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Energy Sources, Part A: Recovery, Utilization, and Environmental Effects Volume 35, 2013 - Issue 4
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Original Articles

The Use of Tergitol-7 in Photogalvanic Cells for Solar Energy Conversion and Storage: An EDTA–Azur B System

K. M. Gangotri Department of Chemistry, Solar Energy Laboratory, Jai Narain Vyas University, Jodhpur, Rajasthan, India
,
P. Aseri Department of Chemistry, Solar Energy Laboratory, Jai Narain Vyas University, Jodhpur, Rajasthan, India
&
M. K. Bhimwal Department of Chemistry, Solar Energy Laboratory, Jai Narain Vyas University, Jodhpur, Rajasthan, India
Pages 312-320 | Received 25 Apr 2010, Accepted 28 May 2010, Published online: 11 Jan 2013

Citations (16)

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Read on this site (3)

Pooran Koli. (2021) Natural sunlight-irradiated Rhodamine B dye sensitised and surfactant-enhanced photogalvanic solar power and storage. International Journal of Ambient Energy 42:10, pages 1193-1199.
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Pooran Koli. (2019) Enhancing efficiency of Fast Green FCF–Fructose photogalvanic solar cell by using surfactant in natural sunlight. International Journal of Ambient Energy 40:8, pages 868-874.
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Pooran Koli, Urvashi Sharma, Yashodhara Dayma & Ramesh Kumar Pareek. (2018) Photogalvanic effect of Brilliant Cresyl Blue–Fructose– surfactant–small Pt electrode-artificial light: Simultaneous solar energy conversion and storage. Energy Sources, Part A: Recovery, Utilization, and Environmental Effects 40:18, pages 2163-2175.
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Articles from other publishers (13)

Chandrakanta Mall, Shachi Tiwari & Prem Prakash Solanki. (2021) Studies of binding of oxazine and thiazine dyes with cetyltrimethylammonium bromide and tween 80 surfactant spectrophotometrically for the photogalvanic cell for solar energy conversion and storage. Surfaces and Interfaces 27, pages 101547.
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Pooran Koli. (2021) Sudan-I dye and Fructose chemicals based photogalvanic cells for electrochemical solar energy conversion and storage at low and artificial sun intensity. Arabian Journal of Chemistry 14:2, pages 102918.
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Pooran Koli, Yashodhara Dayma, Ramesh Kumar Pareek & Meenakshi Jonwal. (2020) Use of Congo red dye-formaldehyde as a new sensitizer-reductant couple for enhanced simultaneous solar energy conversion and storage by photogalvanic cells at the low and artificial sun intensity. Scientific Reports 10:1.
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Chandrakanta Mall, Shachi Tiwari & Prem Prakash Solanki. (2019) Comparison of dye (oxazine and thiazine) materials as a photosensitizer for use in photogalvanic cells based on molecular interaction with sodium dodecyl sulphate by spectral study. Journal of Saudi Chemical Society 23:1, pages 83-91.
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Pooran Koli. (2017) Surfactant and natural sunlight enhanced Photogalvanic effect of Sudan I dye. Arabian Journal of Chemistry 10:8, pages 1077-1083.
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Pooran Koli. (2016) Sodium Lauryl Sulphate Enhanced Solar Energy Conversion by Photogalvanic Effect of Rhodamine B-Fructose in Artificial Light. ChemistrySelect 1:15, pages 4624-4629.
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Amulyacharya Malviya & Prem Prakash Solanki. (2016) Photogalvanics: A sustainable and promising device for solar energy conversion and storage. Renewable and Sustainable Energy Reviews 59, pages 662-691.
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Pooran Koli & Urvashi Sharma. (2016) Energy conversion in electrolyte under artificial light: Fast Green FCF-Fructose-surfactant-small Pt electrode photogalvanic cell. Applied Solar Energy 52:2, pages 76-83.
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Pooran Koli. (2015) Study of enhanced photogalvanic effect of Naphthol Green B in natural sunlight. Journal of Power Sources 285, pages 310-317.
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Sawsan A. Mahmoud & Basma S. Mohamed. (2015) Study on the Performance of Photogalvanic Cell for Solar Energy Conversion and Storage. International Journal of Electrochemical Science 10:4, pages 3340-3353.
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Pooran Koli. (2014) Solar energy conversion and storage using naphthol green B dye photosensitizer in photogalvanic cells. Applied Solar Energy 50:2, pages 67-73.
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Pooran Koli. (2014) Solar energy conversion and storage: Fast Green FCF-Fructose photogalvanic cell. Applied Energy 118, pages 231-237.
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Pooran Koli. (2014) Photogalvanic cells: comparative study of various synthetic dyes and natural photo sensitizers present in spinach extract. RSC Adv. 4:86, pages 46194-46202.
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