In medicine, security, nuclear safety and scientific research, X-rays are essential tools for seeing what remains hidden. The ...

Accurate monitoring of ethanol at extremely low concentrations is important across industrial safety, healthcare, food ...

Scientists have unveiled a glass–plastic hybrid that bends instead of shattering, upending long‑held assumptions about how ...

New bismuth-based organic-inorganic hybrid materials show exceptional sensitivity and long-term stability as X-ray detectors, significantly more sensitive than commercial X-ray detectors. In addition, ...

Twin polymerization is an innovative synthetic strategy that enables the simultaneous formation of two distinct polymer networks within a single reaction process. This technique facilitates the ...

A squishy material made of thin layers might help make your future devices faster and more energy efficient. This new hybrid material, known as β-ZnTe(en)₀.₅, changes its internal structure in ...

Researchers in South Korea have designed a polymer composite that keeps its structure even near 1,000 °C flames, potentially ...

Thermoelectric materials enable the direct conversion of heat into electrical energy. This makes them particularly attractive for the emerging “Internet of Things”, for example for the autonomous ...

In a study published in Advanced Materials, Biwu Ma, a Professor of Chemistry and Biochemistry at Florida State University, and his team how zero-dimensional (0D) organic metal halide hybrids (OMHHs) ...

Over the past decade, their applications have burgeoned across sectors from food packaging and environmental remediation to a broad array of biomedical uses, driven by increasing demands for ...

A new technique builds inorganic and polymer battery electrolytes at the same time, in the same vessel. This 'one-pot' in-situ method creates a controlled, homogeneous blend, pairing the conductivity ...