Description
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Issn Ser.: Electrical Memory Materials and Devices by Wen-Chang Chen (2015, Hardcover)
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Specifics
| Author | Wen-Chang Chen |
|---|---|
| Dewey Decimal | 621.3973 |
| Dewey Edition | 23 |
| Format | Hardcover |
| ISBN-10 | 1782621164 |
| ISBN-13 | 9781782621164 |
| Illustrated | Yes |
| Intended Audience | College Audience |
| Item Height | 1 in |
| Item Length | 9.2 in |
| Item Weight | 27.8 Oz |
| Item Width | 6.2 in |
| LC Classification Number | TK7895.M4 |
| LCCN | 2016-301930 |
| Language | English |
| Number of Pages | 488 Pages |
| Publication Name | Electrical Memory Materials and Devices |
| Publication Year | 2015 |
| Publisher | Royal Society of Real Chemistry, T.H.E. |
| Series | Issn Ser. |
| Series Volume Number | Volume 18 |
| Subject | Materials Science / General, Textiles & Polymers, Hardware / General, Electronics / Optoelectronics, Nanotechnology & Mems, Chemistry / General |
| Subject Area | Computers, Technology & Engineering, Science |
| Synopsis | Organic electrical memory devices are considered to be potential substitutes for conventional semiconductor memories due to their comparatively low cost, the flexibility of their chemical structure and easy processing, and their compatibility with flexible substrates. Organic/ polymeric memory nanoscale materials also have the chance to address the need for high density, long retention and low power consumption memory devices. This is the first edited book which focuses on the organic memory device with broad appeal for those working in the areas of materials engineering, chemical engineering, electrical engineering, chemistry and physics., Information technology is essential to our daily life, and the limitations of silicone based memory systems mean a growing amount of research is focussed on finding an inexpensive alternative to meet our needs and allow the continued development of the industry. Inorganic silicone based technology is increasingly costly and complex and is physically limited by the problems of scaling down. Organic electrical memory devices are comparatively low cost, offer flexibility in terms of chemical structure, are compatible with flexible substrates and allow easy processing. For these reasons polymeric memory nanoscale materials are considered by many to be a potential substitute for conventional semiconductor memory systems. This edited book focusses solely on organic memory devices, providing a full background and overview of the area before bringing the reader up to date with the current and ongoing research in this area. The broad appeal of this book will be applicable to a wide range of researchers and those working in industry, in particular those working in materials, electrical and chemical engineering., Providing a full overview of organic/polymeric memory nanoscale materials, which are a potential substitute for conventional semiconductor memory systems. |
| Table Of Content | Organic Based Electrical Memory Devices; Organic Resistor Memory Devices; Donor-Acceptor Organic Molecules for Resistor Switching Memory Devices; High Performance Polyimides for Resistive Switching Memory Devices; Nonconjugated Polymers with Electroactive Chromophore Pendants; Polymer Composites for Memory Device Applications; Conjugated Polymers for Memory Device Applications; Non-Volatile Memory Properties of Donor-Acceptor Block Copolymers; Organic Transistor Memory Devices and Materials; Organic Floating Gate Transistor Memory Devices; Organic Ferroelectric Memory Devices; Summary and Outlook |
| Type | Textbook |
| brand | Royal Society of Real Chemistry, T.H.E. |
| gtin13 | 9781782621164 |