Depeng Zhao scite author profile

Helicity switching in biological and artificial systems is a fundamental process that allows for the dynamic control of structures and their functions. In contrast to chemical approaches to responsive behaviour in helicates, the use of light as an external stimulus offers unique opportunities to invert the chirality of helical structures in a non-invasive manner with high spatiotemporal precision. Here, we report that unidirectional rotary motors with connecting oligobipyridyl ligands, which can dynamically change their chirality upon irradiation, assemble into metal helicates that are responsive to light. The motor function controls the self-assembly process as well as the helical chirality, allowing switching between oligomers and double-stranded helicates with distinct handedness. The unidirectionality of the light-induced motion governs the sequence of programmable steps, enabling the highly regulated self-assembly of fully responsive helical structures. This discovery paves the way for the future development of new chirality-dependent photoresponsive systems including smart materials, enantioselective catalysts and light-driven molecular machines.

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Dynamic control of chirality in phosphine ligands for enantioselective catalysis

Zhao

2015

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Chirality plays a fundamental role in biology and chemistry and the precise control of chirality in a catalytic conversion is a key to modern synthesis most prominently seen in the production of pharmaceuticals. In enantioselective metal-based catalysis, access to each product enantiomer is commonly achieved through ligand design with chiral bisphosphines being widely applied as privileged ligands. Switchable phosphine ligands, in which chirality is modulated through an external trigger signal, might offer attractive possibilities to change enantioselectivity in a catalytic process in a non-invasive manner avoiding renewed ligand synthesis. Here we demonstrate that a photoswitchable chiral bisphosphine based on a unidirectional light-driven molecular motor, can be used to invert the stereoselectivity of a palladium-catalysed asymmetric transformation. It is shown that light-induced changes in geometry and helicity of the switchable ligand enable excellent selectivity towards the racemic or individual enantiomers of the product in a Pd-catalysed desymmetrization reaction.

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Ammonia exposure induces oxidative stress, endoplasmic reticulum stress and apoptosis in hepatopancreas of pacific white shrimp (Litopenaeus vannamei)

Liang

Zhao

et al. 2016

Fish & Shellfish Immunology

230

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Recent developments in metal catalyzed asymmetric addition of phosphorus nucleophiles

2012

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The metal-catalyzed asymmetric addition of phosphorus nucleophiles is one of the most efficient and reliable approaches for the construction of new carbon-phosphorus bonds. In recent years, great achievements have been made in this area, and many powerful methods have been developed for these transformations with high efficiency, low ligand loading and excellent selectivity. This tutorial review covers recent efforts in the constructions of P-C bonds through asymmetric additions of phosphorus nucleophiles including dialkyl phosphites, secondary phosphine oxides and secondary phosphines.

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Bi-interface induced multi-active MCo2O4@MCo2S4@PPy (M=Ni, Zn) sandwich structure for energy storage and electrocatalysis

2019

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Depeng Zhao

Dynamic control of chirality and self-assembly of double-stranded helicates with light

Dynamic control of chirality in phosphine ligands for enantioselective catalysis

Ammonia exposure induces oxidative stress, endoplasmic reticulum stress and apoptosis in hepatopancreas of pacific white shrimp (Litopenaeus vannamei)

Recent developments in metal catalyzed asymmetric addition of phosphorus nucleophiles

Bi-interface induced multi-active MCo2O4@MCo2S4@PPy (M=Ni, Zn) sandwich structure for energy storage and electrocatalysis

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