155587-93-2Relevant academic research and scientific papers
Toward Cove-Edged Low Band Gap Graphene Nanoribbons
Liu, Junzhi,Li, Bo-Wei,Tan, Yuan-Zhi,Giannakopoulos, Angelos,Sanchez-Sanchez, Carlos,Beljonne, David,Ruffieux, Pascal,Fasel, Roman,Feng, Xinliang,Müllen, Klaus
, p. 6097 - 6103 (2015)
Graphene nanoribbons (GNRs), defined as nanometer-wide strips of graphene, have attracted increasing attention as promising candidates for next-generation semiconductors. Here, we demonstrate a bottom-up strategy toward novel low band gap GNRs (Eg/s
Syntheses and crystal structures of strained planar silacyclynes containing a diacetylene unit
Guo, Li,Hrabusa III, Joseph M.,Tessier, Claire A.,Youngs, Wiley J.,Lattimer, Robert
, p. 43 - 54 (1999)
The synthesis and structural characterization of three silicon diacetylenic heterocyclynes 1,1-diisopropyl-4,5:10,11-dibenzosilacyclotrideca-4,10 diene-2,6,8,12-tetrayne (4), 1,1-dimethyl-4,5:10,11-dibenzosilacyclotrideca-4,10-diene-2,6,8,12-tetrayne (5),
Synthesis and Crystal Structure of 1,2:7,8:13,14:19,20-tetrabenzocyclotetracosa-1,7,13,19-tetraene-3,5,9,11,15,17,21,23-octayne
Guo, Li,Bradshaw, John D.,Tessier, Claire A.,Youngs, Wiley J.
, p. 243 - 244 (1994)
The title compound has been synthesized in a relatively high yield by the Glaser coupling reaction and characterized by X-ray crystallography and spectroscopy.
GRAPHENE NANORIBBONS WITH CONTROLLED ZIG-ZAG EDGE AND COVE EDGE CONFIGURATION
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Paragraph 44; 45; 46, (2015/09/22)
Provided are graphene nanoribbons with controlled zig-zag edge and cove edge configuration and methods for preparing such graphene nanoribbons. The nanoribbons are selected from the following formulae.
