Phase-change materials (PCMs) that can reversibly transit between crystalline and amorphous phases have been widely used for data-storage and other functional devices. As PCMs scale down to nanoscale, the properties and transition procedures can vary, bringing both challenges and opportunities in scalab...
Here, a different and previously under-explored property that is also intrinsic to phase-change materials and devices, namely accumulation, is exploited to demonstrate that nanometer-scale electronic phase-change devices can also provide a powerful form of arithmetic computing. Complicated arithmetic ...
This phenomenon is reported in a heterostructure of 2D materials. Zuocheng Zhang , Emma C. Regan & Feng Wang Article | 04 August 2022 Sustained unidirectional rotation of a self-organized DNA rotor on a nanopore A self-assembled DNA structure is coupled to a nanopore and exhibits ...
High-speed and large-scale intrinsically stretchable integrated circuits High-density, intrinsically stretchable transistors with high driving ability and integrated circuits with high operation speed and large-scale integration were enabled by a combination of innovations in materials, fabrication process desig...
Beyond von-Neumann Computing with Nanoscale Phase-Change Memory Devices Historically, the application of phase-change materials and devices has been limited to the provision of non-volatile memories. Recently, however, the pote... C David Wright,P Hosseini,JAV Diosdado - 《Advanced Functional Materi...
and light, which means it is difficult to manipulate the transmission of phonons through existing electronic manipulation methods. In the past few decades, phonon manipulation has been found to be possible by introducing disorder, interfaces, boundaries, defects and asymmetric structures in materials. ...
Beyond von-Neumann Computing with Nanoscale Phase-Change Memory Devices Historically, the application of phase-change materials and devices has been limited to the provision of non-volatile memories. Recently, however, the pote... C David Wright,P Hosseini,JAV Diosdado - 《Advanced Functional Materi...
Nanotechnology offers ways to create new materials that have improved properties for applications such as structural members, electronic circuit elements, optical devices, and a host of other uses [1] In some respects, the testing of bulk materials and those created with nanotechnology are similar. ...
Historically, the application of phase-change materials and devices has been limited to the provision of non-volatile memories. Recently, however, the pote... C David Wright,P Hosseini,JAV Diosdado - 《Advanced Functional Materials》 被引量: 76发表: 2013年 Nanoscale memory devices - art. no....
Nanometre-sized clusters can self-organize into centimetre-scale hierarchical structures, mimicking the complex constructions seen in nature and providing a platform to design synthetically directed advanced materials with sophisticated functions. Haixiang Han ...