Issue 24, 2021

Solution-processable porous graphitic carbon from bottom-up synthesis and low-temperature graphitization

Abstract

It is urgently desired yet challenging to synthesize porous graphitic carbon (PGC) in a bottom-up manner while circumventing the need for high-temperature pyrolysis. Here we present an effective and scalable strategy to synthesize PGC through acid-mediated aldol triple condensation followed by low-temperature graphitization. The deliberate structural design enables its graphitization in situ in solution and at low pyrolysis temperature. The resulting material features ultramicroporosity characterized by a sharp pore size distribution. In addition, the pristine homogeneous composition of the reaction mixture allows for solution-processability of the material for further characterization and applications. Thin films of this PGC exhibit several orders of magnitude higher electrical conductivity compared to analogous control materials that are carbonized at the same temperatures. The integration of low-temperature graphitization and solution-processability not only allows for an energy-efficient method for the production and fabrication of PGC, but also paves the way for its wider employment in applications such as electrocatalysis, sensing, and energy storage.

Graphical abstract: Solution-processable porous graphitic carbon from bottom-up synthesis and low-temperature graphitization

Supplementary files

Article information

Article type
Edge Article
Submitted
03 Apr 2021
Accepted
17 May 2021
First published
18 May 2021
This article is Open Access

All publication charges for this article have been paid for by the Royal Society of Chemistry
Creative Commons BY-NC license

Chem. Sci., 2021,12, 8438-8444

Solution-processable porous graphitic carbon from bottom-up synthesis and low-temperature graphitization

S. Che, C. Li, C. Wang, W. Zaheer, X. Ji, B. Phillips, G. Gurbandurdyyev, J. Glynn, Z. Guo, M. Al-Hashimi, H. Zhou, S. Banerjee and L. Fang, Chem. Sci., 2021, 12, 8438 DOI: 10.1039/D1SC01902C

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