This thesis reports on innovations in the design and direct synthesis of graphene-based woven fabric (GWF) and multi-layer graphene/porous carbon woven fabric films (MLG/PC) by means of chemical vapor deposition (CVD), using woven copper mesh and nickel mesh as the template. Further, it presents the successful applications of these materials as a platform for solar cells, super capacitors and sensors, making it especially of interest to researchers and graduate students in the fields of materials sciences, nanotechnology and renewable energy.
Introduction.- Synthesis, Separation, Transfer and Structural Characterization of Graphene-based Woven Fabric.- GWF/silicon solar cells.- Strain Sensors of Graphene Woven Fabrics.- GWF/ amorphous carbon composites supercapacitor.- Conclusion.
This thesis reports on innovations in the design and direct synthesis of graphene-based woven fabric (GWF) and multi-layer graphene/porous carbon woven fabric films (MLG/PC) by means of chemical vapor deposition (CVD), using woven copper mesh and nickel mesh as the template. Further, it presents the successful applications of these materials as a platform for solar cells, supercapacitors and sensors, making it especially of interest to researchers and graduate students in the fields of materials sciences, nanotechnology and renewable energy.
Nominated as an outstanding PhD thesis by Tsinghua University, China
Presents a systematic study on the design, synthesis and characterization of graphene-based woven fabric (GWF) and multi-layer graphene/porous carbon woven fabric films (MLG/PC)
Demonstrates the successful applications of GWF and MLG/PC in solar cells, supercapacitors and sensors
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