investments, guide the development of novel materials, and more.
At the MIT Energy Initiative’s Annual Research Conference, industry leaders agreed collaboration is key to advancing critical technologies amidst a changing energy landscape.