53340-10-6Relevant articles and documents
Pd-catalyzed C–P coupling of heteroaryl boronic acid with H-phosphonate diester
Geng, Zhiyue,Zhang, Yudan,Zheng, Lu,Li, Jingya,Zou, Dapeng,Wu, Yangjie,Wu, Yusheng
, p. 3063 - 3066 (2016)
We report herein a novel protocol to construct C–P bond from heteroaryl boronic acid with H-phosphonate diester under Pd–Ag catalyzed system without addition of base. This method, directly using commercial available heteroaryl boronic acid as the starting
Palladium-catalyzed one-pot phosphorylation of phenols mediated by sulfuryl fluoride
Zhang, Yiyuan,Chen, Wanting,Tan, Tingting,Gu, Yuang,Zhang, Shuning,Li, Jie,Wang, Yan,Hou, Wei,Yang, Guang,Ma, Peixiang,Xu, Hongtao
, p. 4588 - 4591 (2021/05/17)
We report a general palladium-catalyzed one-pot procedure for the synthesis of phosphonates, phosphinates and phosphine oxides from phenols mediated by sulfuryl fluoride. It features mild conditions, broad substrate scope, high functionality tolerance and water insensitivity. The utility of this procedure has been well demonstrated by gram-scale synthesis, sequential synthesis of click chemistry building blocks, late-stage decoration of drugs and natural products and on-DNA synthesis of phosphine oxide for a DNA-encoded library (DEL).
Decarbonylative Phosphorylation of Carboxylic Acids via Redox-Neutral Palladium Catalysis
Liu, Chengwei,Ji, Chong-Lei,Zhou, Tongliang,Hong, Xin,Szostak, Michal
supporting information, p. 9256 - 9261 (2019/11/19)
We describe the direct synthesis of organophosphorus compounds from ubiquitous aryl and vinyl carboxylic acids via decarbonylative palladium catalysis. The catalytic system shows excellent scope and tolerates a wide range of functional groups (>50 examples). The utility of this powerful methodology is highlighted in the late-stage derivatization directly exploiting the presence of the prevalent carboxylic acid functional group. DFT studies provided insight into the origin of high bond activation selectivity and P(O)-H isomerization pathway.
Visible-Light photo-Arbuzov reaction of aryl bromides and trialkyl phosphites yielding aryl phosphonates
Shaikh, Rizwan S.,Düsel, Simon J.S.,K?nig, Burkhard
, p. 8410 - 8414 (2018/05/23)
Aryl phosphonates are functional groups frequently found in pharmaceutical and crop protection agents. For their synthesis via C?P bond formation typically transition-metal-catalyzed reactions are used. We report a visible-light photo-Arbuzov reaction as an efficient, mild, and metal-free alternative. Rhodamine 6G (Rh.6G) is used as the photocatalyst, generating aryl radicals under blue light. Coupling of the radicals with a wide range of trivalent phosphites gives aryl phosphonates in good to very good isolated yields. The mild reaction conditions allow the introduction of a phosphonate group into complex and sensitive pharmaceutically active molecules such as benzodiazepams and nicergoline by the activation of a carbon?halogen bond.
