Energy Harvesting Properties of Electrospun Nanofibers / edited by Jian Fang and Tong Lin.

Contributor(s): Material type: TextTextPublisher: ©2020Description: various pagings : illustrations (some colour) ; 26 cmContent type:
  • text
Media type:
  • unmediated
Carrier type:
  • volume
Subject(s): LOC classification:
  • TA418.9.F5 FAN
Online resources:
Contents:
1. Electrospinning : an advanced nanofiber production technology -- 1.1. Introduction to electrospinning -- 1.2. Electrospinning basis -- 1.3. Nozzle electrospinning -- 1.4. Needleless electrospinning -- 1.5. Nanofiber collection -- 1.6. Summary and outlook 2. Introduction to piezoelectricity and electrospun piezoelectric materials and devices -- 2.1. Introduction -- 2.2. Piezoelectricity : fundamentals and energy generation -- 2.3. Introduction to electrospinning technique -- 2.4. Piezoelectric materials -- 2.5. Electrospun piezoelectric energy harvesting systems -- 2.6. Final remarks 3. Triboelectric effect and triboelectric energy generators -- 3.1. Static electricity -- 3.2. Contact electrification -- 3.3. Triboelectric materials and triboelectric series -- 3.4. Antistatics -- 3.5. Applications for energy generation -- 3.6. Summary 4. Piezoelectric energy conversion performance of electrospun nanofibers -- 4.1. Introduction -- 4.2. Brief history -- 4.3. Piezoelectricity of PVDF nanofibers -- 4.4. Piezoelectricity of other electrospun nanofibers -- 4.5. Piezoelectric-triboelectric hybrid energy generator devices -- 4.6. Summary 5. Enhancing [beta] crystal phase content in electrospun PVDF nanofibers -- 5.1. Introduction -- 5.2. Characterization techniques -- 5.3. Enhancing [beta] phase formation in electrospun PVDF nanofibers -- 5.4. Conclusion 6. Acoustoelectric energy conversion of nanofibrous materials -- 6.1. Introduction -- 6.2. Conventional acoustic transducers -- 6.3. Acoustic sensors -- 6.4. Acoustoelectric harvesters -- 6.5. Potential applications -- 6.6. Conclusions 7. Flexible and stretchable nanofibrous piezo- and triboelectric wearable electronics -- 7.1. Introduction -- 7.2. Recent progress in electrospun nanofibers and piezo-triboelectric nanogenerators -- 7.3. Hybridization approaches for piezo-triboelectric devices -- 7.4. Large-scale nanofibrous energy harvesting strategies -- 7.5. Future trend of energy harvesting methods for portable medical devices -- 7.6. Conclusion 8. Wearable triboelectric nanogenerators constructed from electrospun nanofibers -- 8.1. Background -- 8.2. TENGs -- 8.3. Fundamental operation modes and basic device structures -- 8.4. Nanofiber-based wearable TENGs -- 8.5. Electrospun triboelectric materials -- 8.6. Standard matrix for high-performance nanofiber-based TENG -- 8.7. Applications of nanofiber-based TENGs -- 8.8. Data collection and analysis -- 8.9. Conclusions and perspectives.
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Holdings
Item type Current library Collection Call number Status Date due Barcode
Books Books GSU Library Epoch General Stacks Non-fiction TA418.9.F5FAN (Browse shelf(Opens below)) Available 50000005810

"Version: 20191201"--Title page verso.

Includes bibliographical references.

1. Electrospinning : an advanced nanofiber production technology -- 1.1. Introduction to electrospinning -- 1.2. Electrospinning basis -- 1.3. Nozzle electrospinning -- 1.4. Needleless electrospinning -- 1.5. Nanofiber collection -- 1.6. Summary and outlook
2. Introduction to piezoelectricity and electrospun piezoelectric materials and devices -- 2.1. Introduction -- 2.2. Piezoelectricity : fundamentals and energy generation -- 2.3. Introduction to electrospinning technique -- 2.4. Piezoelectric materials -- 2.5. Electrospun piezoelectric energy harvesting systems -- 2.6. Final remarks
3. Triboelectric effect and triboelectric energy generators -- 3.1. Static electricity -- 3.2. Contact electrification -- 3.3. Triboelectric materials and triboelectric series -- 3.4. Antistatics -- 3.5. Applications for energy generation -- 3.6. Summary
4. Piezoelectric energy conversion performance of electrospun nanofibers -- 4.1. Introduction -- 4.2. Brief history -- 4.3. Piezoelectricity of PVDF nanofibers -- 4.4. Piezoelectricity of other electrospun nanofibers -- 4.5. Piezoelectric-triboelectric hybrid energy generator devices -- 4.6. Summary
5. Enhancing [beta] crystal phase content in electrospun PVDF nanofibers -- 5.1. Introduction -- 5.2. Characterization techniques -- 5.3. Enhancing [beta] phase formation in electrospun PVDF nanofibers -- 5.4. Conclusion
6. Acoustoelectric energy conversion of nanofibrous materials -- 6.1. Introduction -- 6.2. Conventional acoustic transducers -- 6.3. Acoustic sensors -- 6.4. Acoustoelectric harvesters -- 6.5. Potential applications -- 6.6. Conclusions
7. Flexible and stretchable nanofibrous piezo- and triboelectric wearable electronics -- 7.1. Introduction -- 7.2. Recent progress in electrospun nanofibers and piezo-triboelectric nanogenerators -- 7.3. Hybridization approaches for piezo-triboelectric devices -- 7.4. Large-scale nanofibrous energy harvesting strategies -- 7.5. Future trend of energy harvesting methods for portable medical devices -- 7.6. Conclusion
8. Wearable triboelectric nanogenerators constructed from electrospun nanofibers -- 8.1. Background -- 8.2. TENGs -- 8.3. Fundamental operation modes and basic device structures -- 8.4. Nanofiber-based wearable TENGs -- 8.5. Electrospun triboelectric materials -- 8.6. Standard matrix for high-performance nanofiber-based TENG -- 8.7. Applications of nanofiber-based TENGs -- 8.8. Data collection and analysis -- 8.9. Conclusions and perspectives.

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