The Experts below are selected from a list of 33585 Experts worldwide ranked by ideXlab platform
Magnus Willander - One of the best experts on this subject based on the ideXlab platform.
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Analysis of junction properties of gold–zinc oxide nanorods-based Schottky Diode by means of frequency dependent electrical characterization on textile
Journal of Materials Science, 2014Co-Authors: Azam Khan, Mushtaque Hussain, Mazhar Ali Abbasi, Zafar Hussain Ibupoto, Omer Nur, Magnus WillanderAbstract:Present work is an effort to reveal the junction properties of gold/zinc oxide (ZnO) nanorods-based Schottky Diode by using the frequency dependent electrical properties. The most important electrical parameters such as conductance, resistance, capacitance, and impedance were studied as function of frequency across the series of AC voltages. Moreover, current density–voltage ( J – V ) was measured to know the performance of present Schottky Diode. The effect of native defects was also studied by using cathodoluminescence spectroscopy measured at different accelerating voltage. The textile substrate was used for the growth of ZnO nanorods by using the aqueous chemical growth method and Schottky Diode fabrication. Diode fabrication on textile fabric is a step forward toward the fabrication of electronic devices on nonconventional, economical, soft, light weight, flexible, wearable, washable, recyclable, reproducible, and nontoxic substrate.
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analysis of junction properties of gold zinc oxide nanorods based Schottky Diode by means of frequency dependent electrical characterization on textile
Journal of Materials Science, 2014Co-Authors: Azam Khan, Mushtaque Hussain, Mazhar Ali Abbasi, Zafar Hussain Ibupoto, Omer Nur, Magnus WillanderAbstract:Present work is an effort to reveal the junction properties of gold/zinc oxide (ZnO) nanorods-based Schottky Diode by using the frequency dependent electrical properties. The most important electrical parameters such as conductance, resistance, capacitance, and impedance were studied as function of frequency across the series of AC voltages. Moreover, current density–voltage (J–V) was measured to know the performance of present Schottky Diode. The effect of native defects was also studied by using cathodoluminescence spectroscopy measured at different accelerating voltage. The textile substrate was used for the growth of ZnO nanorods by using the aqueous chemical growth method and Schottky Diode fabrication. Diode fabrication on textile fabric is a step forward toward the fabrication of electronic devices on nonconventional, economical, soft, light weight, flexible, wearable, washable, recyclable, reproducible, and nontoxic substrate.
Azam Khan - One of the best experts on this subject based on the ideXlab platform.
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Analysis of junction properties of gold–zinc oxide nanorods-based Schottky Diode by means of frequency dependent electrical characterization on textile
Journal of Materials Science, 2014Co-Authors: Azam Khan, Mushtaque Hussain, Mazhar Ali Abbasi, Zafar Hussain Ibupoto, Omer Nur, Magnus WillanderAbstract:Present work is an effort to reveal the junction properties of gold/zinc oxide (ZnO) nanorods-based Schottky Diode by using the frequency dependent electrical properties. The most important electrical parameters such as conductance, resistance, capacitance, and impedance were studied as function of frequency across the series of AC voltages. Moreover, current density–voltage ( J – V ) was measured to know the performance of present Schottky Diode. The effect of native defects was also studied by using cathodoluminescence spectroscopy measured at different accelerating voltage. The textile substrate was used for the growth of ZnO nanorods by using the aqueous chemical growth method and Schottky Diode fabrication. Diode fabrication on textile fabric is a step forward toward the fabrication of electronic devices on nonconventional, economical, soft, light weight, flexible, wearable, washable, recyclable, reproducible, and nontoxic substrate.
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analysis of junction properties of gold zinc oxide nanorods based Schottky Diode by means of frequency dependent electrical characterization on textile
Journal of Materials Science, 2014Co-Authors: Azam Khan, Mushtaque Hussain, Mazhar Ali Abbasi, Zafar Hussain Ibupoto, Omer Nur, Magnus WillanderAbstract:Present work is an effort to reveal the junction properties of gold/zinc oxide (ZnO) nanorods-based Schottky Diode by using the frequency dependent electrical properties. The most important electrical parameters such as conductance, resistance, capacitance, and impedance were studied as function of frequency across the series of AC voltages. Moreover, current density–voltage (J–V) was measured to know the performance of present Schottky Diode. The effect of native defects was also studied by using cathodoluminescence spectroscopy measured at different accelerating voltage. The textile substrate was used for the growth of ZnO nanorods by using the aqueous chemical growth method and Schottky Diode fabrication. Diode fabrication on textile fabric is a step forward toward the fabrication of electronic devices on nonconventional, economical, soft, light weight, flexible, wearable, washable, recyclable, reproducible, and nontoxic substrate.
Dominique Planson - One of the best experts on this subject based on the ideXlab platform.
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SiC lateral Schottky Diode technology for integrated smart power converter
2018Co-Authors: Jean-françois Mogniotte, Christophe Raynaud, Mihai Lazar, Bruno Allard, Dominique PlansonAbstract:Ampere laboratory develops a technology of lateral power integrated circuit in Silicon Carbide (SiC). The purpose is to establish integrated power converter with its driver, which can operate in harsh environment. The technology is namely consisted by lateral MESFETs and lateral Diodes. This paper presents two types of manufactured Diodes: rectifier Schottky Diode and power Schottky Diode.
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High termination efficiency using polyimide trench for high voltage diamond Schottky Diode
Diamond and Related Materials, 2015Co-Authors: Houssam Arbess, Karine Isoird, Moustafa Zerarka, Henri Schneider, Marie-laure Locatelli, Dominique PlansonAbstract:Using finite element simulations with Sentaurus TCAD (Technology Computer-Aided Design) software, a progress from simple and classic termination for a Schottky Diode to new topology termination has been studied in this paper. A polyimide trench under field plate termination has been used. The efficiency increases from 67% for a simple field plate with optimum parameters up to 97 %. The maximum electric field in the termination dielectric has been evaluated also. A wide study of the termination geometry has been made in order to extract the optimum parameters in two directions. The first one is to obtain a high efficiency regarding the breakdown voltage, and the second one is to have the minimum electric field peak at the termination edge.
Mushtaque Hussain - One of the best experts on this subject based on the ideXlab platform.
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Analysis of junction properties of gold–zinc oxide nanorods-based Schottky Diode by means of frequency dependent electrical characterization on textile
Journal of Materials Science, 2014Co-Authors: Azam Khan, Mushtaque Hussain, Mazhar Ali Abbasi, Zafar Hussain Ibupoto, Omer Nur, Magnus WillanderAbstract:Present work is an effort to reveal the junction properties of gold/zinc oxide (ZnO) nanorods-based Schottky Diode by using the frequency dependent electrical properties. The most important electrical parameters such as conductance, resistance, capacitance, and impedance were studied as function of frequency across the series of AC voltages. Moreover, current density–voltage ( J – V ) was measured to know the performance of present Schottky Diode. The effect of native defects was also studied by using cathodoluminescence spectroscopy measured at different accelerating voltage. The textile substrate was used for the growth of ZnO nanorods by using the aqueous chemical growth method and Schottky Diode fabrication. Diode fabrication on textile fabric is a step forward toward the fabrication of electronic devices on nonconventional, economical, soft, light weight, flexible, wearable, washable, recyclable, reproducible, and nontoxic substrate.
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analysis of junction properties of gold zinc oxide nanorods based Schottky Diode by means of frequency dependent electrical characterization on textile
Journal of Materials Science, 2014Co-Authors: Azam Khan, Mushtaque Hussain, Mazhar Ali Abbasi, Zafar Hussain Ibupoto, Omer Nur, Magnus WillanderAbstract:Present work is an effort to reveal the junction properties of gold/zinc oxide (ZnO) nanorods-based Schottky Diode by using the frequency dependent electrical properties. The most important electrical parameters such as conductance, resistance, capacitance, and impedance were studied as function of frequency across the series of AC voltages. Moreover, current density–voltage (J–V) was measured to know the performance of present Schottky Diode. The effect of native defects was also studied by using cathodoluminescence spectroscopy measured at different accelerating voltage. The textile substrate was used for the growth of ZnO nanorods by using the aqueous chemical growth method and Schottky Diode fabrication. Diode fabrication on textile fabric is a step forward toward the fabrication of electronic devices on nonconventional, economical, soft, light weight, flexible, wearable, washable, recyclable, reproducible, and nontoxic substrate.
Mazhar Ali Abbasi - One of the best experts on this subject based on the ideXlab platform.
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Analysis of junction properties of gold–zinc oxide nanorods-based Schottky Diode by means of frequency dependent electrical characterization on textile
Journal of Materials Science, 2014Co-Authors: Azam Khan, Mushtaque Hussain, Mazhar Ali Abbasi, Zafar Hussain Ibupoto, Omer Nur, Magnus WillanderAbstract:Present work is an effort to reveal the junction properties of gold/zinc oxide (ZnO) nanorods-based Schottky Diode by using the frequency dependent electrical properties. The most important electrical parameters such as conductance, resistance, capacitance, and impedance were studied as function of frequency across the series of AC voltages. Moreover, current density–voltage ( J – V ) was measured to know the performance of present Schottky Diode. The effect of native defects was also studied by using cathodoluminescence spectroscopy measured at different accelerating voltage. The textile substrate was used for the growth of ZnO nanorods by using the aqueous chemical growth method and Schottky Diode fabrication. Diode fabrication on textile fabric is a step forward toward the fabrication of electronic devices on nonconventional, economical, soft, light weight, flexible, wearable, washable, recyclable, reproducible, and nontoxic substrate.
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analysis of junction properties of gold zinc oxide nanorods based Schottky Diode by means of frequency dependent electrical characterization on textile
Journal of Materials Science, 2014Co-Authors: Azam Khan, Mushtaque Hussain, Mazhar Ali Abbasi, Zafar Hussain Ibupoto, Omer Nur, Magnus WillanderAbstract:Present work is an effort to reveal the junction properties of gold/zinc oxide (ZnO) nanorods-based Schottky Diode by using the frequency dependent electrical properties. The most important electrical parameters such as conductance, resistance, capacitance, and impedance were studied as function of frequency across the series of AC voltages. Moreover, current density–voltage (J–V) was measured to know the performance of present Schottky Diode. The effect of native defects was also studied by using cathodoluminescence spectroscopy measured at different accelerating voltage. The textile substrate was used for the growth of ZnO nanorods by using the aqueous chemical growth method and Schottky Diode fabrication. Diode fabrication on textile fabric is a step forward toward the fabrication of electronic devices on nonconventional, economical, soft, light weight, flexible, wearable, washable, recyclable, reproducible, and nontoxic substrate.