1512844-22-2Relevant academic research and scientific papers
Visible-light-induced selective synthesis of sulfoxides from alkenes and thiols using air as the oxidant
Cui, Huanhuan,Wei, Wei,Yang, Daoshan,Zhang, Yulong,Zhao, Huijuan,Wang, Leilei,Wang, Hua
supporting information, p. 3520 - 3524 (2017/08/15)
A highly selective synthesis of sulfoxides from alkenes and thiols was established by visible-light photoredox catalysis at room temperature. This metal-free transformation protocol, which uses inexpensive Rose Bengal as the photocatalyst and air as the green oxidant, opens a new door toward the facile and practical construction of sulfoxides.
Sulfoxidation of alkenes and alkynes with NFSI as a radical initiator and selective oxidant
Zhang, Yuexia,Wong, Zeng Rong,Wu, Xingxing,Lauw, Sherman J. L.,Huang, Xuan,Webster, Richard D.,Chi, Yonggui Robin
supporting information, p. 184 - 187 (2016/12/27)
Sulfoxides are important functional molecules. We develop a short-route (one-pot) synthesis of this class of molecules by reacting thiols with alkenes or alkynes under mild and metal-free conditions. N-Fluorobenzenesulfonimide (NFSI) is used to play dual roles: as a radical initiator for a thiol-ene/-yne reaction to form sulfide adducts, and as efficient oxidant for conversion of the sulfides formed in situ to sulfoxides. Over-oxidation of the sulfoxides to sulfones is avoided in our approach.
Palladium(II)-catalyzed ortho -olefination of arenes applying sulfoxides as remote directing groups
Wang, Binjie,Shen, Chuang,Yao, Jinzhong,Yin, Hong,Zhang, Yuhong
, p. 46 - 49 (2014/01/23)
A novel palladium-catalyzed ortho-C(sp2)-H olefination protocol has been developed by the use of sulfoxide as the directing group. Importantly, relatively remote coordination can be accessed to achieve the ortho olefination of benzyl, 2-arylethyl, and 3-arylpropenyl sulfoxide substrates, and the olefinated sulfoxide can be easily transformed to other functionalities.
Synthesis of sulfur-bridged polycycles via Pd-catalyzed dehydrogenative cyclization
Wang, Binjie,Liu, Yue,Lin, Cong,Xu, Yiming,Liu, Zhanxiang,Zhang, Yuhong
, p. 4574 - 4577 (2015/01/08)
A general approach to sulfur-bridged polycycles by palladium-catalyzed double C(sp2)-H bond oxidative cyclization is presented. This protocol afforded diverse sulfur-bridged five-, six-, and seven-membered polycycles in moderate to good yields with a tolerance for a wide variety of functional groups. A sulfide-bridged six-membered pyrene-thienoacene compound was synthesized readily using this method, and excellent performance for photoluminescence quantum yield was observed.
