TY  - BOOK
AU  - Khanna,Vinod Kumar
ED  - Institute of Physics (Great Britain),
TI  - Flexible electronics
T2  - [IOP release 6]
SN  - 9780750324533
AV  - TK7872.F54 K534 2019eb vol. 2
U1  - 621.381 23
PY  - 2019///]
CY  - Bristol [England] (Temple Circus, Temple Way, Bristol BS1 6HG, UK)
PB  - IOP Publishing
KW  - Flexible electronics
KW  - Thin film transistors
KW  - Materials science
KW  - bicssc
KW  - TECHNOLOGY & ENGINEERING / Materials Science / Electronic Materials
KW  - bisacsh
N1  - "Version: 20190701"--Title page verso; Includes bibliographical references; 1. Amorphous Si TFT -- 1.1. Thin-film transistor (TFT) -- 1.2. TFT configurations and structures -- 1.3. a-Si TFTs on polyimide foil substrates -- 1.4. Effects of uniaxial and biaxial strain on TFTs -- 1.5. TFTs on stainless steel foil substrate; 2. PolySi TFT -- 2.1. Introduction -- 2.2. PolySi TFT on PET -- 2.3. PolySi TFT on PES -- 2.4. PolySi TFT on PES or PAR -- 2.5. PolySi TFT on plastic film by laminating on glass carrier -- 2.6. Low-temperature <425 �C polySi TFT by SUFTLA --; 3. Single-crystal Si TFT -- 3.1. Introduction -- 3.2. Transferrable single-crystal silicon nanomembranes (NMs) -- 3.3. SOI wafer process for Si NMs production, doping and transfer -- 3.4. Microwave TFT fabrication using Si NMs -- 3.5. TFTs on st; 4. Metal-oxide TFT -- 4.1. Introduction -- 4.2. IGZO TFT with ESL on PEN substrate -- 4.3. IGZO TFT with cellulose fiber-based paper as substrate cum gate dielectric -- 4.4. IGZO TFT fabrication process by sol-gel route -- 4.5. IGZO TFT with org; 5. Small organic molecule TFT -- 5.1. Introduction -- 5.2. Pentacene TFT on PEN substrate -- 5.3. Bending effects on pentacene TFT -- 5.4. Pentacene and F16CuPc TFTs on PEN substrate for organic complementary circuit -- 5.5. N-type small-molecul; 6. Polymer TFT -- 6.1. Introduction -- 6.2. P3HT TFT on polycarbonate substrate -- 6.3. PTAA TFT on PET foil -- 6.4. PDQT TFT array on PET substrate -- 6.5. Ultrathin, disintegrable PDPP-PD polymer TFT and logic circuits on cellulose substrate -; 7. Organic single-crystal TFT -- 7.1. Introduction -- 7.2. Rubrene single-crystal TFT -- 7.3. BPEA single-crystal TFT -- 7.4. Speedier process of building large arrays of organic single crystals -- 7.5. CuPc and F16CuPc TFTs on 15 [mu]m diameter; 8. Electrolyte-gated organic FET (EGOFET) and organic electrochemical FET (OECFET) -- 8.1. Introduction -- 8.2. Principle of electrolyte-gate organic FET (EGOFET) -- 8.3. Organic electrochemical TFT (OECFET) -- 8.4. EGOFET and OECFET with water; 9. 2D-material TFT -- 9.1. Introduction -- 9.2. Graphene TFT on polyimide -- 9.3. Graphene TFT on transparent PEN substrate -- 9.4. Graphene TFT on flexible glass -- 9.5. MoS2 TFT on Kapton (polyimide) -- 9.6. WS2 TFT on solution-cast PI substra; 10. CNT FET -- 10.1. Introduction -- 10.2. High-mobility SWCNT TFT on spin-coated PI substrate -- 10.3. Semiconductor-enriched CNT-based TFT on spin-coated PI substrate for active-matrix backplane -- 10.4. CNT TFT with high current on-off ratio; 11. Nanowire FET -- 11.1. Introduction -- 11.2. Ge/Si NW FET on PI film -- 11.3. P-type Si/SiO2 NW TFT on PEEK -- 11.4. P-type Si/SiO2 NW TFT on Mylar -- 11.5. TFT on a PET substrate by the SNAP NW transfer approach -- 11.6. Discussion and concl; Graduate students, researchers, some industry; Also available in print
N2  - Flexible electronics is a fast-emerging field with the potential for huge industrial importance. Comprising three volumes, this work offers a cohesive, coherent and comprehensive overview of the field. Themes covered include mechanical theory, m
UR  - https://ezproxy.mef.edu.tr/login?url=https://iopscience.iop.org/book/978-0-7503-2453-3
ER  -