Patent applications reveal critical details about the future strength of the electric vehicle (EV) industry and the real leaders of innovation in the field.
A new gizmo from SLAC’s GISMo lab automatically adjusts a home’s power use to save energy, lower utility bills and make the electric grid more reliable.
A majority of Georgia residents strongly support new solar and wind power capacity over new coal-fired plants and believe the state should set a carbon emissions reduction goal, according to a new survey conducted for researchers at Georgia Tech and the University of Georgia.
UD team is aiming to create a blueprint for a more renewable manufacturing future with a $3 million grant from the National Science Foundation and establishing a collaboration between chemical engineering, computer science and public policy.
Organised by Green Chemistry & Sustainability Program, Department of Chemistry, Faculty of Science, Chulalongkorn University, the workshop will be on Sunday 6 February 2022 from 8.00 PM. to 10.30 PM. via Zoom.
University of Delaware engineers are working with colleagues at LSU to green chemical manufacturing, an industry that too often relies on non-renewable fossil energy. The researchers are examining the use of electrolyzers, devices that use electricity to convert raw materials like carbon dioxide (CO2) into useful molecules for chemicals and products.
With new major spending packages investing billions of dollars in electric vehicles in the U.S., some analysts have raised concerns over how green the electric vehicle industry actually is, focusing particularly on indirect emissions caused within the supply chains of the vehicle components and the fuels used to power electricity that charges the vehicles.
The U.S. Department of Energy (DOE) announced a plan to provide up to $30 million for basic research that will lead to transformative approaches to determine and validate gene function in plant species relevant to the sustainable production of bioenergy and bioproducts.
While driving an electric car has fewer environmental impacts than gasoline-powered cars, the production of the parts necessary for these green technologies can have dire effects on human well-being.
RUDN University economists have developed an approach for assessing the development of the circular economy in different countries. The new method will help experts and governments determine how successfully waste recycling systems, energy-saving technologies and new green materials are being introduced into the economy.
Retrofitting an existing masonry cavity walled building with a green or living wall can reduce the amount of heat lost through its structure by more than 30%, according to new research.
The Princeton Plasma Physics Laboratory celebrated America Recycles Day this week after recently winning a state Recycling Leadership Award for its recycling and sustainability programs.
A coalition involving AIP, the European Science Federation, International Union of Pure and Applied Physics, and physical science organizations from 13 countries signed the global call to action regarding the role of physics to mitigate the climate crisis and embrace the idea of a green, environmentally sustainable economy. The organizations pledge to continue international collaboration in research, evolve physics education, focus engagement with governments to promote physics-based solutions, and welcome minoritized, excluded, and marginalized peoples to build careers in physics.
Researchers at the U.S. Department of Energy’s (DOE) Argonne National Laboratory look forward to continuing their impact through DOE’s recently launched Net Zero World Initiative.
A digital, urbanised world consumes huge amounts of raw materials that could hardly be called environmentally friendly. One promising solution may be found in renewable raw materials, according to research published in Advanced Materials.
Switzerland and the EU are pushing the reuse of raw materials. But despite the best efforts, the circular economy in the textile industry sometimes produces abstruse blossoms. After all, recycling can also harm the environment. Empa researcher Claudia Som dispels sustainability myths in an interview and tells consumers how to recognize black sheep.
RUDN University chemist together with colleagues from India, Russia and South Africa showed that green microalgae Chlorella sorokiniana can be used for cleaning wastewater from a toxic pyrene. Algae absorb pyrene and at the same time change their metabolism to adapt to stressful conditions. As a result, more lipids are formed in algae, from which safe biofuels can be efficiently synthesized.
PNNL innovations won five awards in the competition results announced this week, with one of the laboratory's four awarded inventions garnering two awards. PNNL has received a total of 121 since the laboratory began submitting entries in 1969.
Having held senior executive roles in risk management at several of the largest financial services companies, Maryland Smith professor Clifford Rossi examines climate change implications for finance and risk management ahead of COP26.
An international collaboration of scientists has taken a significant step toward the realization of a nearly “green” zero-net-carbon technology that will efficiently convert carbon dioxide, a major greenhouse gas, and hydrogen into ethanol, which is useful as a fuel and has many other chemical applications.
Dr Filip Biljecki, Presidential Young Professor from the Department of Architecture at the National University of Singapore (NUS) School of Design and Environment, and NUS Master of Architecture graduate Mr Abraham Noah Wu developed an automated tool that uses satellite images to track how rooftops around the world adopt solar panels and/or vegetation.
Cornell University bioengineer Buz Barstow is trying to solve a big problem: How to build a low-cost, environmentally friendly and large-scale system for storing and retrieving energy from renewable sources such as wind and solar.
Many paper cartons and wraps for food have a noncompostable plastic coating. Plastic-free products are available but can transmit grease and oil, creating a mess. Now, scientists have created a degradable coating that can block this seepage. They will present their results at ACS Fall 2021.
Nylon 6-6 is used to make many products that require strength, durability and weather resistance, but its synthesis requires the endangered element zinc as a catalyst. Now, researchers have developed “greener” methods that use different metals. They will present their results at ACS Fall 2021.
Expert Q&A: Do breakthrough cases mean we will soon need COVID boosters? The extremely contagious Delta variant continues to spread, prompting mask mandates, proof of vaccination, and other measures. Media invited to ask the experts about these and related topics.
Achieving Net Zero energy, where the total amount of energy used is equal to the amount of renewable energy created, is closer than ever before, and hydrogen technologies will play an important role in achieving that goal, but needs and gaps need to be addressed before a true hydrogen-powered future can take form. There are many opportunities in the global public and private sectors for research, development, and deployment collaboration.
One of the leading thinkers in nano-science has called on the energy materials community to help finally put an end to the world's reliance on fossil fuels.
Australia’s leading companies in the heavy industrial sector will embark on a program that will enable a step-change in the rate at which they transition toward zero net-carbon emissions through the Heavy Industry Low-carbon Transition Cooperative Research Centre (HILT CRC).
An international research team reports their success in using urea and sodium hydroxide (NaOH, commonly known as lye or caustic soda) as a pretreatment of algae, which breaks down cellulose and more than doubles biogas production under their initial experimental conditions.
Designing a recycling strategy for a new, forthcoming generation of photovoltaic solar cells – made from metal halide perovskites, a family of crystalline materials with structures like the natural mineral calcium titanate – will add a stronger dose of environmental friendliness to a green industry, according to new research published in Nature Sustainability.
Carbon footprint declarations are used in construction to ease product selection for low carbon building, but these standards don’t yet exist for green elements like soil, bushes and plants. A new study led by Aalto University is the first to map out how green infrastructure can be a resource for cities on the path to carbon neutrality.
Researchers at Aalto University, in collaboration with Finnish acoustics company Lumir, have now studied how the acoustic solutions around us could become more eco-friendly, with the help of cellulose fibres. The acoustic insulation market is already expected to hit 15 billion USD by 2022 as construction firms and industry pay more attention to sound environments.
Wake steering is a strategy employed at wind power plants involving misaligning upstream turbines with the wind direction to deflect wakes away from downstream turbines, which consequently increases the net production of wind power at a plant. In Journal of Renewable and Sustainable Energy, researchers illustrate how wake steering can increase energy production for a large sampling of commercial land-based U.S. wind power plants. Several were ideal candidates.
A team of engineers recommends expanding fast-charging stations for electric vehicles as campuses and businesses start planning for a post-pandemic world. The recommendation is based on a study of charging patterns for electric vehicles on the University of California San Diego campus from early January to late May of 2020, after the university moved most of its operations online. Researchers say the findings can be applied to a broader range of settings.
Solar-power developers need to explore using lower-quality agricultural land for solar energy, incentivize dual-use (combined agriculture and solar) options, avoid concentrated solar development and engage communities early to achieve New York’s green energy goals, according to forthcoming Cornell University research.
Engineers have created an environmentally friendly leather alternative made from silk. The material can be printed into different patterns and textures, has similar physical properties to real leather, and can withstand the folding, piercing, and stretching typically used to create leather goods.