High- performance carbon-based optoelectronic nanodevices

This book focuses on the photoelectric nanodevices based on carbon nanostructures, such as carbon nanotubes, graphene and related heterojunctions. The synthesis of carbon nanostructures and device fabrication are simply given. The interface charge transfer and the performance enhancement in the photodetectors and solar cells are comprehensively introduced. Importantly, carbon allotropes behave as high-mobility conductors or bandgap-tunable semiconductors depending on the atomic arrangements, the direct motivation is to fabricate all-carbon nanodevices using these carbon nanomaterials as building blocks. The photoelectric nanodevices based on all-carbon nanostructures have increasingly attracted attention in the future. The book offers a valuable reference guide to carbon-based photoelectric devices for researchers and graduate school students in the field. It will also benefit all researchers who investigate photoelectric nanodevices and photoelectric conversion with relevant frontier theories and concepts.

Introduction of carbon nanostructures.- Chapter 1. Basic physics of carbon nanotubes and graphene.- Chapter 2. Controlled growth of carbon nanotubes and graphene.- Chapter 3. Characterization of carbon nanostructures.- Chapter 4. Carbon-based high-performance broadband photodetectors.- Chapter 5. All-carbon van der Waals junction photodetectors.- Chapter 6. Carbon-based van der Waals heterojunction solar cells.- Chapter 7. All-carbon hybrid solar cells.