Ziyu Lin scite author profile

A novel hexaazatrinaphthylene-based (HATN) azo polymer (PAH) was synthesized from a newly designed tri-nitro compound trinitrodiquinoxalino[2,3-a:2′,3′-c]phenazine (HATNTN) through a Zninduced reductive homocoupling reaction and used as a cathode material for lithium-ion batteries (LIBs). The integration of redox-active HATN units and azo linkages can improve the specific capacity, rate performance, and cycling stability of the PAH cathode. The control LIBs were assembled from HATNTN, in which HATNTN can be electrochemically reduced to an HATN-based azo polymer. Compared with the HATNTN cathode, the PAH cathode delivers higher specific capacities with muchimproved cycling stability (97 mA h g −1 capacity retention after 1500 cycles at 500 mA g −1 , which is around 28 times that of the HATNTN cathode) and considerably better rate performance (118 mA h g −1 at 2000 mA g −1 , which is around 90 times that of the HATNTN cathode), simultaneously. This work provides a chemical polymerization strategy to construct extended π-conjugated azo polymers with multiple redox centers from nitro compounds for developing high-performance LIBs.

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Based On Confined Polymerization: In Situ Synthesis of PANI/PEEK Composite Film in One‐Step

Lin

Cao

Sun

et al. 2021

Advanced Science

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Confined polymerization is an effective method for precise synthesis, which can further control the micro-nano structure inside the composite material. Polyaniline (PANI)-based composites are usually prepared by blending and original growth methods. However, due to the strong rigidity and hydrogen bonding of PANI, the content of PANI composites is low and easy to agglomerate. Here, based on confined polymerization, it is reported that polyaniline /polyether ether ketone (PANI/PEEK) film with high PANI content is synthesized in situ by a one-step method. The micro-nano structure of the two polymers in the confined space is further explored and it is found that PANI grows in the free volume of the PEEK chain, making the arrangement of the PEEK chain more orderly. Under the best experimental conditions, the prepared 16 μm-PANI/PEEK film has a dielectric constant of 205.4 (dielectric loss 0.401), the 75 μm-PANI/PEEK film has a conductivity of 3.01×10 −4 S m −1 . The prepared PANI/PEEK composite film can be further used as electronic packaging materials, conductive materials, and other fields, which has potential application prospects in anti-static, electromagnetic shielding materials, corrosion resistance, and other fields.

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Repairing of graphene oxide membranes based on SPEEK substrate for organic solvents nanofiltration through PEI needle thread method

Cao

Lin

Sun

et al. 2021

Carbon

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Durable and chemical resistant ultra-permeable nanofiltration membrane for the separation of textile wastewater

Cao

Yue

Lin

et al. 2021

Journal of Hazardous Materials

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Synthesis of novel Co(ii) complexed bipyrimidine polyimide and preparation of thin film composite membranes

et al. 2020

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Ziyu Lin

π-Conjugated Hexaazatrinaphthylene-Based Azo Polymer Cathode Material Synthesized by a Reductive Homocoupling Reaction for Organic Lithium-Ion Batteries

Based On Confined Polymerization: In Situ Synthesis of PANI/PEEK Composite Film in One‐Step

Repairing of graphene oxide membranes based on SPEEK substrate for organic solvents nanofiltration through PEI needle thread method

Durable and chemical resistant ultra-permeable nanofiltration membrane for the separation of textile wastewater

Synthesis of novel Co(ii) complexed bipyrimidine polyimide and preparation of thin film composite membranes

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