Computer illustration of a molecular model of a sheet of stanene showing the low buckled structure that is predicted from density functional theory (DFT) calculations. Stanene has a similar honeycomb structure to graphene but is composed of tin atoms. With the addition of fluorine atoms, it is thought that it can achieve 100% efficiency as an electrical conductor. The first fabrication of stanene was achieved in August 2015 by researchers in America and China.
px | px | dpi | = | cm | x | cm | = | MB |
Details
Creative#:
TPG32820076
Source:
達志影像
Authorization Type:
RF
Release Information:
須由TPG 完整授權
Model Release:
N/A
Property Release:
N/A
Right to Privacy:
No
Same folder images:
2-dimensional2D3DatomatomsbuckleddensityfunctionaltheoryDFTelementhoneycombillustrationlatticelayermaterialmolecularmodelmoleculesmonolayernanonanotechnologynanoelectricalnanoelectronicsphysicsresearchsemi-conductorsemiconductorsheetstanenestrengthstructuresuperconductortechnologytintopologydiminishingperspectiveskydawnartworkillustrationnobodyno-one
2-dimensional2D3DDFTartworkatomatomsbuckleddawndensitydiminishingelementfunctionalhoneycombillustrationillustrationlatticelayermaterialmodelmolecularmoleculesmonolayernanonanoelectricalnanoelectronicsnanotechnologyno-onenobodyperspectivephysicsresearchsemi-conductorsemiconductorsheetskystanenestrengthstructuresuperconductortechnologytheorytintopology