1D Semiconducting Hybrid Nanostructures
In-depth discussion on the physics, chemistry, and engineering beneath the construction of 1D semiconducting hybrid materials
1D Semiconducting Hybrid Nanostructures: Synthesis and Applications in Gas Sensing and Optoelectronics provides breakthrough research developments and trends in a variety of 1D hybrid nanostructures for chemi-resistive gas sensors and optoelectronics applications, including recent investigations and developments regarding the innovative designing approaches, fabrications, and methods used to characterize these hybrid nanostructures. The text also includes the surface and interface properties of 1D hybrid semiconducting nanostructured materials, as well as their optimization for applications in gas sensing and optoelectronics.
This book further addresses the different issues of sensitivity, selectivity, and operating temperature of gas sensors based on hybrid 1D nanostructures. Moreover, it covers the novel and additional functional optoelectronic properties that originate at the interface of 1D semiconducting nanostructures combined with other low dimensional materials.
Some of the specific sample topics covered in this book include:
- Gas sensing and optoelectronic applications of one-dimensional semiconducting hybrid nanostructures, plus synthesis and gas sensing application of 1D semiconducting hybrid nanostructures
- Room temperature gas sensing properties of metal oxide nanowire/graphene hybrid structures and highly sensitive room temperature gas sensors based on organic-inorganic nanofibers
- Synthesis and applications of 1D hybrid tin oxide nanostructures and recent advances in semiconducting nanowires-based hybrid structures for solar application
- Types of semiconducting hybrid nanostructures for optoelectronic devices and hybrid 1D semiconducting Zn O/Ga N nanostructures
Thanks to its comprehensive coverage of the subject from highly qualified authors who have significant experience in the field, 1D Semiconducting Hybrid Nanostructures is a must-have reference for senior undergraduate and graduate students, professionals, researchers, in the field of semiconductor physics, materials science, surface science, and chemical engineering.
Cuprins
1. An introduction to 1D semiconducting hybrid nanostructures
2. Synthesis of 1D semiconducting hybrid nanostructures via LBL assembly: advances and challenges
3. Synthesis and gas sensing application of 1D semiconducting hybrid nanostructures
4. Role of interfaces in 1D semiconducting hybrid nanostructures for chemical sensing
5. Room temperature gas sensing properties of metal oxide nanowire/graphene hybrid structure
6. Highly sensitive room temperature gas sensors based on organic-inorganic nanofibers
7. Introduction and types of semiconducting hybrid nanostructures for optoelectronic devices
8. Novel and unique optoelectronic properties of 1D hybrid interfaces
9. Nanophotonic device application using 1D semiconducting nanostructure
10. 1D semiconducting hybrid nanostructure for advanced photodiodes
11. 1D semiconducting Zn O and Ga N nanostructures for light-emitting devices
12. Recent advances in semiconducting nanowires-based hybrid structures for solar cells applications
13. Role of 2D materials with 1D semiconducting nanostructures: recent progress and developments
14. Optoelectronic properties of 1D/2D heterostructures
15. Optoelectronic performances of 1D organic semiconducting hybrid p-n heterojunction
Despre autor
Arvind Kumar is Assistant Professor at Chaman Lal (P.G.) College (Uttarakhand Higher Education), India. His current research focuses on hybrid nanomaterials, low-powered chemi-resistive sensors for environment monitoring, photodetectors, and energy devices.
Dinesh K. Aswal is Director at the CSIR-National Physical Laboratory (CSIR-NPL) in New Delhi, India.
Nirav Joshi is a Sr. Research Scientist at the Sao Carlos Institute of Physics, University of São Paulo, Brazil.