Central Library

Normal view MARC view ISBD view

Advanced PEDOT thermoelectric materials / edited by Fengxing Jiang, Congcong Liu, Jingkun Xu.

Contributor(s): Jiang, Fengxing [editor.] | Liu, Congcong [editor.] | Xu, Jingkun [editor.].
Material type: materialTypeLabelBookSeries: Woodhead Publishing series in electronic and optical materials: Publisher: Duxford, United Kingdom ; Cambridge, MA : Woodhead Publishing, [2022]Description: 1 online resource : illustrations (some color).Content type: text Media type: computer Carrier type: online resourceISBN: 9780128232279; 0128232277.Subject(s): Conducting polymers | Thermoelectric materials | Polymers | Polym�eres conducteurs | Thermoelectric materials | Polymers | Conducting polymersAdditional physical formats: Print version:: Advanced PEDOT thermoelectric materials.DDC classification: 547/.70457 Online resources: ScienceDirect
Contents:
7.2.1 TE properties of PEDOT/metal nanoparticle composites -- 7.2.2 TE properties of PEDOT/inorganic semiconductor composites -- 7.2.3 TE properties of PEDOT/carbon nanomaterial composites -- 7.2.4 TE properties of PEDOT-based ternary composites -- 7.3 Concluding remarks -- References -- 8 -- Thermoelectric PEDOT measurement techniques -- 8.1 Introduction -- 8.2 Electrical conductivity -- 8.3 Seebeck coefficient -- 8.3.1 Static method -- 8.3.2 Quasi-static method -- 8.3.3 Analysis of errors -- 8.4 Thermal conductivity -- 8.5 Carrier density and mobility -- 8.5.1 Field effect transistor method -- 8.5.2 Hall effect method -- 8.6 Concluding remarks -- References -- 9 -- Flexible and wearable thermoelectric PEDOT devices -- 9.1 Introduction -- 9.2 Thermoelectric film -- 9.3 Thermoelectric fiber -- 9.4 Thermoelectric module -- 9.4.1 Screen printing -- 9.4.2 Inkjet printing -- 9.4.3 Roll-to-roll -- 9.4.4 Photolithography -- 9.5 Concluding remarks -- References -- 10 -- Challenges and perspectives -- References -- Index -- Back Cover.
Summary: PEDOT is currently the most widely used polymeric material in research and development. Over the past 10 years, PEDOT has been investigated for potential organic thermoelectric applications because of its superior thermoelectric and mechanical properties compared with other conductive polymers. However, many challenges remain to be solved before it is translated into key technologies. Advanced PEDOT Thermoelectric Materials summarizes current progress and the challenges of PEDOT thermoelectric materials, while clarifying directions for future development. This book provides a comprehensive overview of chemical, physical, and technical information about this organic thermoelectric polymer. The authors also give details about the theoretical basis of PEDOT, including preparation and characterization, and its development as a high-performance thermoelectric material.
    average rating: 0.0 (0 votes)
No physical items for this record

Includes bibliographical references and index.

Online resource; title from digital title page (viewed on November 22, 2021).

PEDOT is currently the most widely used polymeric material in research and development. Over the past 10 years, PEDOT has been investigated for potential organic thermoelectric applications because of its superior thermoelectric and mechanical properties compared with other conductive polymers. However, many challenges remain to be solved before it is translated into key technologies. Advanced PEDOT Thermoelectric Materials summarizes current progress and the challenges of PEDOT thermoelectric materials, while clarifying directions for future development. This book provides a comprehensive overview of chemical, physical, and technical information about this organic thermoelectric polymer. The authors also give details about the theoretical basis of PEDOT, including preparation and characterization, and its development as a high-performance thermoelectric material.

7.2.1 TE properties of PEDOT/metal nanoparticle composites -- 7.2.2 TE properties of PEDOT/inorganic semiconductor composites -- 7.2.3 TE properties of PEDOT/carbon nanomaterial composites -- 7.2.4 TE properties of PEDOT-based ternary composites -- 7.3 Concluding remarks -- References -- 8 -- Thermoelectric PEDOT measurement techniques -- 8.1 Introduction -- 8.2 Electrical conductivity -- 8.3 Seebeck coefficient -- 8.3.1 Static method -- 8.3.2 Quasi-static method -- 8.3.3 Analysis of errors -- 8.4 Thermal conductivity -- 8.5 Carrier density and mobility -- 8.5.1 Field effect transistor method -- 8.5.2 Hall effect method -- 8.6 Concluding remarks -- References -- 9 -- Flexible and wearable thermoelectric PEDOT devices -- 9.1 Introduction -- 9.2 Thermoelectric film -- 9.3 Thermoelectric fiber -- 9.4 Thermoelectric module -- 9.4.1 Screen printing -- 9.4.2 Inkjet printing -- 9.4.3 Roll-to-roll -- 9.4.4 Photolithography -- 9.5 Concluding remarks -- References -- 10 -- Challenges and perspectives -- References -- Index -- Back Cover.

There are no comments for this item.

Log in to your account to post a comment.