Green Ammonia and Hydrogen

Electrocatalysis is becoming more complex, making it challenging to explore. With so many reports published annually, researchers frequently make electrocatalytic systems more challenging to improve performance. Current electrochemical and analytical methods need help to meet this complexity, making fundamental catalytic aspects elusive. This leads to the development of complex interface-related hypotheses. A pathway with essential […]

Society based on hydrogen: present and future The development of renewable energy sources and the increasing demand for energy resources have led to numerous issues in energy and the environment. Successfully constructing a hydrogen society requires technological advancements and rational design of hydrogen production, storage, delivery, and usage. A recent paper published in “Energy &

The current global energy crisis has made it critical to investigate non-fossil-fuel-based nitrogen fixation (NF) methods for synthetic fertiliser production. One of these techniques is plasma-based NF. Plasma is an ionised gas that can operate on a decentralised, small-scale basis using abundant feedstocks such as air, nitrogen, and water. Researchers recently investigated the selectivity of

Hydrogen technologies are quickly progressing in terms of their commercial availability and potential to reduce emissions across several industries. Developing these technologies and utilising renewable energies for hydrogen production is crucial to reaching climate change mitigation targets and decreasing our reliance on fossil fuels. This blog article reviews the present status of innovation in hydrogen

Yearly worldwide carbon dioxide (CO2) emissions reached 34.2 gigatonnes (Gt) in 2019, with transportation accounting for about 25% of total CO2 emissions. With worldwide energy demand expected to rise by at least 50% by 2050 owing to population expansion and accompanying increases in energy consumption, large-scale deployment of low-carbon renewable energy (RE) is required to

The world is on a road to transition to sustainable and renewable energy, and one of the most difficult problems is lowering glasshouse gas emissions in difficult-to-abate industries. Shipping, steel, and aviation, for example, contribute for 27% of worldwide glasshouse gas emissions, and they need an alternative to hydrogen to decarbonise their activities. Although hydrogen

A promising method for the electrochemical synthesis of ammonia from nitrogen and hydrogen has been discovered in new research, which could decentralise the current mass production of fertiliser. The method involves lithium-ion cathodic reduction in an organic solvent electrolyte, followed by lithium-nitrogen reaction. Conventional hydrogen oxidation catalysts for the complementary anodic process, on the other