296236-17-4Relevant articles and documents
Artificial plant cell walls as multi-catalyst systems for enzymatic cooperative asymmetric catalysis in non-aqueous media
B?ckvall, Jan-E.,Córdova, Armando,Deiana, Luca,Naidu, Veluru Ramesh,Rafi, Abdolrahim A.,Tai, Cheuk-Wai
supporting information, p. 8814 - 8817 (2021/09/07)
The assembly of cellulose-based artificial plant cell wall (APCW) structures that contain different types of catalysts is a powerful strategy for the development of cascade reactions. Here we disclose an APCW catalytic system containing a lipase enzyme and nanopalladium particles that transform a racemic amine into the corresponding enantiomerically pure amide in high yieldviaa dynamic kinetic resolution.
Co-immobilization of metal and enzyme into hydrophobic nanopores for highly improved chemoenzymatic asymmetric synthesis
Gao, Liya,Wang, Zihan,Liu, Yunting,Liu, Pengbo,Gao, Shiqi,Gao, Jing,Jiang, Yanjun
supporting information, p. 13547 - 13550 (2020/11/17)
Chemoenzymatic catalysts with hydrophobic nanopores were fabricated by co-immobilizing metal nanoparticles and enzymes into the dendritic organosilica nanoparticles. They demonstrated highly improved catalytic performance in chemoenzymatic asymmetric synthesis of chiral amines and alcohols. The hydrophobic microenvironment proved to be critical to enhanced stability, activity and cascade efficiency. This journal is
Combining Pd nanoparticles on MOFs with cross-linked enzyme aggregates of lipase as powerful chemoenzymatic platform for one-pot dynamic kinetic resolution of amines
Wang, Meng,Wang, Xiaoxu,Feng, Bo,Li, Yuanhua,Han, Xinchen,Lan, Zijie,Gu, Huajun,Sun, Huamin,Shi, Meng,Li, Hexing,Li, Hui
, p. 153 - 163 (2019/09/12)
Acquisition of chiral amines is a very important item in scientific research. Chemoenzymatic catalyst combination of Pd nanoparticles supported on the external surface of the ethylenediamine-functionalized MIL-101 (Pd?ED-MIL-101) with layered cross-linked