91121-35-6Relevant academic research and scientific papers
The design of a spiro-pyrrolidine organocatalyst and its application to catalytic asymmetric Michael addition for the construction of all-carbon quaternary centers
Tian, Jin-Miao,Yuan, Yong-Hai,Tu, Yong-Qiang,Zhang, Fu-Min,Zhang, Xiao-Bo,Zhang, Shi-Heng,Wang, Shao-Hua,Zhang, Xiao-Ming
supporting information, p. 9979 - 9982 (2015/06/22)
A novel chiral spiro-pyrrolidine silyl ether organocatalyst has been designed. Its catalytic asymmetric effect is demonstrated by the Michael addition reaction, which affords the desired products with an all-carbon quaternary center in up to 99% ee and 87
GPR120 RECEPTOR AGONISTS AND USES THEREOF
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Page/Page column 100, (2012/01/06)
GPR120 agonists are provided. These compounds are useful for the treatment of metabolic diseases, including Type II diabetes and diseases associated with poor glycemic control.
GPR120 RECEPTOR AGONISTS AND USES THEREOF
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Page/Page column 75, (2010/08/04)
GPR120 agonists are provided. These compounds are useful for the treatment of metabolic diseases, including Type II diabetes and diseases associated with poor glycemic control.
Carbon-Carbon Bond Formation at the γ-position of Dienolates via the Palladium Catalysed Coupling of the Tin Masked Dienolates
Yamamoto, Yoshiri,Hatsuya, Satoshi,Yamada, Jun-ichi
, p. 86 - 87 (2007/10/02)
The palladium catalysed coupling reaction of the tin masked dienolate (2) with organic halides takes place at the position substituted by tin, thereby providing a new method for C-C bond formation at the γ-position of dienolates.
