Tuning the Electronic Properties of Carbon Nanotube Thin Films Through Hybrid Networks PDF Download
Are you looking for read ebook online? Search for your book and save it on your Kindle device, PC, phones or tablets. Download Tuning the Electronic Properties of Carbon Nanotube Thin Films Through Hybrid Networks PDF full book. Access full book title Tuning the Electronic Properties of Carbon Nanotube Thin Films Through Hybrid Networks by Derrick Liu. Download full books in PDF and EPUB format.
Author: Derrick Liu
Publisher:
ISBN:
Category :
Languages : en
Pages :
Get Book Here
Book Description
Single-walled carbon nanotubes (SWNT), is a well known material which has been continuously investigated for its exceptionally unique optical, mechanical and electrical properties. The nanotubes, which can be semiconducting, metallic or semi-metallic offers a wide range of practical applications for electronics. Recent breakthroughs in studies focusing on the use of SWNT films for large area and cost effective macroelectronics represents the most realistic near-term goal of integrating SW\NT into real world devices. The focus of this study continues to build upon the use of SWNT for such devices while simultaneously investigating the effect of hybrid networks in hopes of fine tuning the electronic behavior. It has been known that the transport within SWNT is largely affected by its surrounding environment and doping can be achieved by means of charge transfer through adsorption of atoms or molecules. Recent investigations have demonstrated that polymer coating of the device may influence the electronic properties of SWNT such as the ability to control the polarity of the device. Further investigation of this phenomenon and practical utilization of hybrid networks may offer new breakthroughs for transistor and transparent conductors. We report an interesting case of photoresponsive organic transistors based on carbon nanotube fullerene composites, where a sparse, solution deposited single walled carbon nanotube network is intimately coated with fullerene molecules. Under correct network formation a reduction in drain current was observed under illumination. Transistors operated in the on-state resulted in drain currents on an order of magnitude of 10^-9 A, under illumination the on-state may be reversed, rendering these devices insulating with drain currents of 10^-12 A. It is believed that the fundamental mechanism for this phenomenon is heavily influenced by the selective formation of fullerene molecules along the carbon nanotube surface/junctions. This results in a two-fold process of exciton splitting and annihilation of free carriers upon recombination followed by subsequent charge trapping which effectively screens the gate voltage. The negative photoresponsivity can be observed even under low voltage operations. High junction resistances which continue to plague the development of highly conductive transparent carbon nanotube networks can be overcome through fine tuning of electronic behavior. Using highly electronegative fluorofullerenes, semiconducting nanotubes can be heavily doped, improving charge transport along the tube while reducing the junction resistance in contact with metallic tubes. Sheet resistances at high transparencies surpassing some of the best reported literature values can be obtained. Combining the largely solution processable approach and the effective tuning of carbon nanotube films through hybrid networks, one may gain additional insight in the field of nanoscaled science and of carbon nanotubes while opening new possibilities in the field of carbon nanotube electronics.
Author: Derrick Liu
Publisher:
ISBN:
Category :
Languages : en
Pages :
Get Book Here
Book Description
Single-walled carbon nanotubes (SWNT), is a well known material which has been continuously investigated for its exceptionally unique optical, mechanical and electrical properties. The nanotubes, which can be semiconducting, metallic or semi-metallic offers a wide range of practical applications for electronics. Recent breakthroughs in studies focusing on the use of SWNT films for large area and cost effective macroelectronics represents the most realistic near-term goal of integrating SW\NT into real world devices. The focus of this study continues to build upon the use of SWNT for such devices while simultaneously investigating the effect of hybrid networks in hopes of fine tuning the electronic behavior. It has been known that the transport within SWNT is largely affected by its surrounding environment and doping can be achieved by means of charge transfer through adsorption of atoms or molecules. Recent investigations have demonstrated that polymer coating of the device may influence the electronic properties of SWNT such as the ability to control the polarity of the device. Further investigation of this phenomenon and practical utilization of hybrid networks may offer new breakthroughs for transistor and transparent conductors. We report an interesting case of photoresponsive organic transistors based on carbon nanotube fullerene composites, where a sparse, solution deposited single walled carbon nanotube network is intimately coated with fullerene molecules. Under correct network formation a reduction in drain current was observed under illumination. Transistors operated in the on-state resulted in drain currents on an order of magnitude of 10^-9 A, under illumination the on-state may be reversed, rendering these devices insulating with drain currents of 10^-12 A. It is believed that the fundamental mechanism for this phenomenon is heavily influenced by the selective formation of fullerene molecules along the carbon nanotube surface/junctions. This results in a two-fold process of exciton splitting and annihilation of free carriers upon recombination followed by subsequent charge trapping which effectively screens the gate voltage. The negative photoresponsivity can be observed even under low voltage operations. High junction resistances which continue to plague the development of highly conductive transparent carbon nanotube networks can be overcome through fine tuning of electronic behavior. Using highly electronegative fluorofullerenes, semiconducting nanotubes can be heavily doped, improving charge transport along the tube while reducing the junction resistance in contact with metallic tubes. Sheet resistances at high transparencies surpassing some of the best reported literature values can be obtained. Combining the largely solution processable approach and the effective tuning of carbon nanotube films through hybrid networks, one may gain additional insight in the field of nanoscaled science and of carbon nanotubes while opening new possibilities in the field of carbon nanotube electronics.
Author: Goki Eda
Publisher:
ISBN:
Category : Carbon
Languages : en
Pages : 153
Get Book Here
Book Description
Single-walled carbon nanotubes (SWNTs) and graphene are sp2 hybridized carbon nanostructures which exhibit extraordinary electronic properties arising from their unique energy dispersions and dimensionalities. A major issue preventing implementation of these materials into integrated electronic devices is the absence of large-scale controllable synthesis and subsequent manipulation. To circumvent this issue, solution processing of SWNTs and graphene has been proposed. Deposition of thin film networks allows the realization of a new class of materials that are useful for large-area or "macro-electronics" on flexible and inexpensive platforms. In this thesis, controllable and efficient solution-based deposition of SWNT and graphene thin film networks and their opto-electronic properties are investigated. Topics such as material dynamics in liquid, chemical structures, defects, morphology, and doping are studied utilizing various spectroscopy and microscopy analysis along with complementary electrical measurements. Further insight is provided through demonstrations of proof-of-principle thin film transistors, organic photovoltaics, and field emitters based on solution-processed SWNT and graphene thin films.
Author: B.A. Baker
Publisher: Elsevier Inc. Chapters
ISBN: 0128088265
Category : Technology & Engineering
Languages : en
Pages : 37
Get Book Here
Book Description
Carbon nanotubes have been explored in light-harvesting and photovoltaic devices because of their unique optoelectronic properties. This chapter provides a brief description of the optoelectronic properties of carbon nanotubes, particularly single-wall carbon nanotubes (SWCNTs), and their implication in various solar cell applications including donor–acceptor solar cells, polymer solar cells, and dye-sensitized solar cells, where carbon nanotubes are utilized as photoactive materials. Carbon-nanotube-based electrodes in photovoltaic devices are also introduced. Carbon-nanotube-based light-harvesting devices are reviewed in terms of fabrication and material processing as well as performance. Finally, advanced emerging methods and the future outlook for carbon-nanotube-based solar cells are discussed.
Author: HeeBong Yang
Publisher:
ISBN:
Category :
Languages : en
Pages :
Get Book Here
Book Description
The year 2021 is the 30th anniversary of carbon nanotube (CNT) discovery in 1991 by Sumio Iijima. CNTs, a cylindrical hollow shape, exhibit fascinating electrical and optical properties. CNTs have been at the heart of the fundamental research and engineering applications in various studies last three decades. Especially, CNTs are attractive because they have unique electronic structures which show different band gap energy as a function of their size. Nevertheless, we face two serious technical challenges with regards creating large-scale electronic and photonic devices using CNTs. First, we need to solve a sorting problem to extract a specific size of CNTs. Second, we have to control the alignment and orientation of sorted CNTs. Here, we present research progresses to master a sorting technique and to form an aligned CNT thin-film followed by device fabrication and characterization of sorted films. We decide to apply aqueous two-phase extraction (ATPE) method to purify various CNT synthesis sources. ATPE shows strong advantages in scalability and relatively simple and low-cost processing steps over other methods. We manage to achieve high purity metallic and semiconducting CNTs in large volumes. We attempt a vacuum filtration method to make thin-films with sorted CNT solutions for devices. Although we need a transferring step to place films on substrates, we enjoy the flexibility to choose a variety of substrate form factors with size and thickness control. In order to characterize electrical performance of CNT films, we fabricate planar two-terminal devices using different sizes of metallic and semiconducting CNT films with and without alignment. We examine the film quality and basic electrical performance via DC resistance and low frequency noise properties from temperaturedependent measurements. Our lessons are that aligned CNT film devices behave better than other conditions in terms of smaller resistance and more linear-like current-voltage characteristics at low temperatures. All film devices follow the 1/f noise behavior and we will pursue further quantitative assessment of their noise properties in depth. We envision that we will make high performance quantum devices based on sorted CNT thin-films.
Author: Dimitrios Tasis
Publisher: Royal Society of Chemistry
ISBN: 1849735689
Category : Science
Languages : en
Pages : 293
Get Book Here
Book Description
The purpose of this book is to summarize the basic chemical aspects for obtaining multifunctional carbon nanotube-based polymer composites, but also to highlight some of the most remarkable advances that occurred in the field during the last recent years.
Author: Ali Javey
Publisher: Springer Science & Business Media
ISBN: 0387692851
Category : Technology & Engineering
Languages : en
Pages : 275
Get Book Here
Book Description
This book provides a complete overview of the field of carbon nanotube electronics. It covers materials and physical properties, synthesis and fabrication processes, devices and circuits, modeling, and finally novel applications of nanotube-based electronics. The book introduces fundamental device physics and circuit concepts of 1-D electronics. At the same time it provides specific examples of the state-of-the-art nanotube devices.
Author: Axel Schindler
Publisher: Cuvillier Verlag
ISBN: 3736961316
Category : Technology & Engineering
Languages : en
Pages : 156
Get Book Here
Book Description
This book describes the use of carbon nanotubes in form of randomly oriented networks in display technology. Carbon nanotubes can behave either like a metal or like a semiconductor and are used in this work as transparent conductive pixel electrodes as well as semiconducting channel in thin-film transistors. Monte-Carlo simulations examine more closely the percolation probabilities of metallic and semiconducting nanotubes. The experimental part covers methods to create stable surfactant suspensions from nanotube powders, simple and cost-effective low temperature deposition processes from liquid phase on glass and flexible plastic substrates and patterning procedures of the created films. Electrical and optical characterization gives insight on their performance. The realization of liquid crystal and OLED displays shows the compatibility of transparent carbon nanotube electrodes with production processes. Results of the semiconductor application are presented on a transistor level. The dependence of the transistor performance on the network density for both, mixed and highly semiconducting nanotubes is discussed.
Author: Rizwan Uddin Ahmad Khan
Publisher:
ISBN:
Category :
Languages : en
Pages :
Get Book Here
Book Description
Author: Yuan-Hua Lin
Publisher: John Wiley & Sons
ISBN: 3527807543
Category : Technology & Engineering
Languages : en
Pages : 375
Get Book Here
Book Description
The first book of its kind?providing comprehensive information on oxide thermoelectrics This timely book explores the latest research results on the physics and materials science of oxide thermoelectrics at all scales. It covers the theory, design and properties of thermoelectric materials as well as fabrication technologies for devices and their applications. Written by three distinguished materials scientists, Oxide Thermoelectric Materials reviews: the fundamentals of electron and phonon transport; modeling of thermoelectric modules and their optimization; synthetic processes, structures, and properties of thermoelectric materials such as Bi2Te3- and skutterudite-based materials and Si-Ge alloys. In addition, the book provides a detailed description of the construction of thermoelectric devices and their applications. -Contains fundamentals and applications of thermoelectric materials and devices, and discusses their near-future perspectives -Introduces new, promising materials and technologies, such as nanostructured materials, perovskites, and composites -Paves the way for increased conversion efficiencies of oxides -Authored by well-known experts in the field of thermoelectrics Oxide Thermoelectric Materials is a well-organized guidebook for graduate students involved in physics, chemistry, or materials science. It is also helpful for researchers who are getting involved in thermoelectric research and development.
Author: Qiguan Wang
Publisher:
ISBN: 9789533074979
Category :
Languages : en
Pages :
Get Book Here
Book Description
