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Research shows that green technology innovation significantly reduces PM2.5 and PM10 levels in China's river basins, ...
Research on microplastic removal technologies highlights the potential of natural extracts and engineered systems to tackle ...
Photoelectrochemical systems offer a sustainable alternative to fossil fuels, driving clean energy production while tackling ...
Georgia Tech's innovative DAC method utilizes cold energy from LNG, enabling efficient CO2 capture with low-cost materials ...
By quantifying carbon sequestration, AgreenaCarbon provides farmers with financial rewards, fostering sustainable agriculture ...
Natural hydrogen production by Koloma utilizes geologic extraction, minimizing energy use and emissions while enhancing ...
The innovative biodegradable metafilm from PLA enhances passive radiative cooling, addressing energy efficiency and ...
The environmental impact of artificial intelligence is profound, balancing resource consumption with potential climate solutions. Addressing this is urgent.
Potassium-ion batteries could have a higher energy density than sodium-ion batteries. This is important for large-scale ...
Rahman's research on bacterial cellulose reveals a scalable method to create eco-friendly materials, addressing plastic pollution and promoting sustainability.
Findings indicate that diverse hydrogen production strategies could achieve up to 96% emission reductions, crucial for China's 2060 carbon neutrality targets.
Four groundbreaking ideas that could transform the world around us have been named winners of the Royal Society of ...