Development of a Scalable,
Chromatography-Free Synthesis
of t‑Bu-SMS-Phos and Application to the Synthesis
of an Important Chiral CF3‑Alcohol Derivative with
High Enantioselectivity Using Rh-Catalyzed Asymmetric Hydrogenation

Sieber, Joshua D.; Rodriguez, Sonia; Frutos, Rogelio; Buono, Frederic; Zhang, Yongda; Li, Ning; Qu, Bo; Premasiri, Ajith; Li, Zhibin; Han, Zhengxu S.; Xu, Yibo; Byrne, Denis; Haddad, Nizar; Lorenz, Jon; Grinberg, Nelu; Kurouski, Dmitry; Lee, Heewon; Narayanan, Bikshandarkoil; Nummy, Laurence; Mulder, Jason; Brown, Jack D.; Granger, Alice; Gao, Joe; Krawiec, Mariusz; Williams, Zeena; Pennino, Scott; Song, Jinhua J.; Hossain, Azad; Yee, Nathan K.; Busacca, Carl; Roschangar, Frank; Xin, Yanchao; Mao, Zhantong; Zhang, Xinzhu; Hong, Yaping; Senanayake, Chris H.

doi:10.1021/acs.joc.7b03022.s001

Development of a Scalable, Chromatography-Free Synthesis of t‑Bu-SMS-Phos and Application to the Synthesis of an Important Chiral CF₃‑Alcohol Derivative with High Enantioselectivity Using Rh-Catalyzed Asymmetric Hydrogenation

journal contribution

posted on 2018-01-11, 00:00 authored by Joshua D. Sieber, Sonia Rodriguez, Rogelio Frutos, Frederic Buono, Yongda Zhang, Ning Li, Bo Qu, Ajith Premasiri, Zhibin Li, Zhengxu S. Han, Yibo Xu, Denis Byrne, Nizar Haddad, Jon Lorenz, Nelu Grinberg, Dmitry Kurouski, Heewon Lee, Bikshandarkoil Narayanan, Laurence Nummy, Jason Mulder, Jack D. Brown, Alice Granger, Joe Gao, Mariusz Krawiec, Zeena Williams, Scott Pennino, Jinhua J. Song, Azad Hossain, Nathan K. Yee, Carl Busacca, Frank Roschangar, Yanchao Xin, Zhantong Mao, Xinzhu Zhang, Yaping Hong, Chris H. Senanayake

A chromatography-free, asymmetric synthesis of the C2-symmetric P-chiral diphosphine t-Bu-SMS-Phos was developed using a chiral auxiliary-based approach in five steps from the chiral auxiliary in 36% overall yield. Separtion and recovery of the auxiliary were achieved with good yield (97%) to enable recycling of the chiral auxiliary. An air-stable crystalline form of the final ligand was identified to enable isolation of the final ligand by crystallization to avoid chromatography. This synthetic route was applied to prepare up to 4 kg of the final ligand. The utility of this material was demonstrated in the asymmetric hydrogenation of trifluoromethyl vinyl acetate at 0.1 mol % Rh loading to access a surrogate for the pharmaceutically relavent chiral trifluoroisopropanol fragment in excellent yield and enantiomeric excess (98.6%).

Development of a Scalable, Chromatography-Free Synthesis of t‑Bu-SMS-Phos and Application to the Synthesis of an Important Chiral CF₃‑Alcohol Derivative with High Enantioselectivity Using Rh-Catalyzed Asymmetric Hydrogenation

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Development of a Scalable, Chromatography-Free Synthesis of t‑Bu-SMS-Phos and Application to the Synthesis of an Important Chiral CF3‑Alcohol Derivative with High Enantioselectivity Using Rh-Catalyzed Asymmetric Hydrogenation

History

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Keywords

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Development of a Scalable, Chromatography-Free Synthesis of t‑Bu-SMS-Phos and Application to the Synthesis of an Important Chiral CF₃‑Alcohol Derivative with High Enantioselectivity Using Rh-Catalyzed Asymmetric Hydrogenation