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(but-3-en-1-ylsulfonyl)benzene is a chemical with a specific purpose. Lookchem provides you with multiple data and supplier information of this chemical.

67100-44-1

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67100-44-1 Usage

Check Digit Verification of cas no

The CAS Registry Mumber 67100-44-1 includes 8 digits separated into 3 groups by hyphens. The first part of the number,starting from the left, has 5 digits, 6,7,1,0 and 0 respectively; the second part has 2 digits, 4 and 4 respectively.
Calculate Digit Verification of CAS Registry Number 67100-44:
(7*6)+(6*7)+(5*1)+(4*0)+(3*0)+(2*4)+(1*4)=101
101 % 10 = 1
So 67100-44-1 is a valid CAS Registry Number.

67100-44-1Relevant academic research and scientific papers

Alkylation of Nitropyridines via Vicarious Nucleophilic Substitution

Antoniak, Damian,Barbasiewicz, Micha?

supporting information, p. 516 - 519 (2022/01/20)

Electrophilic nitropyridines react with sulfonyl-stabilized carbanions to give products of C-H alkylation via vicarious nucleophilic substitution. The process consists of formation of the Meisenheimer-type adduct followed by base-induced β-elimination of the sulfinic acid (e.g., PhSO2H). Mechanistic studies reveal that in the latter step alkyl substituent and adjacent nitro group tend to planarize for effective stabilization of benzyl anion, and thus, adduct of hindered isopropyl carbanion remains stable toward elimination for steric reasons.

Photochemical Strain-Release-Driven Cyclobutylation of C(sp3)-Centered Radicals

Ernouf, Guillaume,Chirkin, Egor,Rhyman, Lydia,Ramasami, Ponnadurai,Cintrat, Jean-Christophe

supporting information, p. 2618 - 2622 (2019/11/19)

A new photoredox-catalyzed decarboxylative radical addition approach to functionalized cyclobutanes is described. The reaction involves an unprecedented formal Giese-type addition of C(sp3)-centered radicals to highly strained bicyclo[1.1.0]but

DISULFIDE BIOCONJUGATION

-

Page/Page column 26, (2018/11/22)

Compounds and methods are provided for one-step functionalization of disulfide bonds in proteins.

Green Organocatalytic Oxidation of Sulfides to Sulfoxides and Sulfones

Voutyritsa, Errika,Triandafillidi, Ierasia,Kokotos, Christoforos G.

, p. 917 - 924 (2017/02/15)

A highly efficient synthetic methodology towards the selective synthesis of sulfoxides and sulfones is reported using a cheap and green organocatalytic method. Starting from sulfides and using 2,2,2-trifluoroacetophenone as the organocatalyst and H2O2 as the oxidant, the high-yielding preparation of sulfoxides or sulfones is described, being dependent on the reaction conditions.

Unified Synthesis of 10-Oxygenated Lycopodium Alkaloids: Impact of C10-Stereochemistry on Reactivity

Saha, Mrinmoy,Li, Xin,Collett, Nathan D.,Carter, Rich G.

, p. 5963 - 5980 (2016/07/23)

The pronounced impact of the C10 stereochemistry on the successful construction of a polycyclic Lycopodium alkaloid scaffold has been explored. A wide range of reaction conditions and functionality were investigated to control a keto sulfone Michael addition to construct the C7-C12 linkage. An unexpected, overriding impact of the C10 stereochemistry in stereoselectivity and reaction rate in the Michael addition was observed. Furthermore, divergent reactivity of a conformationally accelerated, intramolecular Mannich cyclization based on the C10 stereochemistry was discovered. The successful execution of this synthetic route resulted in the total synthesis of all three known 10-oxygenated Lycopodium alkaloids: 10-hydroxylycopodine, paniculine, and deacetylpaniculine.

Efficient and selective hydrogen peroxide-mediated oxidation of sulfides in batch and segmented and continuous flow using a peroxometalate-based polymer immobilised ionic liquid phase catalyst

Doherty,Knight,Carroll,Ellison,Hobson,Stevens,Hardacre,Goodrich

supporting information, p. 1559 - 1571 (2015/03/18)

The peroxometalate-based polymer immobilized ionic liquid phase catalyst [PO4{WO(O2)2}4]@PIILP has been prepared by anion exchange of ring opening metathesis-derived pyrrolidinium-decorated norbornene/cyclooctene copolymer and shown to be a remarkably efficient system for the selective oxidation of sulfides under mild conditions. A cartridge packed with a mixture of [PO4{WO(O2)2}4]@PIILP and silica operated as a segmented or continuous flow process and gave good conversions and high selectivity for either sulfoxide (92% in methanol at 96% conversion for a residence time of 4 min) or sulfone (96% in acetonitrile at 96% conversion for a residence time of 15 min). The immobilized catalyst remained active for 8 h under continuous flow operation with a stable activity/selectivity profile that allowed 6.5 g of reactant to be processed (TON = 46 428) while a single catalyst cartridge could be used for the consecutive oxidation of multiple substrates giving activity-selectivity profiles that matched those obtained with fresh catalyst.

Copper-catalyzed trifluoromethylation and cyclization of aromatic-sulfonyl-group-tethered alkenes for the construction of 1,2-benzothiazinane dioxide type compounds

Dong, Xiang,Sang, Rui,Wang, Qiang,Tang, Xiang-Ying,Shi, Min

supporting information, p. 16910 - 16915 (2014/01/06)

A multi-talented system: An efficient copper-catalyzed tandem trifluoromethylation/annulation of an electron-deficient aromatic ring has been developed. This method provides a powerful and straightforward way to synthesize trifluoromethylated 1,2-benzothiazinane dioxides under mild conditions (see scheme). The mechanism was investigated by a series of kinetic experiments and isotopic labeling studies.

Synthesis of trans-disubstituted alkenes by cobalt-catalyzed reductive coupling of terminal alkynes with activated alkenes

Mannathan, Subramaniyan,Cheng, Chien-Hong

supporting information, p. 11771 - 11777 (2012/10/30)

A cobalt-catalyzed reductive coupling of terminal alkynes, RC≡CH, with activated alkenes, R'CH=CH2, in the presence of zinc and water to give functionalized trans-disubstituted alkenes, RCH=CHCH2CH 2R', is described. A variety of aromatic terminal alkynes underwent reductive coupling with activated alkenes including enones, acrylates, acrylonitrile, and vinyl sulfones in the presence of a CoCl2/P(OMe) 3/Zn catalyst system to afford 1,2-trans-disubstituted alkenes with high regio- and stereoselectivity. Similarly, aliphatic terminal alkynes also efficiently participated in the coupling reaction with acrylates, enones, and vinyl sulfone, in the presence of the CoCl2/P(OPh)3/Zn system providing a mixture of 1,2-trans- and 1,1-disubstituted functionalized terminal alkene products in high yields. The scope of the reaction was also extended by the coupling of 1,3-enynes and acetylene gas with alkenes. Furthermore, a phosphine-free cobalt-catalyzed reductive coupling of terminal alkynes with enones, affording 1,2-trans-disubstituted alkenes as the major products in a high regioisomeric ratio, is demonstrated. In the reactions, less expensive and air-stable cobalt complexes, a mild reducing agent (Zn) and a simple hydrogen source (water) were used. A possible reaction mechanism involving a cobaltacyclopentene as the key intermediate is proposed. Copyright

Hydride affinities of cumulated, isolated, and conjugated dienes in acetonitrile

Zhu, Xiao-Qing,Liang, Hao,Zhu, Yan,Cheng, Jin-Pei

experimental part, p. 8403 - 8410 (2009/04/11)

(Chemical Equation Presented) The hydride affinities (defined as the enthalpy changes in this work) of 15 polarized dienes [five phenyl sulfone substituted allenes (1a), the corresponding five isolated dienes (1b), and the corresponding five conjugated dienes (1c)] in acetonitrile solution were determined by titration calorimetry for the first time. The results display that the hydride affinity scales of the 15 dienes in acetonitrile range from -71.6 to -73.9 kcal/mol for 1a, from -46.2 to -49.7 kcal/mol for 1b, and from -45.0 to -46.5 kcal/mol for 1c, which indicates that the hydride-obtaining abilities of the cumulated dienes (1a) are not only much larger than those of the corresponding conjugated dienes (1c) but also much larger than those of the corresponding isolated dienes (1b). The hydrogen affinities of the 15 dienes as well as the hydrogen affinities and the proton affinities of the radical anions of the dienes (1-.) in acetonitrile were also evaluated by using relative thermodynamic cycles according to Hess's law. The results show that (i) the hydrogen affinities of the neutral dienes 1 cover a range from -44.5 to -45.6 kcal/mol for 1a, from -20.4 to -21.4 kcal/ mol for 1b, and from -17.3 to -18.5 kcal/mol for 1c; (ii) the hydrogen affinities of the radical anions of the dienes (1-.) in acetonitrile cover a range from -40.6 to -47.2 kcal/mol for 1a-., from -21.6 to -29.6 kcal/mol for 1b-., and from -10.0 to -15.4 kcal/mol for 1c-.; (iii) the proton affinities of the 15 1a-. in acetonitrile cover a range from -97.0 to -100.6 kcal/mol for 1a-., from -77.8 to -83.4 kcal/ mol for 1b -., and from -66.2 to -68.9 kcal/mol for 1c-.. The main reasons for the great difference between the cumulated dienes and the corresponding isolated and conjugated dienes in the hydride affinity, hydrogen affinity, and proton affinity have been examined. It is evident that these experimental results should be quite valuable to facilitate the elucidation of the origins of the especially high chemical potencies of the allenes, the choice of suitable hydride reducing agents to reduce the dienes, and the analyses on the reduction mechanisms.

Diastereoselective synthesis of tetrahydrofurans via reaction of γ,δ-epoxycarbanions with aldehydes

Makosza, Mieczyslaw,Barbasiewicz, Michal,Krajewski, Dariusz

, p. 2945 - 2948 (2007/10/03)

(Chemical Equation Presented) Hydroxymethyl-substituted tetrahydrofurans were prepared with high diastereoselectivity by reaction of the carbanion derived from 3,4-epoxybutyl phenyl sulfone with aldehydes in the presence of a mixture of lithium and potass

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