Article - 26 Feb 2004
Some properties of tungsten ditelluride are listed herein.
Goodfellow supplies metals, ceramics and other materials to meet the research, development and specialist production requirements of science and industry worldwide.
The Goodfellow group consists of...
News - 8 Jul 2020
In physics, they are currently the subject of intensive research; in electronics, they could enable completely new functions. So-called topological materials are characterised by special electronic...
News - 2 Sep 2020
The emergence of artificial intelligence and machine learning techniques is changing the world dramatically with novel applications such as internet of things, autonomous vehicles, real-time imaging...
News - 30 Jun 2020
A Stanford-led team has invented a way to store data by sliding atomically thin layers of metal over one another, an approach that could pack more data into less space than silicon chips, while also...
News - 8 Feb 2017
Goodfellow is pleased to introduce a range of 2D crystals that enable researchers to make their own 2D materials in the lab. To facilitate this innovative research.
Samples are supplied on...
Article - 30 May 2022
The present article discusses the origin of excitons and highlights the theory of excitons in two-dimensional (2D) semiconductors, focusing on TMD-based atomically thin semiconductors.
News - 11 Aug 2015
A multi-disciplinary research team had developed a fabrication technique for creating pure molybdenum ditelluride (MoTe2) last year. The team not only succeeded in developing pure MoTe2, it also was...
News - 7 Sep 2022
A new magnetic state in a monolayer of the novel quantum material tungsten ditelluride, or WTe2, has been demonstrated by a research team at the University of California, Riverside, led by a...
News - 11 Feb 2019
For the first time, scientists have successfully imaged “edge conduction” in a recently discovered 2D quantum material and topological insulator called monolayer tungsten ditelluride, or...