Baolu Guan scite author profile

Efficient solar-thermal energy conversion is essential for the harvesting and transformation of abundant solar energy, leading to the exploration and design of efficient solar-thermal materials. Carbon-based materials, especially graphene, have the advantages of broadband absorption and excellent photothermal properties, and hold promise for solar-thermal energy conversion. However, to date, graphene-based solar-thermal materials with superior omnidirectional light harvesting performances remain elusive. Herein, hierarchical graphene foam (h-G foam) with continuous porosity grown via plasma-enhanced chemical vapor deposition is reported, showing dramatic enhancement of broadband and omnidirectional absorption of sunlight, which thereby can enable a considerable elevation of temperature. Used as a heating material, the external solar-thermal energy conversion efficiency of the h-G foam impressively reaches up to ≈93.4%, and the solar-vapor conversion efficiency exceeds 90% for seawater desalination with high endurance.

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Intrinsically Stretchable and Conductive Textile by a Scalable Process for Elastic Wearable Electronics

Wang

Zhang

Xia

et al. 2017

ACS Appl. Mater. Interfaces

120

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The prosperous development of stretchable electronics poses a great demand on stretchable conductive materials that could maintain their electrical conductivity under tensile strain. Previously reported strategies to obtain stretchable conductors usually involve complex structure-fabricating processes or utilization of high-cost nanomaterials. It remains a great challenge to produce stretchable and conductive materials via a scalable and cost-effective process. Herein, a large-scalable pyrolysis strategy is developed for the fabrication of intrinsically stretchable and conductive textile in utilizing low-cost and mass-produced weft-knitted textiles as raw materials. Due to the intrinsic stretchability of the weft-knitted structure and the excellent mechanical and electrical properties of the as-obtained carbonized fibers, the obtained flexible and durable textile could sustain tensile strains up to 125% while keeping a stable electrical conductivity (as shown by a Modal-based textile), thus ensuring its applications in elastic electronics. For demonstration purposes, stretchable supercapacitors and wearable thermal-therapy devices that showed stable performance with the loading of tensile strains have been fabricated. Considering the simplicity and large scalability of the process, the low-cost and mass production of the raw materials, and the superior performances of the as-obtained elastic and conductive textile, this strategy would contribute to the development and industrial production of wearable electronics.

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Solar thermal-driven capacitance enhancement of supercapacitors

Ren

Dai

et al. 2018

Energy Environ. Sci.

102

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Fast and uniform growth of graphene glass using confined-flow chemical vapor deposition and its unique applications

et al. 2016

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Baolu Guan

Hierarchical Graphene Foam for Efficient Omnidirectional Solar–Thermal Energy Conversion

Intrinsically Stretchable and Conductive Textile by a Scalable Process for Elastic Wearable Electronics

Solar thermal-driven capacitance enhancement of supercapacitors

Fast and uniform growth of graphene glass using confined-flow chemical vapor deposition and its unique applications

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