Visits:

Gilbert Yu

Ph.D. Supervisor and Master's Supervisor

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  • Name:  Gilbert Yu

  • Professional Title:  Professor

  • Name (Pinyin):  yuguipeng

  • Sex:  Male

  • School/Department:  Chemistry and Chemical Engineering

  • Education Level:  PhD Graduate

  • Date of Employment:  2010-03-22

  • Degree:  Doctoral degree

  • Alma Mater:  大连理工大学

  • Status:  Employed

  • Discipline:  Chemistry

  • Enrollment Disciplines:  Chemistry、Chemical Engineering and Technology

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Aqueous Sol-gel Synthesis and Shaping of Covalent Organic Frameworks

Release time:2023-12-24
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Journal:
Journal of the American Chemical Society
Abstract:
The intrinsic fragility and insoluble nature of covalent organic frameworks (COFs) have strongly impeded their processability for practical applications. Herein, an aqueous-based sol–gel synthetic strategy is reported for the synthesis and shaping of COFs with task-specific applications that satisfy the principles of green chemistry for gram-scale production of crystalline materials. Our successful approach involves three pivotal aspects: the “prodrug mimic” design of water-soluble monomers, the utilization of hydrolyzable bonds, and the manipulation of reaction kinetics. The generality of the method is demonstrated by the successful preparation of representative high-surface area two-dimensional (2D) COFs with several commonly used amines. By virtue of this strategy, a COF colloidal dispersion is achieved and can be formulated into processable fluids, structured films, and COF monoliths. Remarkably, the obtained lightweight (∼0.020 g cm–3) and robust aerogels displayed outstanding adsorption capacity (exceeding 57 times its own weight) toward a variety of organic solvents and exhibited superior thermal insulating properties compared to the widely used sponge and cotton. This work demonstrates a versatile strategy for the synthesis and shaping of processable COF materials in water that will contribute to the development of COF monoliths for advanced applications
Indexed by:
Journal paper
Volume:
145
Issue:
50
Page Number:
27718-27
Translation or Not:
no
Date of Publication:
2023-06-14
Included Journals:
SCI