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E-book: 1-Dimensional Metal Oxide Nanostructures: Growth, Properties, and Devices

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1-D metal oxide nanostructures, especially those with semiconducting properties, have attracted much attention in recent years due to their potential and emerging applications, specifically in environment purification and energy devices. For these applications, there have been many efforts to grow 1-D nanostructures in the form of nanotubes, nanorods, and nanowires using processes that conserve energy, are cost effective, and can be scaled up for large-scale production.

1-Dimensional Metal Oxide Nanostructures gathers under one title the most recent development of oxide nanomaterials, especially those fabricated via oxidation process in the nanoscale field. Thermal and anodic oxidation processes are reviewed with an aim to offer an in-depth understanding of mechanisms of 1-D nanostructure formation, their characteristics, and limitations. Other more common methods are also discussed, including sol-gel, hydrothermal, and other templated methods. Important applications of 1-D nanostructures are then presented, focusing on oxides like zinc oxide, titanium oxide, zirconium oxide, copper oxide, and iron oxide. A chapter on carbon nanotubes hybrid with these oxides is also included as well as one on silicon oxide nanowires formation by local anodic oxidation process.

Aimed at researchers, academics, and engineers working across the fields of nanotechnology, materials science, chemistry, physics, semiconductors, and environmental and biomedical engineering, this essential reference enables readers to grasp the main concepts of nanomaterials in 1-D: formation technique, characteristics, and uses. It also encourages practical innovations in nanotechnology, especially in curbing pressing global issues related to energy, environment, and security.
Preface vii
Acknowledgments ix
Editor xi
Contributors xiii
Chapter 1 Surface Oxidation of Metal for Metal Oxide Nanowires Formation
1(30)
Zainovia Lockman
Subagja Toto Rahmat
Nurulhuda Bashirom
Monna Rozana
Chapter 2 Formation of 1-D Metal Oxide Nanostructures via Thermal Oxidation
31(28)
Christian Laurence E. Aquino
Luigi A. Dahonog
Aian B. Ontoria
Mary Donnabelle L. Balela
Chapter 3 Fabrication of 1-D ZnO by Thermal Oxidation Process
59(36)
Supab Choopun
Ekasiddh Wongrat
Niyom Hongsith
Chapter 4 Progress, Perspectives, and Applications of 1-D ZnO Fabrication by Chemical Methods
95(20)
Tan Wai Kian
Hiroyuki Muto
Go Kawamura
Atsunori Matsuda
Chapter 5 One-Dimensional a-Fe203 Nanowires Formation by High Temperature Oxidation of Iron and Their Potential Use to Remove Cr(VI) Ions
115(28)
Subagja Toto Rahmat
Monna Rozana
Tan Wai Kian
Go Kawamura
Atsunori Matsuda
Zainovia Lockman
Chapter 6 Anodic ZrO2 Nanotubes for Heavy Metal Ions Removal
143(42)
Nurulhuda Bashirom
Monna Rozana
Nurul Izza Soaid
Khairunisak Abdul Razak
Andrey Berenov
Syahriza Ismail
Tan Wai Kian
Go Kawamura
Atsunori Matsuda
Zainovia Lockman
Chapter 7 One-Dimensional Metal Oxide Nanostructures in Sensor Applications
185(26)
Ahalapitiya H. Jayatissa
Bharat R. Pant
Chapter 8 Sensors with 1-Dimensional Metal Oxide
211(50)
Khairunisak Abdul Razak
Nur Syafinaz Ridhuan
Noorhashimah Mohamad Nor
Haslinda Abdul Hamid
Zainovia Lockman
Chapter 9 Titanium Dioxide Nanotube Arrays for Solar Harvesting Applications to Address Environmental Issues
261(20)
Srimala Sreekantan
Khairul Arifah Saharudin
Nyein Nyein
Zainovia Lockman
Chapter 10 Carbon Nanotube-Metal Oxide Hybrid Nanocomposites Synthesis and Applications
281(32)
Zaid Aws Ali Ghaleb
Mariatti Jaafar
Chapter 11 Formation of SiOz Nanowires by Local Anodic Oxidation Process via AFM Lithography for the Fabrication of Silicon Nanowires
313(14)
Khatijah Aisha Yaacob
Siti Noorhaniah Yusoh
Nurain Najihah Alias
Ahmad Makarimi Abdullah
Index 327
Zainovia Lockman is a lecturer of Materials Engineering at the School of Materials & Mineral Resources Engineering (SMMRE), Universiti Sains Malaysia (USM). She graduated from Imperial College London in 1999 with a first-class honours degree in Materials Science and Engineering. She received her PhD in 2003 from Imperial College London as well majoring in electronics material (superconductors). After receiving her PhD, Dr. Lockman worked as a postdoctoral research fellow at Imperial College before moving to University of Cambridge, UK, working on thin film and nanostructured oxides. Her main interest has since revolved around thin film oxide fabrication via oxidation method for various electronic devices. Upon joining USM in 2004, Dr. Lockman and her research team at SMMRE have focused on electronic semiconducting oxide. In 2006, she went for a long research attachment at University of Cambridge to start on anodic oxidation process for photocatalytic TiO2 nanotubes formation. Dr Lockman is now leading the Nanomaterials Niche Area at SMMRE. Her research team, Green Electronic Nanomaterials Group, has been working on synthesis of oxide nanomaterials (nanotubular, nanowires, nanoparticles and nanopores) for environment protection, energy generation, saving, and transfer (i.e., nanomaterials for green technology). The team has many outstanding achievements portrayed by the vast numbers of research publications in notable, international journals, chapter in books, and research grants awarded. Dr. Lockman is a recipient of Nippon Sheet Glass Foundation Japan award, Malaysian Solid State Science and Technology Society (MASS) award for Young Researcher, Young Scientist Award, Springer, LOréal-UNESCO for Women in Science Award, and United Kingdom Prime Minister's Initiative 2 for International Education (PMI 2) award through Imperial College London. Her research group has also has done various outreach programmes to secondary schools and has helped in community projects for enhancing scientific interest among locals. Dr. Lockman is an active member of Young Scientist Network - Academy of Sciences Malaysia, treasurer for the Microscopy Society Malaysia, and a committee member for Malaysia Nanotechnology Association. She is supervising 13 postgraduate students and graduated 23 since 2006.
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