20195-12-4Relevant academic research and scientific papers
Sulfonyl-Promoted Michaelis-Arbuzov-Type Reaction: An Approach to S/Se-P Bonds
Rather, Suhail A.,Bhat, Mohammad Yaqoob,Hussain, Feroze,Ahmed, Qazi Naveed
, p. 13644 - 13663 (2021/10/01)
By facilitating the chemical conversion of thiols to thiosulfonates, phosphoramidite/phosphite bearing sp3-hybridized carbon serves as an ideal coupling material to forge new connections at room temperature. In this work, a functional group-induced, additive-free, novel, S-P bond-forming approach is presented. This protocol exhibits good functional group tolerance with wide applications that include phosphorylation of cysteine derivatives, development of a one-pot approach to mixed unsymmetrical thiophosphonates, and extension of the concept to different Se-P bonds. Meticulously, our reaction also generated a S-P bond against cyclic 1,2-dithiane-1-dioxide in a byproduct-free manner. These Michaelis-Arbuzov-type reactions are easy to conduct, work efficiently in a reduced reaction time, and are applicable to gram-scale preparation as well.
High-efficiency green preparation method of thio-organic phosphonic acid derivative
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Paragraph 0138-0141, (2020/09/23)
The invention discloses a high-efficiency green preparation method of a thio-organic phosphonic acid derivative. The thio-organic phosphonic acid derivative is directly prepared by reaction of a P (O)-H compound, sulfur powder and alcohol, the reaction temperature is 80-120 DEG C, and the reaction time is 12-48 hours. According to the method, alcohol and sulfur powder which are stable, easy to obtain, low in price and relatively green can be directly used as raw materials, the P (O)-H compound can be directly used without any activation treatment, and the P (O)-H compound, sulfur powder and alcohol can directly react under the one-pot condition to efficiently prepare the thio-organic phosphonic acid derivative without any transition metal or non-metal catalyst and an additive. The method has the advantages of low requirements on reaction conditions, simplicity and feasibility in operation, no need of inert gas protection, water as a byproduct and small green pollution, and has high academic value and potential wide application prospect due to the wide application of the thio-organic phosphonic acid derivative in the fields of pesticides, medicines, materials and the like.
