A crystal clear design for high-performance flexible thermoelectric semiconductors

Crystal clear design for high-performance flexible thermoelectric semiconductor

Researchers have identified a new material which could be used as a flexible semiconductor in wearable devices by using a technique that focuses on the manipulation of spaces between atoms in crystals.

A crystal clear design for high-performance flexible thermoelectric semiconductors

QUT researchers have identified a new material which could be used as a flexible semiconductor in wearable devices by using a technique that focuses on the manipulation of spaces between atoms in crystals.

New material promises flexible thermoelectric semiconductors

Researchers have created synthesised flexible thermoelectric semiconductors through a simple and cost-effective melting method. The post New material promises flexible thermoelectric semiconductors appeared first on Innovation News Network.

New semiconductor alloy from QUT converts body heat to power wearables - Australian Manufacturing

Researchers from the Queensland University of Technology (QUT) have discovered a new material that could advance the development of wearable electronics by improving flexible thermoelectric semiconductors.

From Light to Heat: an efficiency level of 67% has been reached in China, opening a new path to energy - Economic Scenarios

Scientists have developed a new class of organic photothermal cocrystals that significantly increase the efficiency of solar thermoelectric generators (STEGs) , paving the way for smarter wearable electronics, next-generation energy devices and long-distance signal transmission. A STEG is a generator capable of converting sunlight into heat, which can then be used for other purposes. With recent research leading to major advances in the field of…

Transparent design advances high-performance flexible thermoelectric

Scientists at Queensland University of Technology (QUT) have unveiled a groundbreaking development in the field of flexible semiconductors tailored for wearable electronics. Utilizing a cutting-edge approach known as vacancy engineering, these researchers have manipulated the atomic-scale structure of a novel AgCu(Te, Se, S) alloy, composed of silver, copper, tellurium, selenium, and sulfur, to create a flexible thermoelectric material. This mat…