Kumar / Aswal / Joshi | 1D Semiconducting Hybrid Nanostructures | Buch | 978-3-527-35027-8 | sack.de

Buch, Englisch, 368 Seiten, Format (B × H): 170 mm x 244 mm, Gewicht: 879 g

Kumar / Aswal / Joshi

1D Semiconducting Hybrid Nanostructures

Synthesis and Applications in Gas Sensing and Optoelectronics
1. Auflage 2023
ISBN: 978-3-527-35027-8
Verlag: WILEY-VCH

Synthesis and Applications in Gas Sensing and Optoelectronics

Buch, Englisch, 368 Seiten, Format (B × H): 170 mm x 244 mm, Gewicht: 879 g

ISBN: 978-3-527-35027-8
Verlag: WILEY-VCH

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 ZnO/GaN 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.

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Autoren/Hrsg.

Kumar, Arvind
Aswal, Dinesh K.
Joshi, Nirav

Fachgebiete

Weitere Infos & Material

One Dimensional Semiconducting Hybrid Nanostructure: Gas Sensing and Optoelectronic Applications
Synthesis and Gas Sensing Application of 1D Semiconducting Hybrid Nanostructures
Room Temperature Gas Sensing Properties of Metal Oxide Nanowire/Graphene Hybrid Structures
Highly Sensitive Room Temperature Gas Sensors Based on Organic-Inorganic Nanofibers
1D Hybrid Tin Oxide Nanostructures: Synthesis and Applications
Recent Advances in Semiconducting Nanowires-Based Hybrid Structures for Solar Cell Application
Introduction and Types of Semiconducting Hybrid Nanostructures for Optoelectronic Devices
One Dimensional Si Nanostructure Based Hybrid Systems: Surface Enhanced Raman Spectroscopy and Photodetector Applications
Hybrid 1D Semiconducting ZnO and GaN Nanostructures for Light-Emitting Devices
Optoelectronic Properties of TiO2 Nanorods / Au Nanoparticles Heterostructure
2D Materials with 1D Semiconducting Nanostructures for High-Performance Gas Sensor
Recent Advancement in the Development of Optical Modulators Based on 1D and 2D Materials
1D and 2D Semiconducting Hybrid Nanostructures for Advanced Photodiodes

Arvind Kumar obtained his M.Sc. degree in Physics from Hemwati Nandan Bahuguna Garhwal University, India, followed by Ph.D. degree in physics from Bhabha Atomic Research Centre under the aegis of Homi Bhabha National Institute, Mumbai. Presently, he is Assistant Professor at Chaman Lal (P.G.) College (Uttarakhand Higher Education). His current research focuses on hybrid nanomaterials, low-powered chemiresistive sensors for environment monitoring, photodetectors, and energy devices. He has developed a simple, low cost and fast method to create an AR nano-porous surface on the glass substrate, based on this work a patent has been filed and granted. He has received many awards such as the JRF fellowship award for Ph.D., UGC-DS Kothari PDF award and best poster presentation award from Indian Vacuum Society.
Dr. Dinesh Aswal obtained Ph.D. in Physics from Mumbai University and subsequently carried out post-doctoral research work at the Research Institute of Electronics, Hamamatsu, Japan. He has taken over the charge of Director, CSIR- National Physical Laboratory (CSIR-NPL), New Delhi with effect from 15th December 2015 maintaining lien with his position as 'Outstanding Scientist' at Department of Atomic Energy, Government of India, Mumbai. During 2012-2015, he has also served as Secretary, Atomic Energy Education Society, Mumbai. His current focus is to enhance the Metrological capabilities of India at par with international standards for continuous improvement of the quality and safety of life in the country and making CSIR-NPL as a growth engine of the nation by supporting industries and strategic sectors through apex calibration facilities. As a President of Metrological Society of India (MSI), New Delhi, and Chairman/ member of various national committees, Dr Aswal ensures that the national policies, academia, strategic sectors, and industries are benefited from the quality-infrastructure of the country.
Dr. Nirav J. Joshi is a physicist, having completed his doctorate at the Maharaja Sayajirao University of Baroda, India. He is a Researcher at the Institute of Physics of São Carlos, University of São Paulo. He has postdoctoral experience from South Korea, Brazil, and the United States, having most recently completed his tenure at the University of California Berkeley, USA, where he developed selective and sensitive microsensors by MEMS techniques. His present research focuses on the synthesis and characterization of oxide nanostructures and 2D material-based gas sensors. He is a core reviewer for several prestigious journals like Nano letters, ACS Applied Material Interfaces, ACS Applied Nanomaterials, Nature Scientific Reports, Sensors and Actuators B, etc. He had worked as a Guest Editor for Special Issues in the Journal of Nanoscience & Nanotechnology and Sensor Letters.

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