4-Carboxyphenyl as efficient donor group in nano Zn-Porphyrin for dye sensitized solar cells

Standard

4-Carboxyphenyl as efficient donor group in nano Zn-Porphyrin for dye sensitized solar cells. / Dayanithi, Janet; Pichaikaran, Sudhakar; Selvam, Sandhiya и др.
в: Environmental Research, Том 251, 118704, 01.06.2024.

Результаты исследований: Вклад в журнал › Статья › Рецензирование

Harvard

Dayanithi, J, Pichaikaran, S, Selvam, S, Kotteswaran, S, Kumaresan, N, Pugazhendhi, A, Rajesh Kumar, M, Al Garalleh, H, Ali Alshehri, M & Murugadoss, G 2024, '4-Carboxyphenyl as efficient donor group in nano Zn-Porphyrin for dye sensitized solar cells', Environmental Research, Том. 251, 118704. https://doi.org/10.1016/j.envres.2024.118704

APA

Dayanithi, J., Pichaikaran, S., Selvam, S., Kotteswaran, S., Kumaresan, N., Pugazhendhi, A., Rajesh Kumar, M., Al Garalleh, H., Ali Alshehri, M., & Murugadoss, G. (2024). 4-Carboxyphenyl as efficient donor group in nano Zn-Porphyrin for dye sensitized solar cells. Environmental Research, 251, [118704]. https://doi.org/10.1016/j.envres.2024.118704

Vancouver

Dayanithi J, Pichaikaran S, Selvam S, Kotteswaran S, Kumaresan N, Pugazhendhi A и др. 4-Carboxyphenyl as efficient donor group in nano Zn-Porphyrin for dye sensitized solar cells. Environmental Research. 2024 июнь 1;251:118704. doi: 10.1016/j.envres.2024.118704

Author

Dayanithi, Janet ; Pichaikaran, Sudhakar ; Selvam, Sandhiya и др. / 4-Carboxyphenyl as efficient donor group in nano Zn-Porphyrin for dye sensitized solar cells. в: Environmental Research. 2024 ; Том 251.

BibTeX

@article{990102da1e864acdbb165848fa773942,

title = "4-Carboxyphenyl as efficient donor group in nano Zn-Porphyrin for dye sensitized solar cells",

abstract = "Dye-sensitized solar cells, represent the alternate technology in solar research due to their cost effective, easy fabrication processes, higher efficiencies, and design flexibility. In this research, dual donor group modified zinc porphyrin dyes, have been synthesized for DSSCs. The complexes of zinc porphyrin functioned as acceptor or attaching groups within each mesophenyl ring and carboxylic acid. These complexes exhibited diverse alkyl substituents and sizable electron-donating substituents, contributing to their varied chemical structures and potential applications. The dual Donor-π bridge -Acceptor group sensitizers, Zn[5,15-diphenylcarbazole-10,20-(4-carboxyphenyl) Porphyrin] (KSR-1) and Zn [5,15-thiadiazole-10,20-(4-carboxyphenyl) Porphyrin] (KSR-2) have been synthesized and adopted for DSSCs implementation. The molar absorption coefficients (ε) of KSR-2 and KSR-1 Soret bands were 0.56 x 105 mol/L/cm and 0.47 x 105 mol/L/cm, respectively. The Q bands of the KSR-1 and KSR-2 dyes were 1.10 x 105 mol/L/cm and 1.0 x 105 mol/L/cm, respectively and the molar absorption coefficient of the KSR-1 dye was greater when compared to the KSR-2 dye. The molar absorption coefficient of 0.71 x 105 mol/L/cm was visible in the KSR -1 Q-band. DFT calculations and the electrochemical characteristics of the KSR-1 and KSR-2 dyes have been studied and discussed. The exploration involved in investigating the photophysical properties and photovoltaic performance which were affected by varying the length and number of the donor entities. The wall-plug efficiency of the KSR-1 based solar panel was Voc = 0.68 V, Jsc = 8.94 mA/m2, FF = 56 and Efficiency (μ) = 3.44%. The wall-plug efficiency of the KSR-2 based solar panel was Voc = 0.63 V, Jsc = 5.42 mA/m2, FF = 53 and Efficiency (μ) = 1.83%.",

author = "Janet Dayanithi and Sudhakar Pichaikaran and Sandhiya Selvam and Shanmugam Kotteswaran and Natesan Kumaresan and Arivalagan Pugazhendhi and {Rajesh Kumar}, Manavalan and {Al Garalleh}, Hakim and {Ali Alshehri}, Mohammed and Govindhasamy Murugadoss",

note = "The authors thank SIF, VIT, Vellore for NMR analysis, and we also thank CSIR (08/542(0008)/19 EMR-1) for financial support. One of the authors (Manavalan Rajesh Kumar) thanks to the contract no. 40/is2. Also Manavalan Rajesh Kumar gratefully acknowledges research funding from the Ministry of Science and Higher Education of the Russian Federation (Ural Federal University project within the Priority 2030 Program).",

year = "2024",

month = jun,

day = "1",

doi = "10.1016/j.envres.2024.118704",

language = "English",

volume = "251",

journal = "Environmental Research",

issn = "0013-9351",

publisher = "Elsevier",

}

RIS

TY - JOUR

T1 - 4-Carboxyphenyl as efficient donor group in nano Zn-Porphyrin for dye sensitized solar cells

AU - Dayanithi, Janet

AU - Pichaikaran, Sudhakar

AU - Selvam, Sandhiya

AU - Kotteswaran, Shanmugam

AU - Kumaresan, Natesan

AU - Pugazhendhi, Arivalagan

AU - Rajesh Kumar, Manavalan

AU - Al Garalleh, Hakim

AU - Ali Alshehri, Mohammed

AU - Murugadoss, Govindhasamy

N1 - The authors thank SIF, VIT, Vellore for NMR analysis, and we also thank CSIR (08/542(0008)/19 EMR-1) for financial support. One of the authors (Manavalan Rajesh Kumar) thanks to the contract no. 40/is2. Also Manavalan Rajesh Kumar gratefully acknowledges research funding from the Ministry of Science and Higher Education of the Russian Federation (Ural Federal University project within the Priority 2030 Program).

PY - 2024/6/1

Y1 - 2024/6/1

N2 - Dye-sensitized solar cells, represent the alternate technology in solar research due to their cost effective, easy fabrication processes, higher efficiencies, and design flexibility. In this research, dual donor group modified zinc porphyrin dyes, have been synthesized for DSSCs. The complexes of zinc porphyrin functioned as acceptor or attaching groups within each mesophenyl ring and carboxylic acid. These complexes exhibited diverse alkyl substituents and sizable electron-donating substituents, contributing to their varied chemical structures and potential applications. The dual Donor-π bridge -Acceptor group sensitizers, Zn[5,15-diphenylcarbazole-10,20-(4-carboxyphenyl) Porphyrin] (KSR-1) and Zn [5,15-thiadiazole-10,20-(4-carboxyphenyl) Porphyrin] (KSR-2) have been synthesized and adopted for DSSCs implementation. The molar absorption coefficients (ε) of KSR-2 and KSR-1 Soret bands were 0.56 x 105 mol/L/cm and 0.47 x 105 mol/L/cm, respectively. The Q bands of the KSR-1 and KSR-2 dyes were 1.10 x 105 mol/L/cm and 1.0 x 105 mol/L/cm, respectively and the molar absorption coefficient of the KSR-1 dye was greater when compared to the KSR-2 dye. The molar absorption coefficient of 0.71 x 105 mol/L/cm was visible in the KSR -1 Q-band. DFT calculations and the electrochemical characteristics of the KSR-1 and KSR-2 dyes have been studied and discussed. The exploration involved in investigating the photophysical properties and photovoltaic performance which were affected by varying the length and number of the donor entities. The wall-plug efficiency of the KSR-1 based solar panel was Voc = 0.68 V, Jsc = 8.94 mA/m2, FF = 56 and Efficiency (μ) = 3.44%. The wall-plug efficiency of the KSR-2 based solar panel was Voc = 0.63 V, Jsc = 5.42 mA/m2, FF = 53 and Efficiency (μ) = 1.83%.

AB - Dye-sensitized solar cells, represent the alternate technology in solar research due to their cost effective, easy fabrication processes, higher efficiencies, and design flexibility. In this research, dual donor group modified zinc porphyrin dyes, have been synthesized for DSSCs. The complexes of zinc porphyrin functioned as acceptor or attaching groups within each mesophenyl ring and carboxylic acid. These complexes exhibited diverse alkyl substituents and sizable electron-donating substituents, contributing to their varied chemical structures and potential applications. The dual Donor-π bridge -Acceptor group sensitizers, Zn[5,15-diphenylcarbazole-10,20-(4-carboxyphenyl) Porphyrin] (KSR-1) and Zn [5,15-thiadiazole-10,20-(4-carboxyphenyl) Porphyrin] (KSR-2) have been synthesized and adopted for DSSCs implementation. The molar absorption coefficients (ε) of KSR-2 and KSR-1 Soret bands were 0.56 x 105 mol/L/cm and 0.47 x 105 mol/L/cm, respectively. The Q bands of the KSR-1 and KSR-2 dyes were 1.10 x 105 mol/L/cm and 1.0 x 105 mol/L/cm, respectively and the molar absorption coefficient of the KSR-1 dye was greater when compared to the KSR-2 dye. The molar absorption coefficient of 0.71 x 105 mol/L/cm was visible in the KSR -1 Q-band. DFT calculations and the electrochemical characteristics of the KSR-1 and KSR-2 dyes have been studied and discussed. The exploration involved in investigating the photophysical properties and photovoltaic performance which were affected by varying the length and number of the donor entities. The wall-plug efficiency of the KSR-1 based solar panel was Voc = 0.68 V, Jsc = 8.94 mA/m2, FF = 56 and Efficiency (μ) = 3.44%. The wall-plug efficiency of the KSR-2 based solar panel was Voc = 0.63 V, Jsc = 5.42 mA/m2, FF = 53 and Efficiency (μ) = 1.83%.

UR - http://www.scopus.com/inward/record.url?partnerID=8YFLogxK&scp=85188441551

UR - https://gateway.webofknowledge.com/gateway/Gateway.cgi?GWVersion=2&SrcAuth=tsmetrics&SrcApp=tsm_test&DestApp=WOS_CPL&DestLinkType=FullRecord&KeyUT=001221905500001

U2 - 10.1016/j.envres.2024.118704

DO - 10.1016/j.envres.2024.118704

M3 - Article

VL - 251

JO - Environmental Research

JF - Environmental Research

SN - 0013-9351

M1 - 118704

ER -

ID: 55297313