Innovative Study of Photogalvanics in Solar Energy Transformation and Performance Analysis: Alizarin Cyanine Green, EDTA and Sodium Stearate System

Genwa, K. R.; Prasad, Hari

doi:10.13005/ojc/390216

Cited by 6 publications

(4 citation statements)

References 32 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Hybrid photoelectrodes for photoelectrochemical energy conversion (6) , Photocatalysis for thermochromic materials (7) , EDTA+TB+NaLS based work for electrical output (8) , Innovation for prospective energy source (9) , and Mixed surfactant for photogalvanic effect (10) were studied. Tartrazine with DSS single surfactant (11) , Alizarin cyanine green with sodium stearate (12) , The contribution of chemical components of PG electrolyte towards potential, power and current of PG cells (13) , C DEA with ACG (14) , Methylene blue system with mixed surfactant (15) were studied for better results.…”

Section: Introductionmentioning

confidence: 99%

Study of Photogalvanic Effect by using Marigold Flower as Natural Photosensitizer, Xylose as Reductant and Tween 80 as Surfactant for Solar Radiation Conversion and Storage

Mishra,

Yadav

2024

IJST

View full text Add to dashboard Cite

Objective: A study work plan has been put up for methodical work in the field of solar energy Photogalvanic (PG) cells. It was suggested and required to do experiments with PG cells in sunlight conditions. Improving the conversion of solar energy into electricity and storing it in PG cells is the goal of our study. Method: An H-shaped glass tube with two arms was manufactured using the specially developed PG (Figure 1) cell. Many characteristics of a PG cell with an MG+D-Xylose+Tween-80 system was investigated. Findings: The open circuit voltage, voltage at dark, photopotential (PP), and photocurrent (PC) recorded in this investigation are 1080.00 mV, 165.00 mV, 915.00 mV, and 674.00 µA, respectively. The Fill Factor (FF) and Conversion Efficiency (CE) that were observed 1.891% and 0.2732, respectively. Novelty: Through the adjustment of PG cells' numerous parameters, the effects of solar energy were investigated. Based on the aforementioned results, PG systems have demonstrated through experimentation that they are an effective system and should be further investigated, particularly with regard to improving solar energy output and storage. Keywords: D-Xylose, Tween - 80, Marigold, Photocurrent, Natural dye

show abstract

Section: Introductionmentioning

confidence: 99%

Study of Photogalvanic Effect by using Marigold Flower as Natural Photosensitizer, Xylose as Reductant and Tween 80 as Surfactant for Solar Radiation Conversion and Storage

Mishra,

Yadav

2024

IJST

View full text Add to dashboard Cite

show abstract

“…Genwa and Prasad (2023) reported the PG cell having better dye-based storage capacity and as a result, the system is comparatively effective in the field of solar cell. The experimental results are as follows: 733.0 mV, 477.0 µA, 1.7984%, 0.2640 and 180.0 minutes (3) . Hung and Tuan (2020) reported better results for photodegradation mechanisms.…”

Section: Introductionmentioning

confidence: 99%

Innovative Study of the Photogalvanics for Solar Energy Conversion and Storage Through Brilliant Yellow + NaLS + Ascorbic Acid System

Ram,

Prasad,

Rajoriya

et al. 2024

IJST

View full text Add to dashboard Cite

Objective: A thorough analysis of the electrical output of PG cells has not piqued the research community's curiosity. The current study reports better findings of PG cell in order to accomplish this objective of providing the globe with pollution-free nature for sustainable development. The purpose of the study is to improve the conversion of solar energy into electricity and its storage utilizing PG cells for higher electrical output. Methods: The PG cell set-up consists of two electrodes, a digital pH metre, a resistance key, a carbon pot, and a micro-ammeter. Investigations into the specifically designed H-shaped PG cell were done for better electrical outcomes. The various solar parameters in a PG cell with a Brilliant yellow (BY) + NaLS + Ascorbic acid (AA) system was examined. The main effects of solar energy were examined by adjusting the PG cell's various parameters. For the PG cell, distilled water, alkali, and a mixture of surfactant, reductant, and dye were combined in a 25 ml solution. The PG cell has successfully experimentally demonstrated the efficient system that was the research's desired aim in terms of better electrical outcomes from renewable energy. Findings: For the BY+NaLS+AA, the observed photopotential, maximum photocurrent and fill factor were 924.00 mV and 630.00 µA, 0.3422, respectively. The PG cell Performance and conversion efficacy were found to be 140.00 minutes and 2.1562%, respectively. Novelty: As reported results (in BY+NaLS+AA system) are mentioned that work has new value to the existing literature. The obtained results are better innovative study of the PG for solar energy conversion and storage. Keywords: Brilliant yellow, NaLS, Ascorbic acid, Photogalvanics, Photocurrent

show abstract

“…Among solar cells, photogalvanic (PG) cells are best studied for significant results. In this way, the dye-based storage capacity of photogalvanic are good over photovoltaic cells and due to this reason, D-R-S (Dye-Reductant-Surfactant) system is comparatively good in field of photogalvanics (1) . The reaction kinetic of photodegradation of dyes was followed by the first-order kinetic model and the photodegradation mechanism of dyes was proposed (2) .…”

Section: Introductionmentioning

confidence: 99%

Innovative Study for Prospective Energy Source Through EDTA+TB+NaLS for Photogalvanic System

Gangotri¹,

Meena²

2023

IJST

View full text Add to dashboard Cite

Objective: Photogalvanic (PG) cells are based on solar storage concepts. Hence, the objective of the research work is to enhance the solar energy conversion into electricity and store through PG cells for better electrical output. Methods: The PG cell setup consists of two electrode, digital pH meter, resistance key, carbon pot, and micro -ammeter. The specially designed H shaped PG cell was studied for better electrical having EDTA+TB+NaLS system. The significant impact of solar energy was studied by varying the various parameters in PG cell. The 25 ml solution of surfactant (07 ml), reductant (04 ml) and dye (13 ml) and distilled water with alkali were used for the PG cell. The designed PG cell is experimentally proved to be an efficient system with reference to enhanced electrical outcomes of renewable energy. Findings: For EDTA+TB+NaLS PG cell, the observed maximum photopotential and maximum photocurrent were 1065.00 mVand150.00 mA, respectively. The PG cell performance and efficacy were found 24.00 minutes and 0.2630%, respectively. Novelty: A proposed photochemical mechanism for solar radiation energy transformation in PG cells enhances significant electrical output by using of EDTA+TB+NaLS PG cell system.

show abstract

Innovative Study of Photogalvanics in Solar Energy Transformation and Performance Analysis: Alizarin Cyanine Green, EDTA and Sodium Stearate System

Cited by 6 publications

References 32 publications

Study of Photogalvanic Effect by using Marigold Flower as Natural Photosensitizer, Xylose as Reductant and Tween 80 as Surfactant for Solar Radiation Conversion and Storage

Study of Photogalvanic Effect by using Marigold Flower as Natural Photosensitizer, Xylose as Reductant and Tween 80 as Surfactant for Solar Radiation Conversion and Storage

Innovative Study of the Photogalvanics for Solar Energy Conversion and Storage Through Brilliant Yellow + NaLS + Ascorbic Acid System

Innovative Study for Prospective Energy Source Through EDTA+TB+NaLS for Photogalvanic System

Contact Info

Product

Resources

About