ChemInform Abstract: THE CARBON‐NITROGEN DOUBLE BOND: SPECTRA, STRUCTURE, THERMAL AND PHOTOCHEMICAL E/Z ISOMERIZATIONorganic chemistry, reviewNois available for this article.doi:10.1002/chin.198215353R. PAETZOLDM. + REICHENBAECHERK. APPENROTH
On a weight basis, carbon is 19th in order of elemental abundance in Earth’s crust, and there are estimated to be 3.5 times as many carbonatomsassiliconatoms in theuniverse. Onlyhydrogen,helium,oxygen,neon, andnitrogenare atomically more abundant in the cosmos than carbon. Carbon is the cos...
ChemInform Abstract: Photochemistry of the Carbon-Nitrogen Double Bond. Part 1. Carbon-Nitrogen vs. Carbon-Carbon Double Bond Isomerization in the Photoche... ChemInform Abstract: Photochemistry of the Carbon-Nitrogen Double Bond. Part 1. Carbon-Nitrogen vs. Carbon-Carbon Double Bond Isomerization in...
Addition of nitrogen dioxide to carbon–carbon double bond followed by a cyclization to construct nitromethylated isoquinolinediones Heterocyclic derivatives 4-(nitromethyl) isoquinoline-1,3(2H,4H)-diones were synthesized via a tandem ... X Li,S Zhuang,X Fang,... 被引量: 0发表: 2017年 ChemInf...
only carbon-14 is of sufficiently longhalf-lifeto be important. It is formed by the interaction ofneutrons, produced bycosmic radiation, withnitrogen(N) in theatmospherein a reaction that may be written as follows (neutron is symbolized as10n, the nitrogen atom as147N, and ahydrogennucleus,...
Doping with pyridinic nitrogen atoms is known as an effective strategy to improve the activity of carbon-based catalysts for the oxygen reduction reaction. However, pyridinic nitrogen atoms prefer to occupy at the edge or defect sites of carbon materials
Electrochemistry of the carbon–nitrogen double bondelectrolytic methodoxidizing organic moleculescatalytic hydrogenationelectrochemical processelectrical gradientJohn Wiley & Sons, Ltd.doi:10.1002/9780470771204.ch11LundHenning
Graphitic carbon nitride is widely studied in organic photoredox catalysis. Reductive quenching of carbon nitride excited state is postulated in many photocatalytic transformations. However, the reactivity of this species in the turn over step is less ex
that 10 s is sufficient for reaching equilibrium state between each scan), spectrum width = 34.7 kHz, acquisition time = 100 ms, number of scans = 1200–4000, and temperature range = −100 °C to 25 °C (low temperature was controlled using a liquid nitrogen tank)....
Electroluminescence efficiency is crucial for the application of quantum-dot light-emitting diodes (QD-LEDs) in practical devices. We demonstrate that nitrogen-doped carbon nanodot (N-CD) interlayer improves electrical and luminescent properties of QD-LE