Conghui Yuan

ORCID: 0000-0003-0126-7236
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About
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Research Areas
  • Flame retardant materials and properties
  • Silicone and Siloxane Chemistry
  • Advanced Polymer Synthesis and Characterization
  • Synthesis and properties of polymers
  • Advanced Sensor and Energy Harvesting Materials
  • Polymer composites and self-healing
  • Conducting polymers and applications
  • Supercapacitor Materials and Fabrication
  • Electrocatalysts for Energy Conversion
  • Advanced battery technologies research
  • Polymer Surface Interaction Studies
  • Nanomaterials for catalytic reactions
  • Epoxy Resin Curing Processes
  • Nanoparticle-Based Drug Delivery
  • Carbon dioxide utilization in catalysis
  • biodegradable polymer synthesis and properties
  • Surfactants and Colloidal Systems
  • Advanced Photocatalysis Techniques
  • Electromagnetic wave absorption materials
  • Covalent Organic Framework Applications
  • Nanocluster Synthesis and Applications
  • Fuel Cells and Related Materials
  • Hydrogels: synthesis, properties, applications
  • Carbon and Quantum Dots Applications
  • Polydiacetylene-based materials and applications

Xiamen University
2016-2025

Jilin University
2025

Chongqing University of Technology
2025

Xiamen University of Technology
2015-2020

State Council of the People's Republic of China
2016-2018

University of Massachusetts Amherst
2013-2015

Shanghai Jiao Tong University
2007-2014

Shanghai Sixth People's Hospital
2013

Liming Vocational University
2011

Huaqiao University
2009

Self-assembly of a surfactant-like flame-retardant POSS-bisDOPO in epoxy resin, can both enhance the flame retardancy and improve mechanical properties resin.

10.1039/c5ta07115a article EN Journal of Materials Chemistry A 2016-01-01

Imine-linked covalent organic frameworks (COFs) have received widespread attention because of their structure features such as high crystallinity and tunable pores. However, the intrinsic reversibility imine bond leads to poor stability imine-linked COFs under strong acid conditions. Also, thermal is significantly lower than that many other COFs. Herein, we report for first time reversible bonds in skeleton can be locked through asymmetric hydrophosphonylation reaction phosphite. The...

10.1021/jacs.2c00429 article EN Journal of the American Chemical Society 2022-05-23

To precisely deliver drug molecules at a targeted site and in controllable manner, there has been great interest designing synergistical delivery system that can achieve both surface charge-conversion controlled release of response to different stimuli. Here we outline simple method construct an intelligent carrier, which respond two pH values, therefore achieving charge conversion chemical-bond-cleavage-induced stepwise fashion. This carrier comes from the self-assembly block copolymer-DOX...

10.1021/acsami.6b04247 article EN ACS Applied Materials & Interfaces 2016-06-09

Stress sensing is the basis of human-machine interface, biomedical engineering, and mechanical structure detection systems. based on mechanoluminescence (ML) shows significant advantages distributed remote response to stimuli thus expected be a key technology next-generation tactile sensors stress recorders. However, instantaneous photon emission in ML materials generally requires real-time recording with photodetector, limiting their application fields sensing. In this paper, we report...

10.1038/s41377-020-00422-4 article EN cc-by Light Science & Applications 2020-10-27

Hydrogel electrolytes are of particular interest in the fabrication flexible supercapacitors that able to withstand deformation and physical damage. Nevertheless, there still exists a huge space design hydrogel with comprehensive performances including high processability, conductivity, mechanical strength, self-healability. Herein, slidable polymer network is constructed through cross-linking reaction among commercially available polyethyleneimine (PEI), polyvinyl alcohol (PVA),...

10.1021/acsami.0c03224 article EN ACS Applied Materials & Interfaces 2020-04-14

Hierarchical porous nitrogen-doped carbon materials possess an outstanding supercapacitance performance in both acidic and alkaline electrolytes.

10.1039/c9ta00890j article EN Journal of Materials Chemistry A 2019-01-01
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