About Technological Innovations in the Process of Creating Solar Electricity Batteries
( Pp. 230-237)
More about authors
Imamov Erkin Z.
Dr. Sci. (Phys.-Math.), Professor; Department of Physics
Tashkent University of Information Technologies named after Muhammad al-Khwarizmi (TUIT) of the Ministry of Digital Technologies of the Republic of Uzbekistan
Tashkent, Republic of Uzbekistan Muminov Ramizulla A. Academician, Dr. Sci. (Phys.-Math.), Professor
Physics and Technologies Institute of the Scientific and Production Association “Physics-Sun” of the Academy of Sciences of the Republic of Uzbekistan
Tashkent, Republic of Uzbekistan
Tashkent University of Information Technologies named after Muhammad al-Khwarizmi (TUIT) of the Ministry of Digital Technologies of the Republic of Uzbekistan
Tashkent, Republic of Uzbekistan Muminov Ramizulla A. Academician, Dr. Sci. (Phys.-Math.), Professor
Physics and Technologies Institute of the Scientific and Production Association “Physics-Sun” of the Academy of Sciences of the Republic of Uzbekistan
Tashkent, Republic of Uzbekistan
Abstract:
This article analyzes new renewable energy sources by energy type and quantitative parameters. Options for improving battery cost and safety are discussed. Optimal service life for sodium-sulfur batteries are determined. The problems determining battery life and the possibilities for extending their service life are discussed. The disadvantages of sodium-sulfur batteries, as well as their distinctive and attractive features, are highlighted. It is concluded that sodium-sulfur batteries are inexpensive, high-capacity, non-explosive, and safe.
How to Cite:
Imamov E.Z. and Muminov R.A. About technological innovations in the process of creating solar electricity batteries. Computational Nanotechnology. 13, 1 (2026), 230–237. DOI: 10.33693/2313-223X-2026-13-1-230-237. EDN: NGGFYW
Reference list:
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Klimov V.I. Mechanisms for photogeneration and recombination of multiexcitons in semiconductor nanocrystals. Journal of Physical Chemistry B. 2006. Vol. 110. No. 34. Pp. 16827–16845.
Mani M., Pillai R. Impact of dust on solar photovoltaic (PV) performance: Research status, challenges and solutions. Renewable and Sustainable Energy Reviews. 2010. Vol. 14. No. 9. Pp. 3124–3131. DOI: 10.1016/j.rser.2010.07.065.
Schaller R.D., Sykora M., Pietryga J.M., Klimov V.I. Seven excitons at a cost of one: Redefining the limits for conversion efficiency of photons into charge carriers. Nano Letters. 2006. Vol. 6. No. 3. Pp. 424–429. DOI: 10.1021/nl052276g.
Springholz G., Bauer G. Molecular beam epitaxy of IV–VI hetero- and nanostructures. Physica Status Solidi (B). 2007. Vol. 244. No. 8. Pp. 2752–2767.
Zakhidov A.A., Zhang M., Fang S. et al. Strong, transparent, multifunctional, carbon nanotube sheets. Science. 2005. Vol. 309. No. 5738. Pp. 1215–1219. DOI: 10.1126/science.1115311.
Gorbenko O.N., Rozhkova A.A. Problems of using solar energy. Modern High Technologies. 2014. No. 5–2. Pp. 38–39. (In Rus.)
Gremenyuk V.F., Tivanov M.S., Zalessky V.B. Solar cells based on semiconductor materials. Alternative Energy and Ecology. 2009. No. 1 (69). Pp. 59–123. (In Rus.)
Gubanov A.I. Quantum-electronic theory of amorphous and liquid semiconductors. Moscow: Academy of Sciences of the USSR, 1961. 286 p.
Gusev A.L. Palladium-coated manganese dioxide: Its preparation, properties and application. Monograph. Sarov-Oktyabrsky, 2025. 543 p. DOI: 10.13140/RG.2.2.34137.79200.
Jalalov T.A., Porter L.M., Imamov E.Z., Muminov R.A. Theory of the electrostatic field in nanoscale p-n-junctions. Uzbek Journal of Physics. 2015. Vol. 17. No. 3. Pp. 131–139. (In Rus.)
Imamov E.Z., Dzhalalov T.A. Principles of nanosolar energy or Actual problems of combination and development of two technologies: functional nanomaterials and increasing the efficiency of solar cells. Monograph. Tashkent: Fan Va Texnologiya, 2015. 112 p.
Imamov E.Z., Jalalov T.A., Muminov R.A., Rakhimov H.Kh. The theoretical model of new contact structure “nanoobject-semiconductor”. Computational Nanotechnology. 2015. No. 4. Pp. 58–63. (In Rus.)
Kenzhaev Z.T. The state and prospects for the development of solar energy. Young Scientist. 2017. No. 37 (171). Pp. 6–7. (In Rus.)
World energy: main trends, dynamics, prospects. S.V. Zhukov (ed.). Moscow: IMEMO RAN, 2018. 200 p.
Muminov R.A., Imamov E.Z., Rakhimov R.Kh., Askarov M.A. Factors of effective electricity generation in a solar cell with nanoheterojunctions. Computational Nanotechnology. 2023. Vol. 10. No. 1. Pp. 119–127. (In Rus.). DOI: 10.33693/2313-223X-2023-10-1-119-127.
Muminov R.A., Tursunov M.N., Sabirov G. et al. Study of methods for protecting the surface of photovoltaic batteries from contamination. Applied Solar Energy. 2015. Vol. 51. No. 2. Pp. 155–156. (In Rus.)
Muminov R.A., Tursunov M.N., Sabirov G. et al. Study of photoparameters of thermal batteries with increased efficiency in natural conditions. Problems of Energy and Resource Saving. 2019. No. 3–4. Pp. 142–148. (In Rus.)
Nurudinov S.M., Yakubov Z.Ya. Problems and prospects of development of solar energy in current ecological situation. Vestnik Nauki. 2024. Vol. 2. No. 12 (81). Pp. 1967–1975. (In Rus.)
Styler R. Oil. Who dictates the rules to the world sitting on a raw material needle. Moscow: Alpina Publisher, 2011. 252 p.
Tursunov M.N., Muminov R.A., Tukfatullin O.F. et al. Photothermoelectric batteries based on silicon solar cells. Applied Solar Energy. 2011. Vol. 47. No. 1. Pp. 67–70. (In Rus.)
Felts A. Amorphous and glassy inorganic solids. Moscow: Mir, 1986. 556 p.
Yuldoshev I.A., Saimbetov A.K. Combined solar energy photothermoconverters with r6eflecting concentrators. In: Proc. of the XII International Scientific Conference “Solid State Physics”. 2014. Pp. 217–219.
Askarov M.A., Imamov E.Z., Karimov Kh.N. Analysis of photocurrent in nanostructured silicon solar cells. Journal of Nano- and Electronic Physics. 2025. Vol. 17. No. 1. Art. 01007.
Askarov M.A., Imamov E.Z., Karimov Kh.N. Investigation of energy parameters of solar cells with a nanostructured contact. Journal of Nano- and Electronic Physics. 2024. Vol. 16. No. 1. Art. 01030.
Imamov А.E., Imamov E.Z., Kholmedov Kh.M. et al. Solving the problem of training specialists in the operation of solar energy devices. Science and Innovation. 2023. Vol. 2. No. 10. Pp. 165–169. DOI: 10.5281/zenodo.10003339.
Imamov E.Z., Dzhalalov T.A., Muminov R.A. Electrophysical properties of the “nanoobject–semiconductor” new contact structure. Technical Physics. 2015. Vol. 60. No. 5. Pp. 740–745.
Imamov E.Z., Karimov Kh.N., Imamov A.E. Relevance, essence and tasks of solar energy in the light of the target educational program for bachelors in the field of solar energy in Uzbekistan. Science and Innovation. 2023. Vol. 2. No. 10. Pp. 517–521.
Imamov E.Z., Karimov Kh.N., Xalilov S.S., Imamov A.E. The future belongs to learning with an active process of self-education of students. Science and Innovation. 2022. Vol. 1. No. 5. Pp. 479–482.
Imamov E.Z., Muminov R.A., Askarov M.A., Karimov Kh.N. Optimization of the parameters of heterojunction solar cells with nanoinclusions. Journal of Nano- and Electronic Physics. 2025. Vol. 17. No. 5. Art. 05017.
Klimov V.I. Mechanisms for photogeneration and recombination of multiexcitons in semiconductor nanocrystals. Journal of Physical Chemistry B. 2006. Vol. 110. No. 34. Pp. 16827–16845.
Mani M., Pillai R. Impact of dust on solar photovoltaic (PV) performance: Research status, challenges and solutions. Renewable and Sustainable Energy Reviews. 2010. Vol. 14. No. 9. Pp. 3124–3131. DOI: 10.1016/j.rser.2010.07.065.
Schaller R.D., Sykora M., Pietryga J.M., Klimov V.I. Seven excitons at a cost of one: Redefining the limits for conversion efficiency of photons into charge carriers. Nano Letters. 2006. Vol. 6. No. 3. Pp. 424–429. DOI: 10.1021/nl052276g.
Springholz G., Bauer G. Molecular beam epitaxy of IV–VI hetero- and nanostructures. Physica Status Solidi (B). 2007. Vol. 244. No. 8. Pp. 2752–2767.
Zakhidov A.A., Zhang M., Fang S. et al. Strong, transparent, multifunctional, carbon nanotube sheets. Science. 2005. Vol. 309. No. 5738. Pp. 1215–1219. DOI: 10.1126/science.1115311.
Keywords:
battery, service life, cost, storage, accumulation.
