Kangjian Tang scite author profile

The introduction of stimuli-responsive polymers into the study of organic catalysis leads to the generation of a new kind of polymer-based stimuli-responsive recyclable catalytic system. Owing to their reversible switching properties in response to external stimuli, these systems are capable of improving the mass transports of reactants/products in aqueous solution, modulating the chemical reaction rates, and switching the catalytic process on and off. Furthermore, their stimuli-responsive properties facilitate the separation and recovery of the active catalysts from the reaction mixtures. As a fascinating approach of the controllable catalysis, these stimuli-responsive catalytic systems including thermoresponsive, pH-responsive, chemo-mechano-chemical, ionic strength-responsive, and dual-responsive, are reviewed in terms of their nanoreactors and mechanisms.

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Low-temperature hydrogenation of dimethyl oxalate to ethylene glycol via ternary synergistic catalysis of Cu and acid−base sites

Cui

Meng

Zhang

et al. 2019

Applied Catalysis B: Environmental

146

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Stereoselective Interaction between DNA and Chiral Surfaces

Tang

Gan

et al. 2008

J. Am. Chem. Soc.

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ssDNA exhibits much different adsorption behaviors on enantiomer modified surfaces, which can be explained by the stereoselective H-bond interaction between DNA and the chiral surfaces. This effect not only may help to understand the stereospecific cell/substrate interaction and the origin of the chiral preference in nature but also brings novel insights to the study of DNA properties and the application in biochemical devices.

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Kangjian Tang

Polymer‐Based Stimuli‐Responsive Recyclable Catalytic Systems for Organic Synthesis

Low-temperature hydrogenation of dimethyl oxalate to ethylene glycol via ternary synergistic catalysis of Cu and acid−base sites

Stereoselective Interaction between DNA and Chiral Surfaces

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