2017
DOI: 10.1002/anie.201702076
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Ultrafast Delamination of Graphite into High‐Quality Graphene Using Alternating Currents

Abstract: To bridge the gap between laboratory-scale studies and commercial applications, mass production of high quality graphene is essential. A scalable exfoliation strategy towards the production of graphene sheets is presented that has excellent yield (ca. 75 %, 1-3 layers), low defect density (a C/O ratio of 21.2), great solution-processability, and outstanding electronic properties (a hole mobility of 430 cm V s ). By applying alternating currents, dual exfoliation at both graphite electrodes enables a high produ… Show more

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Cited by 146 publications
(110 citation statements)
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“…In 2017, we developed an elegant exfoliation strategy to overcome this limitation. The electrolyte was made of 0.1 m tetra‐ n ‐butyl‐ammonium bisulfate (TBA HSO 4 ) in water and an alternating potential (±10 V, 0.1 Hz, rectangular shape) was applied between graphite anode and cathode ( Figure a) . The regular variation of applied potential, at every 5 s, enabled an ultrafast graphite exfoliation simultaneously at the anode and cathode, achieving an outstanding production rate of 20 g h −1 (Figure b).…”
Section: Synthesis Of 2d Materials Toward Their Pristine Qualitymentioning
confidence: 99%
See 1 more Smart Citation
“…In 2017, we developed an elegant exfoliation strategy to overcome this limitation. The electrolyte was made of 0.1 m tetra‐ n ‐butyl‐ammonium bisulfate (TBA HSO 4 ) in water and an alternating potential (±10 V, 0.1 Hz, rectangular shape) was applied between graphite anode and cathode ( Figure a) . The regular variation of applied potential, at every 5 s, enabled an ultrafast graphite exfoliation simultaneously at the anode and cathode, achieving an outstanding production rate of 20 g h −1 (Figure b).…”
Section: Synthesis Of 2d Materials Toward Their Pristine Qualitymentioning
confidence: 99%
“…c) Proposed mechanism for the exfoliation process at both anode and cathode. Reproduced with permission . Copyright 2017, Wiley‐VCH.…”
Section: Synthesis Of 2d Materials Toward Their Pristine Qualitymentioning
confidence: 99%
“…In addition, layered materials at both electrodes can be peeled simultaneously to prepare 2D crystals. By applying alternating current, Yang et al used tetrabutylammonium bisulfate aqueous solution as electrolyte, and two graphite foils as cathode and anode are simultaneously peeled …”
Section: Preparation Of 2d Crystal–based Fibersmentioning
confidence: 99%
“…The surface porosity of graphene fibers can be controllably designed to meet the requirement of specific applications. Graphene fibers with dense surface structures are mechanically robust, highly conductive, heat resistant, and chemical solvent resistant . Graphene fibers with porous surface structures have high specific surface areas.…”
Section: Properties and Applications Of 2d Crystal–based Fibersmentioning
confidence: 99%
“…[8,22,23] Briefly, two key steps facilitate the process: first edge expansion of the graphite foil occurs by attack of OH radicals or other radicals produced upon oxidation of electrolyte anions. [8,22,23] Briefly, two key steps facilitate the process: first edge expansion of the graphite foil occurs by attack of OH radicals or other radicals produced upon oxidation of electrolyte anions.…”
Section: Liquid-phase Exfoliationmentioning
confidence: 99%