A novel and stable ultraviolet and infrared intensity sensor in impedance/capacitance modes fabricated from degraded CH3NH3PbI3-xClx perovskite materials.

Qasuria, Tahseen Amin; Fatima, Noshin; Karimov, Khasan S; Ibrahim, Mohd Adib

A novel and stable ultraviolet and infrared intensity sensor in impedance/capacitance modes fabricated from degraded CH₃NH₃PbI₃-_xCl_x perovskite materials.

Qasuria, Tahseen Amin; Fatima, Noshin; Karimov, Khasan S; Ibrahim, Mohd Adib.

Afiliação

Qasuria TA; Ghulam Ishaq Khan Institute of Engineering Sciences and Technology, Topi 23640, KPK, Pakistan.
Fatima N; Solar Energy Research Institute, The National University of Malaysia, 43600 Bangi, Selangor, Malaysia.
Karimov KS; Ghulam Ishaq Khan Institute of Engineering Sciences and Technology, Topi 23640, KPK, Pakistan.
Ibrahim MA; Center for Innovative Development of Science and Technologies of Academy of Sciences, Rudaki Ave., 33, Dushanbe, 734025, Tajikistan.

J Mater Res Technol ; 9(6): 12795-12803, 2020.

Article em En | MEDLINE | ID: mdl-38620721

ABSTRACT

ABSTRACT

The present situation of COVID-19 diverted our focus towards utilizing the degraded solar cells for sensor application, this will help in global energy harvesting. So, here is our successful effort to reuse already degraded solar cells as ultraviolet (UV) and infrared (IR) sensor. The spin-coated perovskite (CH3NH3PbI3-XClX) has been already tested for visible light spectrum, as an extension to that now it is utilized as UV and IR intensity sensors to cover the whole spectrum. The employed CH3NH3PbI3-XClX material was used after its efficiency loss has been reached to a saturation point in photovoltaic devices. Each deposited layer was investigated from UV to the IR absorption spectrum for deepening study through UV-vis spectroscopy. In the sandwiched architecture possessing FTO/PEDOT PSS/Perovskite/PC61BM/CdS/Au symmetry, the perovskite film has been employed as an absorbent layer, however, other layers participation also plays a key role. The resultant device yielded very good sensing performance because of the enhanced excitons generation which is attributed to the precise selection of the interfacial materials, e.g. CdS and PC61BM as an ETM and PEDOT PSS as HTM. The impedance and capacitance of the devices within 0.01-200â¯kHz under varied UV and IR illumination intensities were investigated. Measurements showed that as the intensity of the light increased i.e., UV (0-200â¯W/m2) and IR (0-5800â¯W/m2), impedance decreased while capacitance increased. The current results are attributed to the increase in the concentration of charges i.e., electron-hole pairs generation depending on the built-in capacitance and frequency of the charges.

Palavras-chave

Environmental monitoring sensor; Frequency analysis method; Perovskite; Recyclability; UV/IR detectors

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Texto completo: 1 Coleções: 01-internacional Base de dados: MEDLINE Idioma: En Revista: J Mater Res Technol Ano de publicação: 2020 Tipo de documento: Article País de afiliação: Paquistão País de publicação: Brasil

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