The accumulation of carbon dioxide (CO2) in the atmosphere has been recognized as one
of the primary factors attributed to global warming. Various strategies have been proposed to …

Carbon capture and storage (CCS) is essential if global warming mitigation scenarios are to
be met. However, today's maturing thermochemical capture technologies have exceedingly …

The heat capacity of a material is a fundamental property of great practical importance. For
example, in a carbon capture process, the heat required to regenerate a solid sorbent is …

Machine learning (ML) using data sets of atomic and molecular force fields (FFs) has made
significant progress and provided benefits in the fields of chemistry and material science …

Carbon capture, utilization, and storage (CCUS) is a promising pathway to decarbonize
fossil-based power and industrial sectors and is a bridging technology for a sustainable …

In response to the urgency of reducing CO2 emissions, nearly 200 countries have joined the
“Paris Agreement”. It sets long-term low-carbon development goals, which aim to achieve …

The urgent need for effective climate change mitigation has spurred the exploration of
various negative emission technologies (NETs). Here, we investigate recent advancements …

The global climate change caused by the continuous increase of carbon dioxide (CO 2)
emissions has seriously threatened the survival of human beings, so it is imperative to …

A major obstacle for machine learning (ML) in chemical science is the lack of physically
informed feature representations that provide both accurate prediction and easy …

Environmental issues caused by food waste are important concerns for human well-being
and ecosystem health. Valorization of food waste into energy and carbon materials has …