Artificial intelligence (AI)-based methods continue to make inroads into accelerated
materials design and development. Here, we review AI-enabled advances made in the …

Biopolymers-based aerogels have gained the attention of many scientists in medical and
pharmaceutical applications. Biopolymers-based aerogels are utilized extensively in the …

The rapid increase in both the quantity and complexity of data that are being generated daily
in the field of environmental science and engineering (ESE) demands accompanied …

The design and manufacture of new biodegradable and bioderived polymeric materials has
traditionally taken place through experimentation and material characterisation. However …

Research on solid polymer electrolytes (SPEs) is now moving beyond the realm of
polyethers that have dominated the field for several decades. A promising alternative group …

Non-degradable plastic waste jeopardizes our environment, yet our modern lifestyle and
current technologies are impossible to sustain without plastics. Bio-synthesized and …

Polyhydroxyalkanoate (PHA), a biodegradable polymer obtained from microorganisms and
plants, have been widely used in biomedical applications and devices, such as sutures …

High-entropy alloys have received significant attention because of remarkable structural
properties exhibited by certain alloy compositions. However, these properties are strongly …

Conventional plastics pose significant environmental and health risks across their life cycle,
driving intense interest in sustainable alternatives. Among these, polyhydroxyalkanoates …

The preparation of tough elastomer materials for use in ultralow temperature environments
(<− 100° C) has always been a challenge in materials science. Despite polydiethylsiloxane …