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1-Fluoro-4-((E)-2-nitro-but-1-enyl)-benzene is an organic compound characterized by a benzene ring with a fluorine atom at the 1st position and a nitro-but-1-enyl group attached at the 4th position. The nitro-but-1-enyl group consists of a butenyl chain with a nitro group at the 2nd carbon, and the double bond is in the E configuration, indicating that the nitro group and the fluorine atom are on opposite sides of the double bond. 1-Fluoro-4-((E)-2-nitro-but-1-enyl)-benzene is a derivative of benzene with a fluorine atom and a nitroalkene side chain, which may have potential applications in the synthesis of pharmaceuticals, agrochemicals, or other specialty chemicals due to its unique structure and reactivity.

23063-47-0

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23063-47-0 Usage

Check Digit Verification of cas no

The CAS Registry Mumber 23063-47-0 includes 8 digits separated into 3 groups by hyphens. The first part of the number,starting from the left, has 5 digits, 2,3,0,6 and 3 respectively; the second part has 2 digits, 4 and 7 respectively.
Calculate Digit Verification of CAS Registry Number 23063-47:
(7*2)+(6*3)+(5*0)+(4*6)+(3*3)+(2*4)+(1*7)=80
80 % 10 = 0
So 23063-47-0 is a valid CAS Registry Number.

23063-47-0Downstream Products

23063-47-0Relevant academic research and scientific papers

Co-Polymeric Nanosponges from Cellulose Biomass as Heterogeneous Catalysts for amine-catalyzed Organic Reactions

Riva, Laura,Punta, Carlo,Sacchetti, Alessandro

, p. 6214 - 6222 (2020)

Heterogeneous catalysts prepared from biomass waste sources are attracting increasing interest. The reasons rely on the possibility of combining the virtuous approach of circular economy with the consolidated advantages of heterogeneous catalysis, namely the recycling of the system and the possibility to drive selectivity towards desired products. Herein we report a highly porous cellulose-based nanosponge (CNS) and its use as a recoverable catalyst for Henry and Knoevenagel reactions, two classical amino-catalyzed transformations. The material is obtained by cross-linking between TEMPO-oxidized cellulose nanofibers (TOCNF) and branched polyethyleneimine 25 kDa (bPEI) in the presence of citric acid. CNS have been developed as sorbent materials for water remediation but their use as heterogeneous catalysts was never investigated. The fully characterized micro- and nano-porous system guarantees a complete penetration of CNS, allowing reagents to diffuse within. Indeed, by modulating reaction conditions (catalyst loading, temperature, solvent, microwave versus conventional heating, relative ratio of reagents) it was possible to drive selectivity towards the desired products, while maintaining high efficiency in terms of conversion. The catalyst could be re-used several times without losing in catalytic efficiency. In most cases the products’ distribution is quite different from homogeneous conditions, this much more emphasizing the importance of this heterogeneous solution.

Substrate promiscuity of ortho-naphthoquinone catalyst: Catalytic aerobic amine oxidation protocols to deaminative cross-coupling and n-nitrosation

Kim, Hun Young,Oh, Kyungsoo,Si, Tengda

, p. 9216 - 9221 (2019/10/08)

ortho-Naphthoquinone-based organocatalysts have been identified as versatile aerobic oxidation catalysts. Primary amines were readily cross-coupled with primary nitroalkanes via deaminative pathway to give nitroalkene derivatives in good to excellent yields. Secondary and tertiary amines were inert to ortho-naphthoquinone catalysts; however, secondary nitroalkanes were readily converted by ortho-naphthoquinone catalysts to the corresponding nitrite species that in situ oxidized the amines to the corresponding N-nitroso compounds. Without using harsh oxidants in a stoichiometric amount, the present catalytic aerobic oxidation protocol utilizes the substrate promiscuity feature to provide a facile access to amine oxidation products under mild reaction conditions.

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