A flexible, rapid response, hybrid inorganic-organic SnSe-PEDOT:PSS bulk heterojunction based high-performance broadband photodetector
Photodetectors based on inorganic semiconductors demonstrate superior responsivity, but their high thermal budget fabrication process is a serious impediment for emerging applications. Hybrid photodetectors based on organic-inorganic heterojunctions synergistically offer the solution-processability...
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| Veröffentlicht in: | Materials chemistry frontiers 2022-01, Vol.6 (3), p.341-351 |
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| creator | Kumaar Swamy Reddy, B Veeralingam, Sushmitha Borse, Pramod H Badhulika, Sushmee |
| description | Photodetectors based on inorganic semiconductors demonstrate superior responsivity, but their high thermal budget fabrication process is a serious impediment for emerging applications. Hybrid photodetectors based on organic-inorganic heterojunctions synergistically offer the solution-processability and tunability of organic semiconductors, along with the superior absorption coefficient and transport properties of inorganic materials. In this work, a broadband photodetector based on a bulk-heterojunction of hybrid organic-PEDOT:PSS/inorganic-SnSe
2
and a subsequent vertical junction on flexible ITO-coated-PET is demonstrated. SnSe
2
nanoflakes, synthesized
via
a facile hydrothermal method, exhibit absorption in both the visible and NIR spectra, and are made into a bulk heterojunction (BHJ) with PEDOT:PSS. The ITO layer exhibits absorption in the UV spectra, onto which the SnSe
2
-PEDOT:PSS bulk-heterojunction composite is deposited to form a vertical junction. The broadband photodetector exhibits quick response times of 16 ms, 221 ms and 274 ms and superior responsivities of 0.72 A W
−1
, 0.67 A W
−1
and 0.69 A W
−1
in the UV, Vis and NIR spectra, respectively. This superior responsivity of the photodetector is related to the enhanced interfacial area between SnSe
2
-PEDOT:PSS in the bulk-heterojunction, which leads to efficient electron-hole pair separation. Furthermore, the device is subjected to multiple bending cycles (∼3000) and minimal deviation in responsivity is observed. The facile and low-cost approach demonstrated in this work finds potential applications in novel flexible opto-electronic devices.
A hybrid organic-inorganic bulk heterojunction for broadband photodetection. |
| doi_str_mv | 10.1039/d1qm01232k |
| format | Article |
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2
and a subsequent vertical junction on flexible ITO-coated-PET is demonstrated. SnSe
2
nanoflakes, synthesized
via
a facile hydrothermal method, exhibit absorption in both the visible and NIR spectra, and are made into a bulk heterojunction (BHJ) with PEDOT:PSS. The ITO layer exhibits absorption in the UV spectra, onto which the SnSe
2
-PEDOT:PSS bulk-heterojunction composite is deposited to form a vertical junction. The broadband photodetector exhibits quick response times of 16 ms, 221 ms and 274 ms and superior responsivities of 0.72 A W
−1
, 0.67 A W
−1
and 0.69 A W
−1
in the UV, Vis and NIR spectra, respectively. This superior responsivity of the photodetector is related to the enhanced interfacial area between SnSe
2
-PEDOT:PSS in the bulk-heterojunction, which leads to efficient electron-hole pair separation. Furthermore, the device is subjected to multiple bending cycles (∼3000) and minimal deviation in responsivity is observed. The facile and low-cost approach demonstrated in this work finds potential applications in novel flexible opto-electronic devices.
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2
and a subsequent vertical junction on flexible ITO-coated-PET is demonstrated. SnSe
2
nanoflakes, synthesized
via
a facile hydrothermal method, exhibit absorption in both the visible and NIR spectra, and are made into a bulk heterojunction (BHJ) with PEDOT:PSS. The ITO layer exhibits absorption in the UV spectra, onto which the SnSe
2
-PEDOT:PSS bulk-heterojunction composite is deposited to form a vertical junction. The broadband photodetector exhibits quick response times of 16 ms, 221 ms and 274 ms and superior responsivities of 0.72 A W
−1
, 0.67 A W
−1
and 0.69 A W
−1
in the UV, Vis and NIR spectra, respectively. This superior responsivity of the photodetector is related to the enhanced interfacial area between SnSe
2
-PEDOT:PSS in the bulk-heterojunction, which leads to efficient electron-hole pair separation. Furthermore, the device is subjected to multiple bending cycles (∼3000) and minimal deviation in responsivity is observed. The facile and low-cost approach demonstrated in this work finds potential applications in novel flexible opto-electronic devices.
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2
and a subsequent vertical junction on flexible ITO-coated-PET is demonstrated. SnSe
2
nanoflakes, synthesized
via
a facile hydrothermal method, exhibit absorption in both the visible and NIR spectra, and are made into a bulk heterojunction (BHJ) with PEDOT:PSS. The ITO layer exhibits absorption in the UV spectra, onto which the SnSe
2
-PEDOT:PSS bulk-heterojunction composite is deposited to form a vertical junction. The broadband photodetector exhibits quick response times of 16 ms, 221 ms and 274 ms and superior responsivities of 0.72 A W
−1
, 0.67 A W
−1
and 0.69 A W
−1
in the UV, Vis and NIR spectra, respectively. This superior responsivity of the photodetector is related to the enhanced interfacial area between SnSe
2
-PEDOT:PSS in the bulk-heterojunction, which leads to efficient electron-hole pair separation. Furthermore, the device is subjected to multiple bending cycles (∼3000) and minimal deviation in responsivity is observed. The facile and low-cost approach demonstrated in this work finds potential applications in novel flexible opto-electronic devices.
A hybrid organic-inorganic bulk heterojunction for broadband photodetection.</abstract><doi>10.1039/d1qm01232k</doi><tpages>11</tpages></addata></record> |
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| source | Royal Society Of Chemistry Journals 2008- |
| title | A flexible, rapid response, hybrid inorganic-organic SnSe-PEDOT:PSS bulk heterojunction based high-performance broadband photodetector |
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