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![[6.6] Diphenyl C62 bis(butyric acid methyl ester)(mixture of isomers) 99.5%](/deepweb/assets/sigmaaldrich/product/structures/213/478/93c26667-6556-40bb-8cbe-350bdbabfc00/640/93c26667-6556-40bb-8cbe-350bdbabfc00.png)
![[6,6]-Phenyl C61 butyric acid methyl ester ≥99%](/deepweb/assets/sigmaaldrich/product/structures/359/221/d990c746-0960-4c69-bf76-fe09b193824d/640/d990c746-0960-4c69-bf76-fe09b193824d.png)
![[5,6]-Fullerene-C70 98%](/deepweb/assets/sigmaaldrich/product/structures/316/205/6bbd4872-2192-4042-bd5c-a2b6c4edba43/640/6bbd4872-2192-4042-bd5c-a2b6c4edba43.png)
Quality Level
분석
97% (HPLC)
양식
powder
mp
240-245 °C
solubility
chlorobenzene: soluble
organic solvents: soluble
toluene: soluble
SMILES string
CCOC(=O)CN1C(C(=O)OCC)C23c4c5c6c7c8c9c(c%10c%11c2c%12c%13c4c%14c%15c5c%16c7c%17c8c%18c%19c9c%10c%20c%21c%11c%12c%22c%23c%13c%14c%24c%25c%15c%16c%26c%17c%27c%18c%28c%19c%20c%29c%21c%22c%30c%23c%24c%31c%25c%26c%27c%32c%28c%29c%30c%31%32)C36C1C(=O)OCC
일반 설명
C60 Pyrrolidine tris-acid ethyl ester is a carboxylic ester terminated fulleropyrrolidine that can be used as an electron acceptor in organic electronic devices. It can be potentially used in the fabrication of perovskite solar cells.
Interaction of C60 pyrrolidine tris-acid ethyl ester (PyC60) with bisporphyrin in toluene was investigated.
애플리케이션
C60 Pyrrolidine tris-acid ethyl ester may be used to functionalize ZnO nanoparticles, to be used as a cathode buffer layer in solar cells.
신호어
Warning
유해 및 위험 성명서
Hazard Classifications
Eye Irrit. 2 - Skin Irrit. 2 - STOT SE 3
표적 기관
Respiratory system
Storage Class Code
11 - Combustible Solids
WGK
WGK 3
Flash Point (°F)
Not applicable
Flash Point (°C)
Not applicable
이미 열람한 고객
Carboxylic ester-terminated fulleropyrrolidine as an efficient electron transport material for inverted perovskite solar cells
Chang J, et al.
Journal of Material Chemistry C, 6(26), 6982-6987 (2018)
Photophysical investigations on determination of molecular structure and binding strength of supramolecular complexation between fulleropyrrolidine and a designed bisporphyrin in solution.
Mukherjee S, et al.
Spectrochimica Acta Part A: Molecular Spectroscopy, 109, 32-36 (2013)
Device Physics of the Carrier Transporting Layer in Planar Perovskite Solar Cells
Ren X, et al.
Advanced Optical Materials, 6(26), 1900407-1900407 (2019)
Anamika Ray et al.
The journal of physical chemistry. A, 115(35), 9929-9940 (2011-07-22)
The present article reports, for the first time, the photophysical aspects of noncovalent interaction of a fullerene derivative, namely, C(60) pyrrolidine tris-acid ethyl ester (PyC(60)) with a series of zincphthalocyanines, for example, underivatized zincphthalocyanine (1), zinc-1,4,8,11,15,18,22,25-octabutoxy-29H,31H-phthalocyanine (2), and zinc-2,3,9,10,16,17,23,24-octakis-(octyloxy)-29H,31H-phthalocyanine (3)
Performance enhancement of inverted polymer solar cells with fullerene ester derivant-modified ZnO film as cathode buffer layer.
Li P, et al.
Solar Energy Mat. and Solar Cells, 126, 36-41 (2014)
문서
Find various photovoltaic and bioscience-based applications of fullerenes.
Organic materials in optoelectronic devices like LEDs and solar cells are of significant academic and commercial interest.
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