A Calorimetric Investigation of the Metal-induced Crystallization of Free-standing Amorpous Silicon Thin Films PDF Download
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Author: Taylor Nicole Grueser Publisher: ISBN: Category : Aluminum Languages : en Pages : 52
Book Description
Crystalline silicon is a key component in many modern technologies, but can be difficult to produce. Ideally, thin films of crystalline silicon would be created by heating amorphous silicon to the point of crystallization (800 °C), but at this high temperature many low-cost substrates, such as glass and plastics, melt. As such, methods to lower the crystallization temperature of amorphous silicon are of great interest in materials research. This thesis looks at one such method, Metal-Induced Crystallization (MIC), in which contact with a metal induces crystallization of amorphous silicon at much lower temperatures. Specifically, we examine aluminum and beryllium induced crystallization, and investigate the variables within MIC that affect the crystallization temperature..
Author: Taylor Nicole Grueser Publisher: ISBN: Category : Aluminum Languages : en Pages : 52
Book Description
Crystalline silicon is a key component in many modern technologies, but can be difficult to produce. Ideally, thin films of crystalline silicon would be created by heating amorphous silicon to the point of crystallization (800 °C), but at this high temperature many low-cost substrates, such as glass and plastics, melt. As such, methods to lower the crystallization temperature of amorphous silicon are of great interest in materials research. This thesis looks at one such method, Metal-Induced Crystallization (MIC), in which contact with a metal induces crystallization of amorphous silicon at much lower temperatures. Specifically, we examine aluminum and beryllium induced crystallization, and investigate the variables within MIC that affect the crystallization temperature..
Author: Lebogang Kotsedi Publisher: ISBN: Category : Amorphous semiconductors Languages : en Pages : 92
Book Description
This study was carried out to crystallize hydrogenerated amorphous silicon thin films using the aluminium induced crystallization technique. This was done to investigate whether there is any lateral crystallization of the amorphous silicon thin film away from the aluminium covered surface of the film.
Author: Zhiyong Ma Publisher: CRC Press ISBN: 135173394X Category : Science Languages : en Pages : 843
Book Description
Nanoelectronics is changing the way the world communicates, and is transforming our daily lives. Continuing Moore’s law and miniaturization of low-power semiconductor chips with ever-increasing functionality have been relentlessly driving R&D of new devices, materials, and process capabilities to meet performance, power, and cost requirements. This book covers up-to-date advances in research and industry practices in nanometrology, critical for continuing technology scaling and product innovation. It holistically approaches the subject matter and addresses emerging and important topics in semiconductor R&D and manufacturing. It is a complete guide for metrology and diagnostic techniques essential for process technology, electronics packaging, and product development and debugging—a unique approach compared to other books. The authors are from academia, government labs, and industry and have vast experience and expertise in the topics presented. The book is intended for all those involved in IC manufacturing and nanoelectronics and for those studying nanoelectronics process and assembly technologies or working in device testing, characterization, and diagnostic techniques.
Author: Bell Telephone Laboratories. Libraries and Information Systems Center Publisher: ISBN: Category : Electrical engineering Languages : en Pages : 606
Author: Taylor Nicole Grueser
Author: Taylor Nicole Grueser
Author: Lebogang Kotsedi
Author: Khalil Hashem Sharif
Author: Connie Lew
Author: Sampath Kumar Paduru
Author: Ozgenc Ebil
Author: Zhiyong Ma
Author: Bell Telephone Laboratories, inc. Technical Information Libraries
Author: Bell Telephone Laboratories. Libraries and Information Systems Center
Author: Rickey J. Seyler