Large-area plastic nanogap electronics enabled by adhesion lithography
Adhesion lithography enables coplanar nanogap electrode fabrication and allows for the realisation of nanoscale electronics manufacturing A collaborative team led by Thomas Anthopoulos from King Abdullah University of Science and Technology demonstrated a novel method for patterning coplanar electro...
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Nature Portfolio
2018
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oai:doaj.org-article:e5ced24ce9a24d6cabd755be00167a492021-12-02T14:24:12ZLarge-area plastic nanogap electronics enabled by adhesion lithography10.1038/s41528-018-0031-32397-4621https://doaj.org/article/e5ced24ce9a24d6cabd755be00167a492018-06-01T00:00:00Zhttps://doi.org/10.1038/s41528-018-0031-3https://doaj.org/toc/2397-4621Adhesion lithography enables coplanar nanogap electrode fabrication and allows for the realisation of nanoscale electronics manufacturing A collaborative team led by Thomas Anthopoulos from King Abdullah University of Science and Technology demonstrated a novel method for patterning coplanar electrodes with inter-electrode distances of less than 15 nm and arbitrarily large aspect ratios. This facile manufacturing method, called adhesion lithography, was used to fabricate a series of functional nanoscale electronic devices on various substrates. These flexible electronic devices, which are technologically relevant, included self-aligned-gate transistors, radio frequency diodes and rectifying circuits, multi-colour organic light-emitting diodes and multilevel non-volatile memory devices. Given its versatility in the fabrication of functional electronic devices and its solution-processing compatibility with a range of semiconductors and substrate materials, adhesion lithography is an attractive processing method for the high-throughput manufacture of large-scale flexible electronics at the nanoscale.James SempleDimitra G. GeorgiadouGwenhivir Wyatt-MoonMinho YoonAkmaral SeitkhanEmre YengelStephan RossbauerFrancesca BottacchiMartyn A. McLachlanDonal D. C. BradleyThomas D. AnthopoulosNature PortfolioarticleElectronicsTK7800-8360Materials of engineering and construction. Mechanics of materialsTA401-492ENnpj Flexible Electronics, Vol 2, Iss 1, Pp 1-10 (2018) |
| institution |
DOAJ |
| collection |
DOAJ |
| language |
EN |
| topic |
Electronics TK7800-8360 Materials of engineering and construction. Mechanics of materials TA401-492 |
| spellingShingle |
Electronics TK7800-8360 Materials of engineering and construction. Mechanics of materials TA401-492 James Semple Dimitra G. Georgiadou Gwenhivir Wyatt-Moon Minho Yoon Akmaral Seitkhan Emre Yengel Stephan Rossbauer Francesca Bottacchi Martyn A. McLachlan Donal D. C. Bradley Thomas D. Anthopoulos Large-area plastic nanogap electronics enabled by adhesion lithography |
| description |
Adhesion lithography enables coplanar nanogap electrode fabrication and allows for the realisation of nanoscale electronics manufacturing A collaborative team led by Thomas Anthopoulos from King Abdullah University of Science and Technology demonstrated a novel method for patterning coplanar electrodes with inter-electrode distances of less than 15 nm and arbitrarily large aspect ratios. This facile manufacturing method, called adhesion lithography, was used to fabricate a series of functional nanoscale electronic devices on various substrates. These flexible electronic devices, which are technologically relevant, included self-aligned-gate transistors, radio frequency diodes and rectifying circuits, multi-colour organic light-emitting diodes and multilevel non-volatile memory devices. Given its versatility in the fabrication of functional electronic devices and its solution-processing compatibility with a range of semiconductors and substrate materials, adhesion lithography is an attractive processing method for the high-throughput manufacture of large-scale flexible electronics at the nanoscale. |
| format |
article |
| author |
James Semple Dimitra G. Georgiadou Gwenhivir Wyatt-Moon Minho Yoon Akmaral Seitkhan Emre Yengel Stephan Rossbauer Francesca Bottacchi Martyn A. McLachlan Donal D. C. Bradley Thomas D. Anthopoulos |
| author_facet |
James Semple Dimitra G. Georgiadou Gwenhivir Wyatt-Moon Minho Yoon Akmaral Seitkhan Emre Yengel Stephan Rossbauer Francesca Bottacchi Martyn A. McLachlan Donal D. C. Bradley Thomas D. Anthopoulos |
| author_sort |
James Semple |
| title |
Large-area plastic nanogap electronics enabled by adhesion lithography |
| title_short |
Large-area plastic nanogap electronics enabled by adhesion lithography |
| title_full |
Large-area plastic nanogap electronics enabled by adhesion lithography |
| title_fullStr |
Large-area plastic nanogap electronics enabled by adhesion lithography |
| title_full_unstemmed |
Large-area plastic nanogap electronics enabled by adhesion lithography |
| title_sort |
large-area plastic nanogap electronics enabled by adhesion lithography |
| publisher |
Nature Portfolio |
| publishDate |
2018 |
| url |
https://doaj.org/article/e5ced24ce9a24d6cabd755be00167a49 |
| work_keys_str_mv |
AT jamessemple largeareaplasticnanogapelectronicsenabledbyadhesionlithography AT dimitraggeorgiadou largeareaplasticnanogapelectronicsenabledbyadhesionlithography AT gwenhivirwyattmoon largeareaplasticnanogapelectronicsenabledbyadhesionlithography AT minhoyoon largeareaplasticnanogapelectronicsenabledbyadhesionlithography AT akmaralseitkhan largeareaplasticnanogapelectronicsenabledbyadhesionlithography AT emreyengel largeareaplasticnanogapelectronicsenabledbyadhesionlithography AT stephanrossbauer largeareaplasticnanogapelectronicsenabledbyadhesionlithography AT francescabottacchi largeareaplasticnanogapelectronicsenabledbyadhesionlithography AT martynamclachlan largeareaplasticnanogapelectronicsenabledbyadhesionlithography AT donaldcbradley largeareaplasticnanogapelectronicsenabledbyadhesionlithography AT thomasdanthopoulos largeareaplasticnanogapelectronicsenabledbyadhesionlithography |
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