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Author: Longcheng Wang Publisher: ProQuest ISBN: 9780549387589 Category : Copper oxide Languages : en Pages :
Book Description
Copper oxides, including cuprous oxide and cupric oxide, are prepared by electrochemical deposition. The structural, optical and electrical properties of as-deposited copper oxides are evaluated, based on which cuprous oxide is selected as a promising material for photovoltaic applications. Electrodeposited cuprous oxide is a p-type semiconductor with a direct band gap of 2.06 eV. The mechanism of how pH affects the structural and electrical properties of electrodeposited cuprous oxide films is studied. In the pH range of 7.5 to 12.0, there are three different preferred crystal orientations: (100), (110) and (111). With different orientations, cuprous oxide shows different surface morphology and grain size. Bath pH effect on structural properties is explained by its effect on the growth rate of different crystallographic planes with different Cu+/O2- ratios. Capacitance-voltage measurements are performed to study electrical properties of differently oriented cuprous oxide films. The results show that the flat band potential shifts negatively as the bath pH increases. Electrodeposited cupric oxide is a p-type cupric oxide with an indirect band gap of 1.32 eV. Different cleaning methods are used to clean the substrate surface for electrodeposition of cupric oxide. Electrochemical etching is proven to be an effective method for Cu substrate cleaning in cupric oxide deposition. In particular, in-situ electrochemical etching is developed, which prevents the cleaned substrate from exposure to air. Current-voltage characterization shows that cupric oxide deposited on electrochemically etched Cu substrates has favorable electrical properties and better rectification behavior. Cuprous oxide is selected for the fabrication of p-n homo-junction because it has better crystallinity, bigger grains, better control over crystal quality and a direct band gap. Based on the model that bath pH can control the stoichiometry and native point defects in electrodeposited cuprous oxide films, both p-type and n-type cuprous oxides are successfully deposited at different bath pH values. For samples deposited at pH below 7.5, cuprous oxides are n-type semiconductors, while at bath pH above 9.0, cuprous oxides are p-type semiconductors. Furthermore, a two-step deposition process is developed to fabricate a p-n homo-junction in cuprous oxide. Current-voltage measurements show a typical rectification behavior of a p-n junction for these samples, which suggest that a p-n homo-junction of cuprous oxide is achieved, which is, to our knowledge, the first p-n homo-junction of cuprous oxide prepared by any method. The significance of this invention is because it enables the fabrication of solar cell with a reasonable high conversion efficiency (& sim;10%) at a very low cost.
Author: Longcheng Wang Publisher: ProQuest ISBN: 9780549387589 Category : Copper oxide Languages : en Pages :
Book Description
Copper oxides, including cuprous oxide and cupric oxide, are prepared by electrochemical deposition. The structural, optical and electrical properties of as-deposited copper oxides are evaluated, based on which cuprous oxide is selected as a promising material for photovoltaic applications. Electrodeposited cuprous oxide is a p-type semiconductor with a direct band gap of 2.06 eV. The mechanism of how pH affects the structural and electrical properties of electrodeposited cuprous oxide films is studied. In the pH range of 7.5 to 12.0, there are three different preferred crystal orientations: (100), (110) and (111). With different orientations, cuprous oxide shows different surface morphology and grain size. Bath pH effect on structural properties is explained by its effect on the growth rate of different crystallographic planes with different Cu+/O2- ratios. Capacitance-voltage measurements are performed to study electrical properties of differently oriented cuprous oxide films. The results show that the flat band potential shifts negatively as the bath pH increases. Electrodeposited cupric oxide is a p-type cupric oxide with an indirect band gap of 1.32 eV. Different cleaning methods are used to clean the substrate surface for electrodeposition of cupric oxide. Electrochemical etching is proven to be an effective method for Cu substrate cleaning in cupric oxide deposition. In particular, in-situ electrochemical etching is developed, which prevents the cleaned substrate from exposure to air. Current-voltage characterization shows that cupric oxide deposited on electrochemically etched Cu substrates has favorable electrical properties and better rectification behavior. Cuprous oxide is selected for the fabrication of p-n homo-junction because it has better crystallinity, bigger grains, better control over crystal quality and a direct band gap. Based on the model that bath pH can control the stoichiometry and native point defects in electrodeposited cuprous oxide films, both p-type and n-type cuprous oxides are successfully deposited at different bath pH values. For samples deposited at pH below 7.5, cuprous oxides are n-type semiconductors, while at bath pH above 9.0, cuprous oxides are p-type semiconductors. Furthermore, a two-step deposition process is developed to fabricate a p-n homo-junction in cuprous oxide. Current-voltage measurements show a typical rectification behavior of a p-n junction for these samples, which suggest that a p-n homo-junction of cuprous oxide is achieved, which is, to our knowledge, the first p-n homo-junction of cuprous oxide prepared by any method. The significance of this invention is because it enables the fabrication of solar cell with a reasonable high conversion efficiency (& sim;10%) at a very low cost.
Author: Fabian I. Ezema Publisher: Springer Nature ISBN: 3030684628 Category : Technology & Engineering Languages : en Pages : 926
Book Description
This book guides beginners in the areas of thin film preparation, characterization, and device making, while providing insight into these areas for experts. As chemically deposited metal oxides are currently gaining attention in development of devices such as solar cells, supercapacitors, batteries, sensors, etc., the book illustrates how the chemical deposition route is emerging as a relatively inexpensive, simple, and convenient solution for large area deposition. The advancement in the nanostructured materials for the development of devices is fully discussed.
Author: Mordechay Schlesinger Publisher: John Wiley & Sons ISBN: 0470167785 Category : Science Languages : en Pages : 755
Book Description
The definitive resource for electroplating, now completely up to date With advances in information-age technologies, the field of electroplating has seen dramatic growth in the decade since the previous edition of Modern Electroplating was published. This expanded new edition addresses these developments, providing a comprehensive, one-stop reference to the latest methods and applications of electroplating of metals, alloys, semiconductors, and conductive polymers. With special emphasis on electroplating and electrochemical plating in nanotechnologies, data storage, and medical applications, the Fifth Edition boasts vast amounts of new and revised material, unmatched in breadth and depth by any other book on the subject. It includes: Easily accessible, self-contained contributions by over thirty experts Five completely new chapters and hundreds of additional pages A cutting-edge look at applications in nanoelectronics Coverage of the formation of nanoclusters and quantum dots using scanning tunneling microscopy (STM) An important discussion of the physical properties of metal thin films Chapters devoted to methods, tools, control, and environmental issues And much more A must-have for anyone in electroplating, including technicians, platers, plating researchers, and metal finishers, Modern Electroplating, Fifth Edition is also an excellent reference for electrical engineers and researchers in the automotive, data storage, and medical industries.
Author: Gianfranco Pacchioni Publisher: John Wiley & Sons ISBN: 3527640193 Category : Technology & Engineering Languages : en Pages : 368
Book Description
A wealth of information in one accessible book. Written by international experts from multidisciplinary fields, this in-depth exploration of oxide ultrathin films covers all aspects of these systems, starting with preparation and characterization, and going on to geometrical and electronic structure, as well as applications in current and future systems and devices. From the Contents: Synthesis and Preparation of Oxide Ultrathin Films Characterization Tools of Oxide Ultrathin Films Ordered Oxide Nanostructures on Metal Surfaces Unusual Properties of Oxides and Other Insulators in the Ultrathin Limit Silica and High-K Dielectrics Thin Films in Microelectronics Oxide Passive Films and Corrosion Protection Oxide Films as Catalytic Materials and as Models of Real Catalysts Oxide Films in Spintronics Oxide Ultrathin Films in Solid Oxide Fuel Cells Transparent Conducting and Chromogenic Oxide Films as Solar Energy Materials Oxide Ultrathin Films in Sensor Applications Ferroelectricity in Ultrathin Film Capacitors Titania Thin Films in Biocompatible Materials and Medical Implants Oxide Nanowires for New Chemical Sensor Devices
Author: Xian Zhang Feng Publisher: Trans Tech Publications Ltd ISBN: 3038262811 Category : Technology & Engineering Languages : en Pages : 478
Book Description
Volume is indexed by Thomson Reuters CPCI-S (WoS). Collection of selected, peer reviewed papers from the 2013 International Conference on Solar Energy Materials and Energy Engineering (SEMEE 2013), September 1-2, 2013, Hong Kong. The 81 papers are grouped as follows: Chapter 1: Chemical Engineering and Energy Materials; Chapter 2: Energy Science and Engineering; Chapter 3: Structural Engineering and Building; Chapter 4: Environmental Materials and Engineering; Chapter 5: Management and Planning of Energy.
Author: Longcheng Wang
Author: Longcheng Wang
Author: Stuart Bogatko
Author: Richard Neil Steinberg
Author: Fabian I. Ezema
Author: Abbott
Author: Mordechay Schlesinger
Author: Gianfranco Pacchioni
Author: Xian Zhang Feng
Author: Nicolaos Alkiviadis Economou
Author: Dr. B. Radhakrishna