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Paper Thermoelectrics by a Solvent-Free Drawing Method of All Carbon-Based Materials
Saqib Rafique,
Nafiseh Badiei,
Matthew Burton 
,
Jorge Eduardo Gonzalez-Feijoo,
Matt Carnie ,
Afshin Tarat,
Lijie Li
,
Jorge Eduardo Gonzalez-Feijoo,
Matt Carnie ,
Afshin Tarat,
Lijie Li
ACS Omega, Volume: 6, Issue: 7, Pages: 5019 - 5026
Swansea University Authors:
Saqib Rafique, Nafiseh Badiei, Matthew Burton , Matt Carnie , Lijie Li
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DOI (Published version): 10.1021/acsomega.0c06221
Abstract
As practical interest in the flexible or wearable thermoelectric generators (TEGs) has increased, the demand for the high-performance TEGs based on ecofriendly, mechanically resilient, and economically viable TEGs as alternatives to the brittle inorganic materials is growing. Organic or hybrid therm...
| Published in: | ACS Omega |
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| ISSN: | 2470-1343 2470-1343 |
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American Chemical Society (ACS)
2021
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<?xml version="1.0"?><rfc1807><datestamp>2021-03-11T09:20:16.8207410</datestamp><bib-version>v2</bib-version><id>56231</id><entry>2021-02-10</entry><title>Paper Thermoelectrics by a Solvent-Free Drawing Method of All Carbon-Based Materials</title><swanseaauthors><author><sid>24fba91f85bf6f1f17145e84bf1b32d9</sid><firstname>Saqib</firstname><surname>Rafique</surname><name>Saqib Rafique</name><active>true</active><ethesisStudent>false</ethesisStudent></author><author><sid>c82cd1b82759801ab0045cb9f0047b06</sid><firstname>Nafiseh</firstname><surname>Badiei</surname><name>Nafiseh Badiei</name><active>true</active><ethesisStudent>false</ethesisStudent></author><author><sid>2deade2806e39b1f749e9cf67ac640b2</sid><ORCID>0000-0002-0376-6322</ORCID><firstname>Matthew</firstname><surname>Burton</surname><name>Matthew Burton</name><active>true</active><ethesisStudent>false</ethesisStudent></author><author><sid>73b367694366a646b90bb15db32bb8c0</sid><ORCID>0000-0002-4232-1967</ORCID><firstname>Matt</firstname><surname>Carnie</surname><name>Matt Carnie</name><active>true</active><ethesisStudent>false</ethesisStudent></author><author><sid>ed2c658b77679a28e4c1dcf95af06bd6</sid><ORCID>0000-0003-4630-7692</ORCID><firstname>Lijie</firstname><surname>Li</surname><name>Lijie Li</name><active>true</active><ethesisStudent>false</ethesisStudent></author></swanseaauthors><date>2021-02-10</date><deptcode>MTLS</deptcode><abstract>As practical interest in the flexible or wearable thermoelectric generators (TEGs) has increased, the demand for the high-performance TEGs based on ecofriendly, mechanically resilient, and economically viable TEGs as alternatives to the brittle inorganic materials is growing. Organic or hybrid thermoelectric (TE) materials have been employed in flexible TEGs; however, their fabrication is normally carried out using wet processing such as spin-coating or screen printing. These techniques require materials dissolved or dispersed in solvents; thus, they limit the substrate choice. Herein, we have rationally designed solvent-free, all carbon-based TEGs dry-drawn on a regular office paper using few-layered graphene (FLG). This technique showed very good TE parameters, yielding a power factor of 97 μW m–1 K–2 at low temperatures. The p-type only device exhibited an output power of up to ∼19.48 nW. As a proof of concept, all carbon-based p-n TEGs were created on paper with the addition of HB pencil traces. The HB pencil exhibited low Seebeck coefficients (−7 μV K–1), and the traces were highly resistive compared to FLG traces, which resulted in significantly lower output power compared to the p-type only TEG. The demonstration of all carbon-based TEGs drawn on paper highlights the potential for future low-cost, flexible, and almost instantaneously created TEGs for low-power applications.</abstract><type>Journal Article</type><journal>ACS Omega</journal><volume>6</volume><journalNumber>7</journalNumber><paginationStart>5019</paginationStart><paginationEnd>5026</paginationEnd><publisher>American Chemical Society (ACS)</publisher><placeOfPublication/><isbnPrint/><isbnElectronic/><issnPrint>2470-1343</issnPrint><issnElectronic>2470-1343</issnElectronic><keywords/><publishedDay>23</publishedDay><publishedMonth>2</publishedMonth><publishedYear>2021</publishedYear><publishedDate>2021-02-23</publishedDate><doi>10.1021/acsomega.0c06221</doi><url/><notes/><college>COLLEGE NANME</college><department>Materials Science and Engineering</department><CollegeCode>COLLEGE CODE</CollegeCode><DepartmentCode>MTLS</DepartmentCode><institution>Swansea University</institution><apcterm/><lastEdited>2021-03-11T09:20:16.8207410</lastEdited><Created>2021-02-10T19:59:26.7941454</Created><path><level id="1">Faculty of Science and Engineering</level><level id="2">School of Engineering and Applied Sciences - Materials Science and Engineering</level></path><authors><author><firstname>Saqib</firstname><surname>Rafique</surname><order>1</order></author><author><firstname>Nafiseh</firstname><surname>Badiei</surname><order>2</order></author><author><firstname>Matthew</firstname><surname>Burton</surname><orcid>0000-0002-0376-6322</orcid><order>3</order></author><author><firstname>Jorge Eduardo</firstname><surname>Gonzalez-Feijoo</surname><order>4</order></author><author><firstname>Matt</firstname><surname>Carnie</surname><orcid>0000-0002-4232-1967</orcid><order>5</order></author><author><firstname>Afshin</firstname><surname>Tarat</surname><order>6</order></author><author><firstname>Lijie</firstname><surname>Li</surname><orcid>0000-0003-4630-7692</orcid><order>7</order></author></authors><documents><document><filename>56231__19402__98541509ec584695835d2e1591d5d3b8.pdf</filename><originalFilename>56231.pdf</originalFilename><uploaded>2021-03-02T13:17:01.0944461</uploaded><type>Output</type><contentLength>3958841</contentLength><contentType>application/pdf</contentType><version>Version of Record</version><cronfaStatus>true</cronfaStatus><documentNotes>Released under a Creative Commons Attribution Non-Commercial No Derivatives License (CC-BY-NC-ND)</documentNotes><copyrightCorrect>true</copyrightCorrect><language>eng</language><licence>https://creativecommons.org/licenses/by-nc-nd/4.0/</licence></document></documents><OutputDurs/></rfc1807> |
| spelling |
2021-03-11T09:20:16.8207410 v2 56231 2021-02-10 Paper Thermoelectrics by a Solvent-Free Drawing Method of All Carbon-Based Materials 24fba91f85bf6f1f17145e84bf1b32d9 Saqib Rafique Saqib Rafique true false c82cd1b82759801ab0045cb9f0047b06 Nafiseh Badiei Nafiseh Badiei true false 2deade2806e39b1f749e9cf67ac640b2 0000-0002-0376-6322 Matthew Burton Matthew Burton true false 73b367694366a646b90bb15db32bb8c0 0000-0002-4232-1967 Matt Carnie Matt Carnie true false ed2c658b77679a28e4c1dcf95af06bd6 0000-0003-4630-7692 Lijie Li Lijie Li true false 2021-02-10 MTLS As practical interest in the flexible or wearable thermoelectric generators (TEGs) has increased, the demand for the high-performance TEGs based on ecofriendly, mechanically resilient, and economically viable TEGs as alternatives to the brittle inorganic materials is growing. Organic or hybrid thermoelectric (TE) materials have been employed in flexible TEGs; however, their fabrication is normally carried out using wet processing such as spin-coating or screen printing. These techniques require materials dissolved or dispersed in solvents; thus, they limit the substrate choice. Herein, we have rationally designed solvent-free, all carbon-based TEGs dry-drawn on a regular office paper using few-layered graphene (FLG). This technique showed very good TE parameters, yielding a power factor of 97 μW m–1 K–2 at low temperatures. The p-type only device exhibited an output power of up to ∼19.48 nW. As a proof of concept, all carbon-based p-n TEGs were created on paper with the addition of HB pencil traces. The HB pencil exhibited low Seebeck coefficients (−7 μV K–1), and the traces were highly resistive compared to FLG traces, which resulted in significantly lower output power compared to the p-type only TEG. The demonstration of all carbon-based TEGs drawn on paper highlights the potential for future low-cost, flexible, and almost instantaneously created TEGs for low-power applications. Journal Article ACS Omega 6 7 5019 5026 American Chemical Society (ACS) 2470-1343 2470-1343 23 2 2021 2021-02-23 10.1021/acsomega.0c06221 COLLEGE NANME Materials Science and Engineering COLLEGE CODE MTLS Swansea University 2021-03-11T09:20:16.8207410 2021-02-10T19:59:26.7941454 Faculty of Science and Engineering School of Engineering and Applied Sciences - Materials Science and Engineering Saqib Rafique 1 Nafiseh Badiei 2 Matthew Burton 0000-0002-0376-6322 3 Jorge Eduardo Gonzalez-Feijoo 4 Matt Carnie 0000-0002-4232-1967 5 Afshin Tarat 6 Lijie Li 0000-0003-4630-7692 7 56231__19402__98541509ec584695835d2e1591d5d3b8.pdf 56231.pdf 2021-03-02T13:17:01.0944461 Output 3958841 application/pdf Version of Record true Released under a Creative Commons Attribution Non-Commercial No Derivatives License (CC-BY-NC-ND) true eng https://creativecommons.org/licenses/by-nc-nd/4.0/ |
| title |
Paper Thermoelectrics by a Solvent-Free Drawing Method of All Carbon-Based Materials |
| spellingShingle |
Paper Thermoelectrics by a Solvent-Free Drawing Method of All Carbon-Based Materials Saqib Rafique Nafiseh Badiei Matthew Burton Matt Carnie Lijie Li |
| title_short |
Paper Thermoelectrics by a Solvent-Free Drawing Method of All Carbon-Based Materials |
| title_full |
Paper Thermoelectrics by a Solvent-Free Drawing Method of All Carbon-Based Materials |
| title_fullStr |
Paper Thermoelectrics by a Solvent-Free Drawing Method of All Carbon-Based Materials |
| title_full_unstemmed |
Paper Thermoelectrics by a Solvent-Free Drawing Method of All Carbon-Based Materials |
| title_sort |
Paper Thermoelectrics by a Solvent-Free Drawing Method of All Carbon-Based Materials |
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24fba91f85bf6f1f17145e84bf1b32d9 c82cd1b82759801ab0045cb9f0047b06 2deade2806e39b1f749e9cf67ac640b2 73b367694366a646b90bb15db32bb8c0 ed2c658b77679a28e4c1dcf95af06bd6 |
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24fba91f85bf6f1f17145e84bf1b32d9_***_Saqib Rafique c82cd1b82759801ab0045cb9f0047b06_***_Nafiseh Badiei 2deade2806e39b1f749e9cf67ac640b2_***_Matthew Burton 73b367694366a646b90bb15db32bb8c0_***_Matt Carnie ed2c658b77679a28e4c1dcf95af06bd6_***_Lijie Li |
| author |
Saqib Rafique Nafiseh Badiei Matthew Burton Matt Carnie Lijie Li |
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Saqib Rafique Nafiseh Badiei Matthew Burton Jorge Eduardo Gonzalez-Feijoo Matt Carnie Afshin Tarat Lijie Li |
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ACS Omega |
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6 |
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7 |
| container_start_page |
5019 |
| publishDate |
2021 |
| institution |
Swansea University |
| issn |
2470-1343 2470-1343 |
| doi_str_mv |
10.1021/acsomega.0c06221 |
| publisher |
American Chemical Society (ACS) |
| college_str |
Faculty of Science and Engineering |
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facultyofscienceandengineering |
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facultyofscienceandengineering |
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School of Engineering and Applied Sciences - Materials Science and Engineering{{{_:::_}}}Faculty of Science and Engineering{{{_:::_}}}School of Engineering and Applied Sciences - Materials Science and Engineering |
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| description |
As practical interest in the flexible or wearable thermoelectric generators (TEGs) has increased, the demand for the high-performance TEGs based on ecofriendly, mechanically resilient, and economically viable TEGs as alternatives to the brittle inorganic materials is growing. Organic or hybrid thermoelectric (TE) materials have been employed in flexible TEGs; however, their fabrication is normally carried out using wet processing such as spin-coating or screen printing. These techniques require materials dissolved or dispersed in solvents; thus, they limit the substrate choice. Herein, we have rationally designed solvent-free, all carbon-based TEGs dry-drawn on a regular office paper using few-layered graphene (FLG). This technique showed very good TE parameters, yielding a power factor of 97 μW m–1 K–2 at low temperatures. The p-type only device exhibited an output power of up to ∼19.48 nW. As a proof of concept, all carbon-based p-n TEGs were created on paper with the addition of HB pencil traces. The HB pencil exhibited low Seebeck coefficients (−7 μV K–1), and the traces were highly resistive compared to FLG traces, which resulted in significantly lower output power compared to the p-type only TEG. The demonstration of all carbon-based TEGs drawn on paper highlights the potential for future low-cost, flexible, and almost instantaneously created TEGs for low-power applications. |
| published_date |
2021-02-23T04:11:02Z |
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1763753760946913280 |
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11.017062 |