Journal article 1402 views 472 downloads
High throughput fabrication of mesoporous carbon perovskite solar cells
Jenny Baker 
,
Katherine Hooper,
Simone Meroni ,
Adam Pockett,
James McGettrick ,
Zhengfei Wei,
Renán Escalante,
Gerko Oskam,
Matt Carnie ,
Trystan Watson
,
Katherine Hooper,
Simone Meroni ,
Adam Pockett,
James McGettrick ,
Zhengfei Wei,
Renán Escalante,
Gerko Oskam,
Matt Carnie ,
Trystan Watson
Journal of Materials Chemistry A, Volume: 5, Issue: 35, Pages: 18643 - 18650
Swansea University Authors:
Jenny Baker , Katherine Hooper, Simone Meroni , Adam Pockett, James McGettrick , Zhengfei Wei, Matt Carnie , Trystan Watson
-
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DOI (Published version): 10.1039/C7TA05674E
Abstract
The screen printed mesoporous carbon perovskite solar cell has great potential for commercialisation due to its scalable deposition processes and use of inexpensive materials. However, each layer requires long high temperature heating steps to achieve the necessary sintering and porosity, which is v...
| Published in: | Journal of Materials Chemistry A |
|---|---|
| ISSN: | 2050-7488 2050-7496 |
| Published: |
2017
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| URI: | https://cronfa.swan.ac.uk/Record/cronfa34942 |
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However, each layer requires long high temperature heating steps to achieve the necessary sintering and porosity, which is very time and energy intensive for large scale production. Near infrared processing is demonstrated here to reduce the heating time of mesoporous layers within a fully printed lead halide perovskite solar cell from 2 hours to 30 seconds. A stabilised efficiency of 11% was achieved by processing in 30 seconds, identical to that of devices heated in 2 hours. For the first time the effect of residual binder in the carbon electrode on the electron lifetime and charge transfer within devices has been investigated. Furthermore cross section EDX mapping of perovskite infiltration provides a greater understanding into the processing requirements of these devices vital to enable commercialisation.</abstract><type>Journal Article</type><journal>Journal of Materials Chemistry A</journal><volume>5</volume><journalNumber>35</journalNumber><paginationStart>18643</paginationStart><paginationEnd>18650</paginationEnd><publisher/><placeOfPublication/><isbnPrint/><isbnElectronic/><issnPrint>2050-7488</issnPrint><issnElectronic>2050-7496</issnElectronic><keywords/><publishedDay>21</publishedDay><publishedMonth>9</publishedMonth><publishedYear>2017</publishedYear><publishedDate>2017-09-21</publishedDate><doi>10.1039/C7TA05674E</doi><url/><notes/><college>COLLEGE NANME</college><department>Mechanical Engineering</department><CollegeCode>COLLEGE CODE</CollegeCode><DepartmentCode>MECH</DepartmentCode><institution>Swansea University</institution><apcterm/><lastEdited>2020-12-15T10:10:57.8782512</lastEdited><Created>2017-08-21T12:07:08.2747632</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>Jenny</firstname><surname>Baker</surname><orcid>0000-0003-3530-1957</orcid><order>1</order></author><author><firstname>Katherine</firstname><surname>Hooper</surname><order>2</order></author><author><firstname>Simone</firstname><surname>Meroni</surname><orcid>0000-0002-6901-772X</orcid><order>3</order></author><author><firstname>Adam</firstname><surname>Pockett</surname><order>4</order></author><author><firstname>James</firstname><surname>McGettrick</surname><orcid>0000-0002-7719-2958</orcid><order>5</order></author><author><firstname>Zhengfei</firstname><surname>Wei</surname><orcid/><order>6</order></author><author><firstname>Renán</firstname><surname>Escalante</surname><order>7</order></author><author><firstname>Gerko</firstname><surname>Oskam</surname><order>8</order></author><author><firstname>Matt</firstname><surname>Carnie</surname><orcid>0000-0002-4232-1967</orcid><order>9</order></author><author><firstname>Trystan</firstname><surname>Watson</surname><orcid>0000-0002-8015-1436</orcid><order>10</order></author></authors><documents><document><filename>0034942-04102017110736.pdf</filename><originalFilename>baker2017.pdf</originalFilename><uploaded>2017-10-04T11:07:36.5730000</uploaded><type>Output</type><contentLength>884696</contentLength><contentType>application/pdf</contentType><version>Accepted Manuscript</version><cronfaStatus>true</cronfaStatus><embargoDate>2018-08-08T00:00:00.0000000</embargoDate><copyrightCorrect>true</copyrightCorrect><language>eng</language></document></documents><OutputDurs/></rfc1807> |
| spelling |
2020-12-15T10:10:57.8782512 v2 34942 2017-08-21 High throughput fabrication of mesoporous carbon perovskite solar cells 6913b56f36f0c8cd34d8c9040d2df460 0000-0003-3530-1957 Jenny Baker Jenny Baker true false 3607f6787dc810c0ed1fdc49ea2b5e63 Katherine Hooper Katherine Hooper true false 78a4cf80ab2fe6cca80716b5d357d8dd 0000-0002-6901-772X Simone Meroni Simone Meroni true false de06433fccc0514dcf45aa9d1fc5c60f Adam Pockett Adam Pockett true false bdbacc591e2de05180e0fd3cc13fa480 0000-0002-7719-2958 James McGettrick James McGettrick true false e4ae52ae9b63b7b6da834c460ee3bb2d Zhengfei Wei Zhengfei Wei true false 73b367694366a646b90bb15db32bb8c0 0000-0002-4232-1967 Matt Carnie Matt Carnie true false a210327b52472cfe8df9b8108d661457 0000-0002-8015-1436 Trystan Watson Trystan Watson true false 2017-08-21 MECH The screen printed mesoporous carbon perovskite solar cell has great potential for commercialisation due to its scalable deposition processes and use of inexpensive materials. However, each layer requires long high temperature heating steps to achieve the necessary sintering and porosity, which is very time and energy intensive for large scale production. Near infrared processing is demonstrated here to reduce the heating time of mesoporous layers within a fully printed lead halide perovskite solar cell from 2 hours to 30 seconds. A stabilised efficiency of 11% was achieved by processing in 30 seconds, identical to that of devices heated in 2 hours. For the first time the effect of residual binder in the carbon electrode on the electron lifetime and charge transfer within devices has been investigated. Furthermore cross section EDX mapping of perovskite infiltration provides a greater understanding into the processing requirements of these devices vital to enable commercialisation. Journal Article Journal of Materials Chemistry A 5 35 18643 18650 2050-7488 2050-7496 21 9 2017 2017-09-21 10.1039/C7TA05674E COLLEGE NANME Mechanical Engineering COLLEGE CODE MECH Swansea University 2020-12-15T10:10:57.8782512 2017-08-21T12:07:08.2747632 Faculty of Science and Engineering School of Engineering and Applied Sciences - Materials Science and Engineering Jenny Baker 0000-0003-3530-1957 1 Katherine Hooper 2 Simone Meroni 0000-0002-6901-772X 3 Adam Pockett 4 James McGettrick 0000-0002-7719-2958 5 Zhengfei Wei 6 Renán Escalante 7 Gerko Oskam 8 Matt Carnie 0000-0002-4232-1967 9 Trystan Watson 0000-0002-8015-1436 10 0034942-04102017110736.pdf baker2017.pdf 2017-10-04T11:07:36.5730000 Output 884696 application/pdf Accepted Manuscript true 2018-08-08T00:00:00.0000000 true eng |
| title |
High throughput fabrication of mesoporous carbon perovskite solar cells |
| spellingShingle |
High throughput fabrication of mesoporous carbon perovskite solar cells Jenny Baker Katherine Hooper Simone Meroni Adam Pockett James McGettrick Zhengfei Wei Matt Carnie Trystan Watson |
| title_short |
High throughput fabrication of mesoporous carbon perovskite solar cells |
| title_full |
High throughput fabrication of mesoporous carbon perovskite solar cells |
| title_fullStr |
High throughput fabrication of mesoporous carbon perovskite solar cells |
| title_full_unstemmed |
High throughput fabrication of mesoporous carbon perovskite solar cells |
| title_sort |
High throughput fabrication of mesoporous carbon perovskite solar cells |
| author_id_str_mv |
6913b56f36f0c8cd34d8c9040d2df460 3607f6787dc810c0ed1fdc49ea2b5e63 78a4cf80ab2fe6cca80716b5d357d8dd de06433fccc0514dcf45aa9d1fc5c60f bdbacc591e2de05180e0fd3cc13fa480 e4ae52ae9b63b7b6da834c460ee3bb2d 73b367694366a646b90bb15db32bb8c0 a210327b52472cfe8df9b8108d661457 |
| author_id_fullname_str_mv |
6913b56f36f0c8cd34d8c9040d2df460_***_Jenny Baker 3607f6787dc810c0ed1fdc49ea2b5e63_***_Katherine Hooper 78a4cf80ab2fe6cca80716b5d357d8dd_***_Simone Meroni de06433fccc0514dcf45aa9d1fc5c60f_***_Adam Pockett bdbacc591e2de05180e0fd3cc13fa480_***_James McGettrick e4ae52ae9b63b7b6da834c460ee3bb2d_***_Zhengfei Wei 73b367694366a646b90bb15db32bb8c0_***_Matt Carnie a210327b52472cfe8df9b8108d661457_***_Trystan Watson |
| author |
Jenny Baker Katherine Hooper Simone Meroni Adam Pockett James McGettrick Zhengfei Wei Matt Carnie Trystan Watson |
| author2 |
Jenny Baker Katherine Hooper Simone Meroni Adam Pockett James McGettrick Zhengfei Wei Renán Escalante Gerko Oskam Matt Carnie Trystan Watson |
| format |
Journal article |
| container_title |
Journal of Materials Chemistry A |
| container_volume |
5 |
| container_issue |
35 |
| container_start_page |
18643 |
| publishDate |
2017 |
| institution |
Swansea University |
| issn |
2050-7488 2050-7496 |
| doi_str_mv |
10.1039/C7TA05674E |
| college_str |
Faculty of Science and Engineering |
| hierarchytype |
|
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facultyofscienceandengineering |
| hierarchy_top_title |
Faculty of Science and Engineering |
| hierarchy_parent_id |
facultyofscienceandengineering |
| hierarchy_parent_title |
Faculty of Science and Engineering |
| department_str |
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 |
| document_store_str |
1 |
| active_str |
0 |
| description |
The screen printed mesoporous carbon perovskite solar cell has great potential for commercialisation due to its scalable deposition processes and use of inexpensive materials. However, each layer requires long high temperature heating steps to achieve the necessary sintering and porosity, which is very time and energy intensive for large scale production. Near infrared processing is demonstrated here to reduce the heating time of mesoporous layers within a fully printed lead halide perovskite solar cell from 2 hours to 30 seconds. A stabilised efficiency of 11% was achieved by processing in 30 seconds, identical to that of devices heated in 2 hours. For the first time the effect of residual binder in the carbon electrode on the electron lifetime and charge transfer within devices has been investigated. Furthermore cross section EDX mapping of perovskite infiltration provides a greater understanding into the processing requirements of these devices vital to enable commercialisation. |
| published_date |
2017-09-21T03:43:23Z |
| _version_ |
1763752021171634176 |
| score |
11.013082 |