As the world moves toward sustainable energy, hydrogen will likely play an invaluable role as a clean and versatile fuel. Yet ...

Researchers tested a strategy for developing single-atom catalysts that may help us develop more efficient methods for water purification.

It needs a temperature of about 100 – 150 million °C (180 – 270 million °F), a pressure of five to 10 atmospheres at the point of reaction, and the ability to maintain a stable high-energy ...

Relevance to clean energy and achieving a net zero economy ... Effects of cellular stress. Reaction optimization. Enzyme immobilization. Nanoreactors (e.g. lipid based). Biocatalytic retrosynthesis.

Furthermore, the energy demand is significantly lowered, since for the BAU route, four reaction steps (i.e., methane reforming to CO, methane reforming to syngas, syngas conversion to methanol, and ...

The high activation energy for hydrogen release suggested strong interactions, making the material a promising catalyst for efficient and sustainable hydrogen-based reactions. This newly developed ...

However, when the researchers blocked an earlier step in glycolysis, the enzyme glucose ... involves many reactions, is divided into two parts. First, the cell has to invest energy to generate ...

a Reaction conditions: 0.3 mmol of 1, 9.0 mL of dry DCM, 440 nm Kessil lamp, rt, 12 h. Yields are of isolated products. b Reaction was performed at −78 °C. c Reaction was performed at −78 °C, isolated ...

a crucial challenge of plasma catalysis. This will move us to the next step in applying this technology to open new avenues for carbon-free, sustainable energy and chemistry production. Topics of ...

Scientists in the United States have proposed to use a thermochemical energy storage (TCES ... a reactive bed of TCES materials in a solid-gas reaction; indirect heat transfer between hot air ...