•  
  •  
 

Scientific Bulletin. Physical and Mathematical Research

Abstract

The paper analyzes the possibilities of renewable energy sources to become the main sources of ener-gy that can in the future replace traditional technologies for the production of thermal and electrical energy based on the use of fossil fuels and nuclear energy.

Technological approaches are considered that make it possible to significantly increase the efficiency of solar energy, and it is also shown that such a possibility can be realized by using weakly crystalline and cheap modifications of silicon, which have previously passed the corresponding nanotechnological effect.

First Page

46

Last Page

51

DOI

621.315.592

References

[1] Sims, R. E. H. Renewable energy: a response to climate change / R. E. H. Sims / / Solar En-ergy. - 2004. - Vol. 76, - P. 9-17.

[2] Sen, Z. Solar energy in progress and future research trends / Z. Sen // Progressin Energy & Combustion Science. – 2004. – Vol. 30. – P. 367-416.

[3] Lingguan, H. R. Rahimjan, John.Barrens /Study resonant light absorption and rectification subnanometer /Journal of Applied Physics 80.1 (1996): 565-568.

[4] Jager-Waldau, A. R&D roadmap for PV / A. Jager-Waldau // Thin Solid Films. – 2004. – Vol. 451-452. – P. 448-454.

[5] New and emerging developments in solar energy / D.Y. Goswami [et al] //Solar Energy. – 2004. – Vol. 76, - P. 33–43.

[6] Photovoltaic materials, history, status and outlook / A. Goetzberger [et al] //Material Science and Engineering. - 2003. - Vol. 40. - P. 1-46.

[7] E. Z. Imamov, R. A. Muminov, T. A. Jalalov, H. N. Kari-mov //Influence of nano-technological influence on the pa-rameters of the solar cell / / Ilmiy xabarnoma/ Scientific Bulletin. 2019. No. 1 P. 25-27

[8] E. Z. Imamov R. A. Muminov T. A. Jalalov H. N. Karimov G. Ergashev //Nano-technological transformation of the il-lusory properties of the macrocosm //Uzbek Physical Jour-nal 2019. No. 3. pp. 173-179

[9] E. Z. Imamov R. A. Muminov T. A. Jalalov H. N. Kari-mov//Silicon solar cell with small p-n transitions / / J."Physics of semiconductors and microelectronics" 2019. No. 4 P. 78-87

[10] E. Z. Imamov, R. A. Muminov, R.Kh. Rakhimov / / Mathematical modeling of optimal parameters of atmos-pheric influence on the properties of the solar module / / Computational nano-technology / Vol. 7. No. 2. 2020. p. 58-63. (Mathematical modeling of optimal parameters of atmospheric influence on the properties of the solar mod-ule)

[11] Jalalov T. A., Imamov E. Z., Muminov R. A., Rakhimov R. H. / / Expanding the spectrum of effective absorption of solar cells with nanoclusions// Computational nanotech-nology //2018. Issue #1, pp. 155-167)

[12] T. A. Jalalov, Imаmov E. Z., Muminov R. A., Sabirov H., Atoev Sh.Sh. //Solar elements based on noncrystallic im-pacts with nanostructured silicon //J.”Computational nano-technology”.No. 3-2018, p.p.85-90, ISSN 2313-223X.

[13] E. Z. Imamov, Djalalov T. A., Muminov R. A., Rakhimov R. Kh. //Unique opportunity to create cheap but effective silicon solar cells // J.”Computational nanotechnology”.No. 1-2017, p.p.61-65, ISSN 2313-223X.

[14] Imamov E. Z., Jalalov T. A., Muminov R. A., Rakhimov R. H. //The unique possibility of creating a cheap, but ef-fective solar cell / / J. "Computational nano-technology". No. 1-2017, p. p. 56-61, ISSN 2313-223X.

[15] T. A. Jalalov, E. Z. Imamov, R. A. Muminov, R. H. Rakhimov //Analysis of the role of nanoobjects in reducing the cost of silicon solar cells / / J. "Computational nano-technology". No. 3-2017, p. p. 14-18, ISSN 2313-223X.

[16] E. Z. Imamov, R. A. Muminov, R. Rakhimov, T. A. Jalalov, A. E. Imamov / / Physics of a separate nano-sized p-n transition in disordered silicon / / Proceedings of Inter-national Conference “Fundamental and Applied Problems of Physics”, September 22-23, 2020. Tashkent 2020 p.p. 179-181

[17] E. Z. Imamov, R. A. Muminov, R. Rakhimov, T. A. Jalalov, A. E. Imamov / / Minimization of energy losses: priority direction of fundamental research in the field of solar energy in Uzbekistan / / Proceedings of International Conference “Fundamental and Applied Problems of Phys-ics”, September 22-23, 2020. Tashkent 2020 p. p. 136-138

[18] E. Z. Imamov R. A. Muminov T. A. Jalalov H. N. Kari-mov //On the problem of optimizing the properties of a sil-icon solar cell / / Proceedings of V-International scientific-practical conference "Global science and innovations 2019: Central Asia" Astana, Kazakhstan, March 2019. II-volume. p. 154-157.

[19] Imamov E. Z., Muminov R. A., Jalalov T. Kh. N. Kari-mov / / Optimization of the properties of silicon solar cell /Proceedings of International scientific-practical confer-ence "Auezov readings-17: new impulses of science and spirituality in the world space" IX-volume. Shim-kent. Ka-zakhstan, 2019 p.p. 162-163

[20] E.Z. Imamov, T.A.Djalalov, Kh.N.Karimov. // Infrared (IR) and ultraviolet (UV) displacement of effective absorp-tion spectrum of solar cells / / proceedings of international conference "Fundamental and applied problems of phys-ics" section-II: physics of semiconductors and solid bodies, their applied aspects / / AS of Uzbekistan, scientific asso-ciation ― PHYS-ICS-SUN ‖13-14 June Tashkent-2017, p. 46-48

[21] F.I.Juraev, E.Z.Imamov, R.A.Muminov // Optimization of the sizes and shapes of nano inclusions in the sensitive re-gion of silicon photo converters// Proc.of intern. Conf. "Fundamental and applied problems of physics" section-II: phys.p/Pit. T., their applied aspects / / AS of RUz, scien-tific association-PHYSICS-SUN/June 13-14, Tashkent-2017, p. 59-63

[22] Abdullayeva Sh. I., Ashirbaeva O., Jalalov T. / / Features of the occurrence of multi-exciton generation in PBS and PbSe nanoparticles / "Global science and innovations 2019: Central Asia" No. 2(3). September-October.2019 se-ries "Physical and mathematical sciences". pp. 60-64

[23] M. S. Saidov / / Heliotechnika. 2008. No. 2. p. 3-10.

[24] T. A. Jalalov, E. Z. Imamov, R. A. Muminov.. / / Heli-otechnika. 2010. No. 4. pp. 3-8.

[25] R. Schaller and V. I. Klimov. //Phys.Rev.Lett. 2004. V.92. p.186601.

[26] Elingson et.al. //Nano Lett. 2005. V.5. p. 865.

[27] M. Korkusinski, M. Zielinski, and P. Hawrylaka. Mul-tiexciton complexes in InAs selfassembled quantum dots / / Journal of Applied Physics 2009. V. 105, p. 122406.

[28] V. Klimov edition. Nanocrystal Quantum Dots // Taylor and Francis Group 2010.

[29] M. K. Bahadirkhanov, I. B. Ortikov. Small encyclopedic reference book on polyconductor materials. Tashkent: Tashstu. 2006.

[30] A. A. Raskin, V. K. Prokofieva Technology of micro-, opto - and nanoelectronics materials (textbook in two parts). Moscow. BINOMIAL. 2010. p. 164,180.

[31] B. L. Oxengendler, N. N. Turaeva, S. Sh. Rashidova /Heliotechnika.2009. No. 3 p. 36-42.

Share

COinS
 
 

To view the content in your browser, please download Adobe Reader or, alternately,
you may Download the file to your hard drive.

NOTE: The latest versions of Adobe Reader do not support viewing PDF files within Firefox on Mac OS and if you are using a modern (Intel) Mac, there is no official plugin for viewing PDF files within the browser window.