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Hybrid graphene oxide/crumpled graphene film via subcooled boiling-induced self-assembly for highly efficient boiling heat transfer

B. Chu, Cheng Fang, Feiyu Zheng, Weizheng Cheng, Ruitong Wang, Wanli Zhang, Jinran Tao, Lei Huai, Peng Tao, Chengyi Song, Wen Shang, Benwei Fu, Tao Deng

2021Materials Today Energy20 citationsDOIOpen Access PDF

Abstract

Graphene-based films generated on a substrate can modify surface structure and chemistry to enable the improvement in heat transfer capacity for many important boiling-related applications. Current methods for preparing these films, however, require additional processing equipment and involve relatively complex processes. Achieving simple and controllable generation of these films remains a great challenge. In this work, we develop a facile subcooled boiling-induced self-assembly (SBISA) method for generating graphene-based films. We first explore the SBISA mechanism and demonstrate the formation of graphene-based films under the action of a combined force induced by the capillary pressure, structural disjoining pressure, and vapor recoil force. In addition, using the SBISA process, we generate a tunable hybrid graphene oxide (GO)/crumpled graphene (CG) film with mixed wettability. The hybrid GO/CG film enables large performance enhancements for boiling with a 150.0% increase in the critical heat flux (CHF) and a 163.9% increase in the maximum heat transfer coefficient (HTC) over a pristine copper surface. This SBISA strategy provides an alternative approach for fabricating tunable films with a hierarchical structure and mixed wettability on various substrates, and it may also help produce surfaces with different micro/nanostructures for enhancing phase-change-based heat transfer.

Topics & Concepts

Materials scienceGrapheneSubcoolingWettingNanotechnologyBoilingHeat transferLeidenfrost effectCritical heat fluxOxideDisjoining pressureChemical engineeringHeat fluxNucleate boilingComposite materialThermodynamicsEngineeringMetallurgyPhysicsSolar-Powered Water Purification MethodsHeat Transfer and Boiling StudiesHeat Transfer and Optimization
Hybrid graphene oxide/crumpled graphene film via subcooled boiling-induced self-assembly for highly efficient boiling heat transfer | Litcius