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Energy Sources, Part A: Recovery, Utilization, and Environmental Effects Volume 38, 2016 - Issue 22
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Articles

Efficiency of a dye-sensitized photoelectrochemical device using thionine and triturated zinc oxide at different potency

Poonam BandyopadhyayCentre for Interdisciplinary Research and Education, Kolkata, India;Physics Department, Jadavpur University, Kolkata, IndiaCorrespondence[email protected]
,
Sweta ChakrabortyCentre for Interdisciplinary Research and Education, Kolkata, India;Physics Department, Jadavpur University, Kolkata, India
,
Ruma BasuCentre for Interdisciplinary Research and Education, Kolkata, India;Physics Department, Jogamaya Devi College, Kolkata, India
,
Sukhen DasCentre for Interdisciplinary Research and Education, Kolkata, India;Physics Department, Jadavpur University, Kolkata, India;Indian Institute of Engineering Science and Technology, Shibpur, India
,
Durga Shankar BharCentre for Interdisciplinary Research and Education, Kolkata, India
,
Rajkumar ManchandaCentral Council for Research in Homeopathy, New Delhi, India
,
Anil Kumar KhuranaCentral Council for Research in Homeopathy, New Delhi, India
,
Debadutta NayakCentral Council for Research in Homeopathy, New Delhi, India
&
Papiya NandyCentre for Interdisciplinary Research and Education, Kolkata, India
 show all
Pages 3417-3422 | Published online: 17 Oct 2016

References

  • Bandyopadhyay, P., Dey, A., Basu, R., Das, S., and Nandy, P. 2014. Synthesis and characterization of copper doped zinc oxide nanoparticles and its application in energy conversion. Curr. Appl. Phys. 14:1149–1155.
  • Bandyopadhyay, P., Nandy, P., Basu, R., and Das, S. 2015a. Morphology dependent change in photovoltage generation using dye-Cu doped ZnO nanoparticle mixed system. Energy 89:318–323.
  • Bandyopadhyay, P., Nandy, P., Basu, R., Dhar, D. S., and Das, S. 2015b. Effect of dilution on thermovoltage generation using homeopathic nanomedicine Zincum oxydatum. Int. J. Innovative Res Sci Eng 3:226–230.
  • Bandyopadhyay, P., Dey, A., Basu, R., Das, S., and Nandy, P. 2016. Effect of Cu doping in ZnO nanoparticles for increased voltage generation, storage capacity and energy conversion efficiency in photoelectrochemical cell. Energy sources Part A 38:1833–1839.
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  • Das, S., and Kamat, P.V. 1989. Can H-aggregates serve as light-harvesting antenna? Triplet-triplet energy transfer between excited aggregates and monomer thionine in aerosol-OT solutions. J. Phys. Chem. B 103:1209–1215.
  • Gratzel, M. 2005. Solar energy conversion by dye-sensitized photovoltaic cells. Inorg. Chem. 44:6841–6851.
  • Kamat, P. V. 2007. Meeting the clean energy demand: Nanostructure architectures for solar energy conversion. J. Phys. Chem. C 111:2834–2860.
  • Mondal, A., Basu, R., Das, S., and Nandy, P. 2010a. Increased quantum efficiency in hybrid photoelectrochemical cell consisting of thionine and zinc oxide nanoparticles. J. Photochem. and Photobiol. A. 211:143–146.
  • Mondal, A., Basu, R., Das, S., and Nandy P. 2010b. Heat induced voltage generation in electrochemical cell containing zinc oxide nanoparticles. Energy 35:2160–2163.
  • Mondal, A., Basu, R., Das, S., and Nandy, P. 2010c. Enhancement of Storage Capacity and Conversion Efficiency of Photoelectrochemical cells: Effect of dyes adsorbed on carbon nano tubes. Photochem. Photobiol. 86:1000–1004.
  • Nandy, P., Bhandary, S., Das, S., Basu, R., and Bhattacharya, S. 2011. Nanoparticle and membrane anisotropy. Homeopathy 100:194.
  • Nandy, P. 2015. A review article of basic research on homeopathy from a physicist’s point of view. Indian J. Res Homeopathy 9:141–151.
  • Orlinskii, B., Block, H., and Schimdt, J. 2006. Donor–acceptor pairs in the confined structure of ZnO nanocrystals. Phys Rev B 74:045204.
  • Ozgur, Y., Alivov, I., Liu, C., Teke, A., Reshchikov, M. A., Dogan, S., et al. 2005. A comprehensive review of ZnO materials and devices. J. Appl. Phys. 98:041301.
  • Wang, Z., Li, M., Zhang, Y., Yuan, J., Shen, Y., Niu, L., and Ivaska, A. 2007. Thionine –interlinked multi-walled carbon nanotube/gold nanoparticle composites. Carbon 45:2111–2115.

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