An international team of researchers has developed a breakthrough method for producing MXenes—an important family of two-dimensional materials—with unprecedented purity and control. The new ...

The Times of India Sports Awards 2025 brought together our top athletes and motivational achievers, all under one roof. The event celebrated Indian sports achievements from last year, while it ...

A team of Chinese researchers has developed a flexible composite solid electrolyte that delivers liquid-like ionic conductivity while operating without external pressure. The advance could simplify ...

Heat transfer is a fundamental property of matter. Research spanning decades has attempted to discover materials with exceptional thermal conductivity, yet the upper limit remains unknown. Using deep ...

Data center servers, powerful smartphones, and your computer's motherboard have one thing in common. When these devices get too hot, their performance takes a hit, and we can't have that. That's why ...

Why it matters: For more than a century, copper and silver have set the standard for thermal conductivity in metals. A new study by UCLA engineers and their collaborators challenges that assumption, ...

The team confirmed the material’s performance using multiple techniques, including synchrotron-based X-ray scattering and ultrafast optical spectroscopy. (Representational image)Jose/Allan Researchers ...

A UCLA-led, multi-institution research team has discovered a metallic material with the highest thermal conductivity measured among metals, challenging long-standing assumptions about the limits of ...

University of Houston researchers have made a discovery in thermal conductivity that overturns an existing theory that boron arsenide (BAs) couldn't compete with the heat conduction of a diamond.

In a collaborative study with the University of California, Santa Barbara, and Boston College, University of Houston researchers found the thermal conductivity of boron arsenide can compete with ...