Muqobil energiya manbalarida yarimo‘tkazgichlar fizikasi: quyosh panellarining foydali ish koeffitsiyentini oshirish muammolari

Авторы

  • Bashorat Abdullajonova Автор
  • Abdurazzoq Ernazarov Автор

DOI:

https://doi.org/10.5281/zenodo.21000254

Ключевые слова:

quyosh elementlari, foydali ish koeffitsiyenti, Shockley-Queisser chegarasi, tandem elementlar, perovskit-fotovoltaika, Auger rekombinatsiyasi, sirt passivatsiyasi, materiallar degradatsiyasi, yarimo‘tkazgich fizikasi

Аннотация

Ushbu maqola zamonaviy fotovoltaika sohasidagi asosiy muammo - quyosh elementlarining foydali ish
koeffitsiyentini (FIK) oshirish masalasiga bag‘ishlangan. Maqolada birinchi avlod kremniy elementlarining Shockley–
Queisser (SQ) cheklanishi (~33%) tahlil qilinadi va bu chegarani yengishning ikki asosiy yo‘li – ko‘p o‘tishli tandem
texnologiyalari va materiallar darajasidagi optimallashtirish ko‘rib chiqiladi. Perovskit-kremniy tandem elementlari eng
istiqbolli yo‘nalish sifatida ta’kidlanadi: nazariy chegarasi 43.2% atrofida bo‘lib, sanoatda 29.2% modul FIK va 32.6%
element FIK rekordlariga erishilgan.

Биографии авторов

  • Bashorat Abdullajonova

    Chirchiq davlat pedagogika universiteti talabasi

  • Abdurazzoq Ernazarov

    Ilmiy rahbar: 
    CHDPU Fizika kafedrasi dotsenti

Библиографические ссылки

1. Fell, A. et al. (2025). Elucidating the efficiency limit of silicon-based monolithic tandem cells through the combination

of Auger and Shockley-Queisser limits. RSC Publishing.

2. Habib, H. et al. (2025). Degradation Pathways in Perovskite Solar Cells: Strategies for Enhancing Stability. Energy

Technology, 13, 2500137

3. Trinasolar (2026). Trinasolar achieves 907W power output for its tandem modules, setting a new world record. Trinasolar

Newsroom

4. Zhou, Z. et al. (2025). Nafion-based full-area hole-selective passivating contacts for P-type Si solar cells approaching

24.0% efficiency. ScienceDirect

5. WU-series molecules for perovskite solar cells. (2026). AI-assisted multi-objective hole-selective contact design. ScienceDirect.

6. Surpassing Shockley–Queisser Efficiency Limit in Photovoltaic Cells. (2025). Nano-Micro Letters, 17, 330.

7. Baumann, F. et al. (2025). Stabilizing perovskite solar cells at 85 °C via additive engineering and MXene interlayers.

EES Solar, 1, 1061-1073.

8. Trinasolar (2026). Trinasolar Sets New Tandem Cell Efficiency and Module Power Output Record. Trinasolar AU

Newsroom.

9. Rahman, M.H. & Mannodi-Kanakkithodi, A. (2026). Data-driven discovery of novel chalcogenide semiconductors for

solar absorption. RSC Publishing.

Загрузки

Опубликован

2026-06-27

Выпуск

Том 4 № 6 (2026): «Maktabgacha va maktab ta’limi» jurnali

Раздел

Статьи

Лицензия

Copyright (c) 2026 MAKTABGACHA VA MAKTAB TA’LIMI JURNALI

Лицензия Creative Commons

Это произведение доступно по лицензии Creative Commons «Attribution» («Атрибуция») 4.0 Всемирная.

Как цитировать

Muqobil energiya manbalarida yarimo‘tkazgichlar fizikasi: quyosh panellarining foydali ish koeffitsiyentini oshirish muammolari. (2026). MAKTABGACHA VA MAKTAB TA’LIMI JURNALI, 4(6). https://doi.org/10.5281/zenodo.21000254