Phase transformations—in which a material changes from one crystal structure to another, thereby acquiring dramatically ...
Two-dimensional (2D) materials promise revolutionary advances in electronics and photonics, but many of the most interesting candidates degrade within seconds of air exposure, making them nearly ...
New research has revealed that water behaves differently when confined to spaces just one molecule thick. For the first time, ...
Plastic, glass and gels, also known as bulk amorphous materials, are everyday objects to all of us. But for researchers, these materials have long been scientific enigmas—specifically when it comes to ...
A simple oxygen or fluorine coating could help manufacturers produce MoSâ‚‚-based transistors without damaging the delicate ...
A newly found chain-reaction phase change in 2D MoTe2 lowers energy barriers, enabling faster control of electronic and ...
Researchers developed a safe and simple sublimation method that produces sheets of atomically-thin semiconductor crystals. This could streamline the process for creating faster, more efficient ...
Researchers from the National University of Singapore (NUS) have synthesised the world's first one-atom-thick amorphous material. Previously thought to be impossible, the discovery of monolayer ...
A new fabrication approach enables ultra-narrow 2D transistors to retain high performance at smaller dimensions.
A new study into two-dimensional amorphous carbon is providing answers to long-standing questions regarding the atomic makeup of bulk amorphous materials, opening the door to exciting device ...
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