Yu Huang

TL;DR: This study defines a unique pathway to large-scale fabrication of high-performance graphene transistors, and holds significant potential for future application of graphene-based devices in ultra–high-frequency circuits.

TL;DR: This result shows the interplay between thermal and electrical interactions at the highly reactive nanocontacts and highlights the control of the nanoscale reaction as a simple and effective way of turning individual metallic nanowires into a highly conductive interconnected nanowire network.

TL;DR: In this article, the authors review the promise and current status of 2D transistors, and emphasize that widely used device parameters (such as carrier mobility and contact resistance) could be frequently misestimated or misinterpreted, and may not be the most reliable performance metrics for benchmarking two-dimensional transistors.

TL;DR: 3D imaging of dislocations in materials at atomic resolution by electron tomography is reported, and nearly all the atoms in a multiply twinned platinum nanoparticle are observed by applying 3D Fourier filtering together with equal-slope tomographic reconstruction.

TL;DR: Stable hemin-graphene conjugates formed by immobilization of monomeric hemin on graphene, showed excellent catalytic activity, more than 10 times better than that of the recently developedhemin-hydrogel system and 100 times betterthan that of unsupported hemin.