Oxide nanomaterials synthesis, structure, properties and novel devices /

Yang, Rusen.

January 2007

Thesis (Ph. D.)--Materials Science and Engineering, Georgia Institute of Technology, 2008. / Peter J. Hesketh, Committee Member ; Zhong Lin Wang, Committee Chair ; C.P. Wong, Committee Member ; Robert L. Snyder, Committee Member ; Christopher Summers, Committee Member.

Nanostructures Zinc oxide. Nanowires.

Charge transfer characteristic of zinc oxide nanowire devices and their applications

Chun, Young Tea

January 2015

No description available.

620

Zinc oxide nanowire field effect transistors

Nedic, Stanko

January 2014

No description available.

620

Large-scale patterned oxide nanostructures fabrication, characterization and applications /

Wang, Xudong.

January 2005

Thesis (Ph. D.)--Materials Science and Engineering, Georgia Institute of Technology, 2006. / Wang, Zhong Lin, Committee Chair ; Summers, Christopher J., Committee Co-Chair ; Wong, C. P., Committee Member ; Dupuis, Russell D., Committee Member ; Wagner, Brent, Committee Member

Development of High Gain Ultraviolet Photo Detectors Based on Zinc Oxide Nanowires

Mallampati, Bhargav

05 1900

Semiconductor nanowires acts as an emerging class of materials with great potential for applications in future electronic devices. Small size, large surface to volume ratio and high carrier mobility of nanowires make them potentially useful for electronic applications with high integration density. In this thesis, the focus was on the growth of high quality ZnO nanowires, fabrication of field effect transistors and UV- photodetectros based on them. Intrinsic nanowire parameters such as carrier concentration, field effect mobility and resistivity were measured by configuring nanowires as field effect transistors. The main contribution of this thesis is the development of a high gain UV photodetector. A single ZnO nanowire functioning as a UV photodetector showed promising results with an extremely high spectral responsivity of 120 kA/W at wavelength of 370 nm. This corresponds to high photoconductive gain of 2150. To the best of our knowledge, this is the highest responsivity and gain reported so far, the previous values being responsivity=40 kA/W and gain=450. The enhanced photoconductive behavior is attributed to the presence of surface states that acts as hole traps which increase the life time of photogenerated electrons raising the photocurrent. This work provides the evidence of such solid states and preliminary results to modify the surface of ZnO nanowire is also produced.

Zinc oxide

zinc oxide nanowires

Hydrothermal Method For Doping Of Zinc Oxide Nanowires And Fabrication Of Ultraviolet Photodetectors

Afal, Aysegul

01 July 2012

Nanotechnology comprises of the understanding and control of materials and processes at the nanoscale. Among various nanostructured materials, semiconducting nanowires attract much interest for their novel physical properties and potential device applications. The unique properties of these nanowires are based on their high surface to volume ratio and quantum confinement effect. Zinc oxide, having a direct, wide bandgap and large exciton binding energy, is highly appealing for optoelectronic devices. Due to excellent optical and electrical properties, zinc oxide nanowires have been utilized to fabricate various devices such as solar cells, light emitting diodes, transistors and photodetectors. Furthermore, zinc oxide, in its natural state exhibits n-type conductivity. Addition of impurities often leads to remarkable changes in their electrical and optical properties, which open up new application areas. Among the many synthesis methods for zinc oxide nanowires, hydrothermal method is an attractive one due to its easy procedure, simple equipment and low temperature requirements. In this thesis, zinc oxide nanowires were grown and doped by hydrothermal method. Different metal dopants such as copper, silver and aluminum were used for this purpose. These metals were selected as dopants due to their effect on magnetic properties, p-type conduction and electrical conductivity of ZnO nanowires, respectively. Doped nanowires were fully characterized and the changes in their physical properties were investigated. In addition, hydrothermally synthesized pure and aluminum doped zinc oxide nanowires were used as the electrically active components in ultraviolet photodetectors. Silver nanowires were utilized as transparent electrodes. Optoelectronic properties of the detectors were examined. Effect of in-situ annealing and nanowire length was investigated. Short recovery time, around 4 seconds, with a decent on/off ratio of 2600 was obtained. This design provides a simple and cost effective approach for the fabrication of high performance ultraviolet photodetectors.

Q Special Topics 172

Membranas de biocelulose como substrato para o crescimento de nanofios de ZnO: síntese e aplicação / Biocellulose membranes as substrate for Growth of Zinc Oxide nanowires: applications and synthesis

Amaral, Thais Silva do [UNESP]

12 May 2015

Submitted by Thais Silva do Amaral null (thais_rpss@yahoo.com) on 2016-06-03T19:14:32Z No. of bitstreams: 1 Thais Silva do Amaral-Dissertação.pdf: 3804617 bytes, checksum: 8083e47078da73695bac6f8aa62e3778 (MD5) / Approved for entry into archive by Ana Paula Grisoto (grisotoana@reitoria.unesp.br) on 2016-06-08T13:24:26Z (GMT) No. of bitstreams: 1 amaral_ts_me_araiq_par.pdf: 1221750 bytes, checksum: e72ea0e2cee4ebb7654b4a0d18d9289f (MD5) / Made available in DSpace on 2016-06-08T13:24:26Z (GMT). No. of bitstreams: 1 amaral_ts_me_araiq_par.pdf: 1221750 bytes, checksum: e72ea0e2cee4ebb7654b4a0d18d9289f (MD5) Previous issue date: 2015-05-12 / Polímeros derivados do petróleo como polietileno tereftalato (PET) e polietileno naftalato (PEN), são utilizados em larga escala como substratos em diversos dispositivos eletrônicos. A crescente preocupação com o meio ambiente nos leva a buscar alternativas sustentáveis na utilização de materiais para fabricação de novas tecnologias. Neste trabalho, com o intuito de avaliar a viabilidade da substituição destes substratos por polímeros naturais, foi explorada uma biocelulose, a celulose bacteriana (CB), secretada por bactérias Acetobacter xylinum, que é um polímero de obtenção ―verde‖, não gerando resíduos ou altos impactos ambientais para ser produzida, além de possuir características desejáveis para ser utilizado como substrato em novos materiais, como resistência mecânica com módulo de Young de 134 GPa, tamanho nanométrico das fibras e transparência. Membranas funcionais foram obtidas pelo crescimento de nanofios de óxido de zinco na sua superfície. Os nanofios de ZnO foram obtidos com comprimento médio de 1,69 ± 0,08 μm e diâmetro de 37,2 ± 4,2 nm. Os materiais foram avaliados estruturalmente pela Difratometria de Raios-x (DRX) e Microscopia Eletrônica de Transmissão de Alta Resolução (HRTEM), e quimicamente utilizando Espectroscopia de Espalhamento Raman e Espectroscopia Vibracional na Região do Infravermelho (FT-IR). Também foram realizadas de medidas de Impedância Elétrica e Análise termogravimétrica (TG/DTG). Por fim os materiais foram testados em três diferentes aplicações: como membrana para fotodegradação de corantes, sensor piezoelétrico e substrato removível para obtenção de fios de ZnO não suportados que se mostraram aplicações viáveis para o material. / Petroleum-derived polymers such as Polyethylene Terephthalate (PET) and Polyethylene Naphthalate (PEN), are largely used as substrates in various electronic devices. The growing concern with the environment leads us to seek sustainable alternatives in the use of materials for the manufacture of new technologies. In this work, in order to assess the feasibility of replacing these substrates by natural polymers, bacterial cellulose (BC) was explored, secreted by bacteria Acetobacter xylinum is a ―green‖ polymer that don’t generate waste or high environmental impacts to be produced, and has desirable characteristics for use as new substrate materials, such as mechanical strength with Young's modulus of 134 Gpa, nano-sized fibers and transparency. Functional membranes were prepared by growing ZnO nanowires on the BC dried membranes surface. The obtained ZnO nanowires presented an average length of 1.69 ± 0.08 m and diameter of 37.2 ± 4.2 nm. Materials were evaluated structurally by X-ray Diffraction (XRD) and High-resolution Transmission Electron Microscopy (HRTEM), chemically using Raman Scattering spectroscopy and Vibrational Spectroscopy in the Infrared Region (FT-IR). Electrical Impedance measurements and thermal gravimetric analysis (TG / DTG) were performed as well. Finally the materials were tested in three different applications: as a membrane for dyes photodegradation, piezoelectric sensor and removable substrate for obtaining unsupported ZnO nanowires that are viable applications for the material.

Nanofios de óxido de zinco

Celulose bacteriana

Fotodegradação de corantes

Sensor piezoelétrico

Zinc oxide nanowires

Bacterial cellulose

Dye photodegradation

Piezoelectric sensor

Unsupported zinc oxide nanowires

The Optimization of The Synthesis and Characterization of Vapor-Liquid-Solid Grown ZnO Nanowires

Fiefhaus, Silas R.

01 January 2016

ZnO nanowires are a promising material with great semiconductor properties. ZnO nanowires were prepared by carbothermal reduction and vapor-liquid-solid growth mechanism. Altering a variety of parameters ranging from mole to mole ratio of ZnO to C all the way to gas flow rate was examined. The nanowires were then characterized and their morphology examined under a SEM to observe what effect the parameter had on the morphology of the nanowires. From the experiments and the parameters tested it was observed that in order to produce the highest quality straight nanowires one should use a mole to mole ratio of ZnO to C graphite of 1 to 3. With a dwell temperature and time of 900 °C for 3 hours. A gold seed catalyst of 4nm and a gas flow rate of 50 to 100sccm of Ar provides the straightest nanowires. Understanding the effect of each parameter on the morphology of ZnO nanowires is vital for the current research. This will only lead to further the research and provide a better understanding of the growth mechanism of these wires and how the production of specific wires with certain morphologic features and characteristics can be achieved.

Zinc Oxide Nanowires

Carbothermal Reduction

Vapor-Liquid-Solid

Semiconductor

Analytical Chemistry

Inorganic Chemistry

Materials Chemistry

SELECTIVE GROWTH OF CARBON NANOTUBES AND OXIDE NANOWIRES: APPLICATIONS IN SHADOW LITHOGRAPHY AND FABRICATION OF ALIGNED CARBON NANOTUBE MEMBRANES

Chopra, Nitin

01 January 2006

A promising approach investigated here is to utilize thin film multilayer structures where the thickness of a catalyst layer at an exposed edge of photolithographically defined pattern determines the diameter of the nanotubes/nanowires grown from it. This can in turn be incorporated into photolithographically defined post structures resulting in an array of suspended nanowires for line-of-site shadow lithography. Success of the diameter control approach has been shown by selectively growing carbon nanotubes (CNTs) from narrow lines (12-60 nm) of SiO2, Fe, Ni, Co on micron-scale patterned substrates in a ferrocene or nonferrocene catalyzed CVD process. In addition, the concept has been extended to VS growth of CuO nanowires and VLS growth of ZnO nanowires from an exposed edge in a Al2O3/Cu(40-100 nm)/Al2O3 and Al2O3/Au(10 nm)/Al2O3 thin film multilayer structures. The exposed middle layer of patterned thin-film multilayer acts as a nm-scale wide selective growth area. The resultant CNT/nanowire diameter is directly related to the catalyst/catalyst support size. Growth kinetic studies of CuO nanowires from a thin film multilayer structure indicate diffusion controlled process. Dispersion of CNTs between lithographically defined trenches of width of 200 nm and depth of 500 nm when coupled with line-of-site deposition resulted in nm-scale line underneath the suspended CNT. The width of the resulting shadow is nearly a simple function of CNT/nanowire diameter, incident evaporation angle, and height of CNT above the substrate in a line-of-site evaporation geometry. Another promising approach to control the placement of nanotubes/nanowires is the selective functionalization of only their tips followed by selfassembly onto chemically patterned substrates. Towards this goal, arrays of aligned CNTs were impregnated with polystyrene to form aligned CNT membranes. These CNT membranes were also studied for gas and ionic transport studies. Different functionalization chemistry was performed on each side of the membrane. After dissolution of polymer matrix, a suspension of CNTs with different functionality at each tip was formed, allowing for sophisticated selfassembled architectures.

Materials Science and Engineering

Síntese e passivação de nanofios de óxido de zinco

Menezes, Eduardo Serralta Hurtado de

January 2017

Neste trabalho se realiza a síntese e caracterização de nanofios de óxido de zinco. Adicionalmente se apresenta o processo de montagem de um dispositivo para medidas elétricas deste material. Estuda-se complementarmente o efeito do tratamento de plasma sobre as propriedades de fotoluminescência do material. Nanofios foram sintetizados pelo mecanismo vapor-líquido-sólido (VLS), utilizando ouro como catalizador e safira c-plane como substrato. As amostras foram caracterizadas utilizando microscopia eletrônica de varredura, fotoluminescência a temperatura ambiente, difração de raios X, e microscopia eletrônica de transmissão. Os nanofios obtidos têm seção transversal com formato quase hexagonal, e larguras de aproximadamente 46 nm. O comprimento deles varia de 3 a 10 μm. Os resultados de difração de raios x e microscopia eletrônica de transmissão mostram que eles são monocristalinos com rede cristalina tipo wurtzita, e com direção de crescimento no eixo c. Foram estudados os efeitos da potência de plasma de oxigênio (O2) na fotoluminescência dos nanofios a temperatura ambiente. A diferença na fotoluminescência após diferentes tratamentos de plasma de O2 mostra que a razão entre a emissão da região do band gap e da banda do visível pode ser modificada pelo tratamento. Este efeito corrobora com a hipótese de que a banda verde de luminescência está relacionada às vacâncias de zinco. A variação percentual da razão entre as duas regiões apresenta uma dependência linear com a potência do plasma. / In this work, we performed the synthesis and characterization of zinc oxide nanowires. We also report an assembly process to measure the electrical properties of this material. We study the plasma treatment effect on the photoluminescence spectra of the nanowires. Nanowires were synthesized via vapor-liquid-solid mechanism, using gold as catalyst and c-plane sapphire as substrate. The samples were characterized using scanning electron microscopy, room temperature photoluminescence, x-rays diffraction and transmission electron microscopy. Our nanowires show a quasi-hexagonal cross section, with diameters of approximately 46 nm. Their lengths ranged from 3 to 10 μm. Our results show monocrystalline wurtzite crystal nanowires with c growth direction. We also study the plasma power effect of oxygen (O2) plasma treatment on the room temperature photoluminescence spectra of the nanowires. Our results show that the deep level emission to near band emission ratio decreases with the plasma treatment. This effect supports the hypothesis that claims the green band luminescence is related to the oxygen vacancies. Furthermore, the relative ratio change depends linearly on the plasma power.

Microeletrônica

Nanofios

Óxido de zinco

Zinc oxide nanowires

Photoluminescence

Oxygen plasma treatment

Oxygen vacancies

Scanning electron microscopy