Effective performance for undoped and boron-doped double-layered nanoparticles-copper telluride and manganese telluride on tungsten oxide photoelectrodes for solar cell devices

Effective performance for undoped and boron-doped double-layered nanoparticles-copper telluride and manganese telluride on tungsten oxide photoelectrodes for solar cell devices

© 2016 Elsevier Inc. This work demonstrates the synthesis of a novel double-layered Cu2−xTe/MnTe structure on a WO3photoelectrode as a solar absorber for photovoltaic devices. Each material absorber is synthesized using a successive ionic layer adsorption and reaction (SILAR) method. The synthesized...

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Main Authors: Pornpimol Srathongluan, Veeramol Vailikhit, Pichanan Teesetsopon, Supab Choopun, Auttasit Tubtimtae
Format: Journal
Published: 2018
Subjects:
Chemical Engineering
Materials Science
Online Access:https://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=84978892885&origin=inward
http://cmuir.cmu.ac.th/jspui/handle/6653943832/55369
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Institution: Chiang Mai University
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spelling th-cmuir.6653943832-553692018-09-05T03:04:12Z Effective performance for undoped and boron-doped double-layered nanoparticles-copper telluride and manganese telluride on tungsten oxide photoelectrodes for solar cell devices Pornpimol Srathongluan Veeramol Vailikhit Pichanan Teesetsopon Supab Choopun Auttasit Tubtimtae Chemical Engineering Materials Science © 2016 Elsevier Inc. This work demonstrates the synthesis of a novel double-layered Cu2−xTe/MnTe structure on a WO3photoelectrode as a solar absorber for photovoltaic devices. Each material absorber is synthesized using a successive ionic layer adsorption and reaction (SILAR) method. The synthesized individual particle sizes are Cu2−xTe(17) ∼5–10 nm and MnTe(3) ∼2 nm, whereas, the aggregated particle sizes of undoped and boron-doped Cu2−xTe(17)/MnTe(11) are ∼50 and 150 nm, respectively. The larger size after doping is due to the interconnecting of nanoparticles as a network-like structure. A new alignment of the energy band is constructed after boron/MnTe(11) is coated on boron/Cu2−xTe nanoparticles (NPs), leading to a narrower Egequal to 0.58 eV. Then, the valence band maximum (VBM) and conduction band minimum (CBM) with a trap state are also up-shifted to near the CBM of WO3, leading to the shift of a Fermi level for ease of electron injection. The best efficiency of 1.41% was yielded for the WO3/boron-doped [Cu2−xTe(17)/MnTe(11)] structure with a photocurrent density (Jsc) = 16.43 mA/cm2, an open-circuit voltage (Voc) = 0.305 V and a fill factor (FF) = 28.1%. This work demonstrates the feasibility of this double-layered structure with doping material as a solar absorber material. 2018-09-05T02:54:53Z 2018-09-05T02:54:53Z 2016-11-01 Journal 10957103 00219797 2-s2.0-84978892885 10.1016/j.jcis.2016.07.036 https://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=84978892885&origin=inward http://cmuir.cmu.ac.th/jspui/handle/6653943832/55369
institution Chiang Mai University
building Chiang Mai University Library
country Thailand
collection CMU Intellectual Repository
topic Chemical Engineering
Materials Science
spellingShingle Chemical Engineering
Materials Science
Pornpimol Srathongluan
Veeramol Vailikhit
Pichanan Teesetsopon
Supab Choopun
Auttasit Tubtimtae
Effective performance for undoped and boron-doped double-layered nanoparticles-copper telluride and manganese telluride on tungsten oxide photoelectrodes for solar cell devices
description © 2016 Elsevier Inc. This work demonstrates the synthesis of a novel double-layered Cu2−xTe/MnTe structure on a WO3photoelectrode as a solar absorber for photovoltaic devices. Each material absorber is synthesized using a successive ionic layer adsorption and reaction (SILAR) method. The synthesized individual particle sizes are Cu2−xTe(17) ∼5–10 nm and MnTe(3) ∼2 nm, whereas, the aggregated particle sizes of undoped and boron-doped Cu2−xTe(17)/MnTe(11) are ∼50 and 150 nm, respectively. The larger size after doping is due to the interconnecting of nanoparticles as a network-like structure. A new alignment of the energy band is constructed after boron/MnTe(11) is coated on boron/Cu2−xTe nanoparticles (NPs), leading to a narrower Egequal to 0.58 eV. Then, the valence band maximum (VBM) and conduction band minimum (CBM) with a trap state are also up-shifted to near the CBM of WO3, leading to the shift of a Fermi level for ease of electron injection. The best efficiency of 1.41% was yielded for the WO3/boron-doped [Cu2−xTe(17)/MnTe(11)] structure with a photocurrent density (Jsc) = 16.43 mA/cm2, an open-circuit voltage (Voc) = 0.305 V and a fill factor (FF) = 28.1%. This work demonstrates the feasibility of this double-layered structure with doping material as a solar absorber material.
format Journal
author Pornpimol Srathongluan
Veeramol Vailikhit
Pichanan Teesetsopon
Supab Choopun
Auttasit Tubtimtae
author_facet Pornpimol Srathongluan
Veeramol Vailikhit
Pichanan Teesetsopon
Supab Choopun
Auttasit Tubtimtae
author_sort Pornpimol Srathongluan
title Effective performance for undoped and boron-doped double-layered nanoparticles-copper telluride and manganese telluride on tungsten oxide photoelectrodes for solar cell devices
title_short Effective performance for undoped and boron-doped double-layered nanoparticles-copper telluride and manganese telluride on tungsten oxide photoelectrodes for solar cell devices
title_full Effective performance for undoped and boron-doped double-layered nanoparticles-copper telluride and manganese telluride on tungsten oxide photoelectrodes for solar cell devices
title_fullStr Effective performance for undoped and boron-doped double-layered nanoparticles-copper telluride and manganese telluride on tungsten oxide photoelectrodes for solar cell devices
title_full_unstemmed Effective performance for undoped and boron-doped double-layered nanoparticles-copper telluride and manganese telluride on tungsten oxide photoelectrodes for solar cell devices
title_sort effective performance for undoped and boron-doped double-layered nanoparticles-copper telluride and manganese telluride on tungsten oxide photoelectrodes for solar cell devices
publishDate 2018
url https://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=84978892885&origin=inward
http://cmuir.cmu.ac.th/jspui/handle/6653943832/55369
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