Exciton Dissociation and Design Optimization in Hybrid Organic Solar Cells

Monishka Narayan; Jai Singh

Exciton Dissociation and Design Optimization in Hybrid Organic Solar Cells

Monishka Narayan, Jai Singh

Research output: Chapter in Book/Report/Conference proceeding › Conference Paper published in Proceedings › peer-review

Abstract

The process of exciton dissociation in hybrid organic solar cells is studied and the rates of singlet and triplet exciton dissociations in P3HT:SiNW hybrid solar cell are calculated. Possible loss mechanisms during the dissociation process have also been highlighted. Design optimization in flexible P3HT:SiNW hybrid solar cell is performed and a power conversion efficiency of 4.70% is obtained which is a notable enhancement from its current experimental power conversion efficiency.

Original language	English
Title of host publication	COMMAD 2014 Conference Proceedings
Editors	Lorenzo Faraone, Mariusz Martyniuk
Place of Publication	USA
Publisher	IEEE, Institute of Electrical and Electronics Engineers
Pages	262-265
Number of pages	4
Volume	1
ISBN (Print)	978-1-4799-6867-1
Publication status	Published - 2014
Event	Conference on Optoelectronic and Microelectronic Materials and Devices (COMMAD 2014) - The University of Western Australia, Perth, Australia Duration: 14 Dec 2014 → 17 Dec 2014 Conference number: 2014

Conference

Conference	Conference on Optoelectronic and Microelectronic Materials and Devices (COMMAD 2014)
Abbreviated title	COMMAD
Country/Territory	Australia
City	Perth
Period	14/12/14 → 17/12/14

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

Cite this

@inproceedings{a804e0b43cf64c4c9c9571eb8a7b2373,

title = "Exciton Dissociation and Design Optimization in Hybrid Organic Solar Cells",

abstract = "The process of exciton dissociation in hybrid organic solar cells is studied and the rates of singlet and triplet exciton dissociations in P3HT:SiNW hybrid solar cell are calculated. Possible loss mechanisms during the dissociation process have also been highlighted. Design optimization in flexible P3HT:SiNW hybrid solar cell is performed and a power conversion efficiency of 4.70% is obtained which is a notable enhancement from its current experimental power conversion efficiency. ",

keywords = "Conversion efficiency, Dissociation, Efficiency, Excitons, Microelectronics, Exciton dissociation, Organic solar cell, P3HT, Power conversion efficiencies, SiNW, Solar cells",

author = "Monishka Narayan and Jai Singh",

year = "2014",

language = "English",

isbn = "978-1-4799-6867-1",

volume = "1",

pages = "262--265",

editor = "Lorenzo Faraone and Mariusz Martyniuk",

booktitle = "COMMAD 2014 Conference Proceedings",

publisher = "IEEE, Institute of Electrical and Electronics Engineers",

address = "United States",

note = "Conference on Optoelectronic and Microelectronic Materials and Devices (COMMAD 2014), COMMAD ; Conference date: 14-12-2014 Through 17-12-2014",

}

Narayan, M & Singh, J 2014, Exciton Dissociation and Design Optimization in Hybrid Organic Solar Cells. in L Faraone & M Martyniuk (eds), COMMAD 2014 Conference Proceedings. vol. 1, IEEE, Institute of Electrical and Electronics Engineers, USA, pp. 262-265, Conference on Optoelectronic and Microelectronic Materials and Devices (COMMAD 2014), Perth, Western Australia, Australia, 14/12/14.

Exciton Dissociation and Design Optimization in Hybrid Organic Solar Cells. / Narayan, Monishka; Singh, Jai.
COMMAD 2014 Conference Proceedings. ed. / Lorenzo Faraone; Mariusz Martyniuk. Vol. 1 USA: IEEE, Institute of Electrical and Electronics Engineers, 2014. p. 262-265.

Research output: Chapter in Book/Report/Conference proceeding › Conference Paper published in Proceedings › peer-review

TY - GEN

T1 - Exciton Dissociation and Design Optimization in Hybrid Organic Solar Cells

AU - Narayan, Monishka

AU - Singh, Jai

N1 - Conference code: 2014

PY - 2014

Y1 - 2014

N2 - The process of exciton dissociation in hybrid organic solar cells is studied and the rates of singlet and triplet exciton dissociations in P3HT:SiNW hybrid solar cell are calculated. Possible loss mechanisms during the dissociation process have also been highlighted. Design optimization in flexible P3HT:SiNW hybrid solar cell is performed and a power conversion efficiency of 4.70% is obtained which is a notable enhancement from its current experimental power conversion efficiency.

AB - The process of exciton dissociation in hybrid organic solar cells is studied and the rates of singlet and triplet exciton dissociations in P3HT:SiNW hybrid solar cell are calculated. Possible loss mechanisms during the dissociation process have also been highlighted. Design optimization in flexible P3HT:SiNW hybrid solar cell is performed and a power conversion efficiency of 4.70% is obtained which is a notable enhancement from its current experimental power conversion efficiency.

KW - Conversion efficiency

KW - Dissociation

KW - Efficiency

KW - Excitons

KW - Microelectronics

KW - Exciton dissociation

KW - Organic solar cell

KW - P3HT

KW - Power conversion efficiencies

KW - SiNW

KW - Solar cells

UR - http://www.anff.org.au/commad-2014-december-14-17-perth-wa.html

M3 - Conference Paper published in Proceedings

SN - 978-1-4799-6867-1

VL - 1

SP - 262

EP - 265

BT - COMMAD 2014 Conference Proceedings

A2 - Faraone, Lorenzo

A2 - Martyniuk, Mariusz

PB - IEEE, Institute of Electrical and Electronics Engineers

CY - USA

T2 - Conference on Optoelectronic and Microelectronic Materials and Devices (COMMAD 2014)

Y2 - 14 December 2014 through 17 December 2014

ER -

Exciton Dissociation and Design Optimization in Hybrid Organic Solar Cells

Abstract

Conference

UN SDGs

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