Работы, на которые ссылается эта работа

Работ: 35

Работа: Physical properties of SbxSey thin films grown by the vapor transport deposition with independent source

1. Wave-Number-Dependent Dielectric Function of Semiconductors

   David R. Penn

   Статья1962Цитирований: 15

   ABIABI:AkademIndex/openalex/2026.other.080639

2. Thin-film Sb2Se3 photovoltaics with oriented one-dimensional ribbons and benign grain boundaries

   Ying Zhou, Liang Wang, Shiyou Chen +9

   Статья2015Цитирований: 14

   ABIABI:AkademIndex/openalex/2026.other.005216

3. Vapor transport deposition of antimony selenide thin film solar cells with 7.6% efficiency

   Xixing Wen, Chao Chen, Shuaicheng Lu +9

   Статья2018Цитирований: 12

   ABIABI:AkademIndex/openalex/2026.other.005394

4. A review of Sb2Se3 photovoltaic absorber materials and thin-film solar cells

   T. M. Razykov, Fazal Raziq, Jiantuo Gan +8

   Обзорная статьяChalcogenide Semiconductor Thin FilmsSolar Energy2020Цитирований: 10

   ABIABI:AkademIndex/openalex/2020.review-article.000001

5. Thermal Evaporation and Characterization of Sb₂Se₃Thin Film for Substrate Sb₂Se₃/CdS Solar Cells

   Xinsheng Liu, Jie Chen, Miao Luo +9

   Статья2014Цитирований: 10

   ABIABI:AkademIndex/openalex/2026.other.005320

6. X-ray line broadening from filed aluminium and wolfram

   G.K. Williamson, W H Hall

   Статья1953Цитирований: 10

   ABIABI:AkademIndex/openalex/2026.other.188302

7. On the identification of Sb2Se3 using Raman scattering

   Aigul Shongalova, M. R. Correia, Bart Vermang +3

   Статья2018Цитирований: 8

   ABIABI:AkademIndex/openalex/2026.other.005390

8. Solar Cell Efficiency Tables (Version 66)

   Martin A. Green, Ewan D. Dunlop, Masahiro Yoshita +5

   Статья2025Цитирований: 6

   ABIABI:AkademIndex/openalex/2026.other.143015

9. Optical properties and electronic structure of amorphous Ge and Si

   J. Tauc

   Статья1968Цитирований: 6

   ABIABI:AkademIndex/openalex/2026.other.223452

10. Structural and optical properties of SbxSey thin films obtained by chemical molecular beam deposition method from Sb and Se precursors

    T. M. Razykov, J. Bekmirzoev, A. Bosio +13

    Статья2023Цитирований: 6

    ABIABI:AkademIndex/openalex/2026.other.411928

11. Selenization of Sb2Se3 absorber layer: An efficient step to improve device performance of CdS/Sb2Se3 solar cells

    Meiying Leng, Miao Luo, Chao Chen +4

    Статья2014Цитирований: 5

    ABIABI:AkademIndex/openalex/2026.other.005227

12. Annealing induced microstructure engineering of antimony tri-selenide thin films

    Faiazul Haque, Naveen Kumar Elumalai, Matthew Wright +5

    Статья2017Цитирований: 5

    ABIABI:AkademIndex/openalex/2026.other.005373

13. Williamson-Hall analysis in estimation of lattice strain in nanometer-sized ZnO particles

    VD Mote, Y. Purushotham, B. N. Dole

    Статья2012Цитирований: 4

    ABIABI:AkademIndex/openalex/2026.other.267985

14. Defect engineering in antimony selenide thin film solar cells

    Udari Wijesinghe, Giulia Longo, Oliver S. Hutter

    Статья2022Цитирований: 4

    ABIABI:AkademIndex/openalex/2026.other.477469

15. Thermal evaporation and characterization of superstrate CdS/Sb2Se3 solar cells

    Miao Luo, Meiying Leng, Xinsheng Liu +4

    Статья2014Цитирований: 3

    ABIABI:AkademIndex/openalex/2026.other.005239

16. Complicated and Unconventional Defect Properties of the Quasi-One-Dimensional Photovoltaic Semiconductor Sb₂Se₃

    Menglin Huang, Peng Xu, Dan Han +2

    Статья2019Цитирований: 3

    ABIABI:AkademIndex/openalex/2026.other.477456

17. Conductivity of SbxSey films grown by CMBD from Sb and Se precursors for use in solar cells

    T. M. Razykov, A. Bosio, B.A. Ergahsev +6

    Статья2021Цитирований: 3

    ABIABI:AkademIndex/openalex/2026.other.548422

18. Structural and morphological properties of PLD Sb2Se3 thin films for use in solar cells

    Akbarjon Shukurov, Fazal Raziq, Haoming Wei +4

    СтатьяChalcogenide Semiconductor Thin FilmsSolar Energy2020Цитирований: 2

    ABIABI:AkademIndex/openalex/2020.article.000182

19. The thermal activation energy of crystalline Sb2Se3

    L.R. Gilbert, B. Van Pelt, C. Wood

    Статья1974Цитирований: 2

    ABIABI:AkademIndex/openalex/2026.other.005285

20. Effects of post-deposition annealing and copper inclusion in superstrate Sb2Se3 based solar cells by thermal evaporation

    Vikash Kumar, Elisa Artegiani, Arun Kumar +3

    Статья2019Цитирований: 2

    ABIABI:AkademIndex/openalex/2026.other.005429

21. More Se Vacancies in Sb₂Se₃ under Se‐Rich Conditions: An Abnormal Behavior Induced by Defect‐Correlation in Compensated Compound Semiconductors

    Menglin Huang, Zenghua Cai, Shanshan Wang +3

    Статья2021Цитирований: 2

    ABIABI:AkademIndex/openalex/2026.other.477463

22. Sb₂Se₃ Thin‐Film Solar Cells Exceeding 10% Power Conversion Efficiency Enabled by Injection Vapor Deposition Technology

    Zhaoteng Duan, Xiaoyang Liang, Feng Yang +8

    Статья2022Цитирований: 2

    ABIABI:AkademIndex/openalex/2026.other.752597

23. Optical properties of thin film Sb2Se3 and identification of its electronic losses in photovoltaic devices

    Niva K. Jayswal, Suman Rijal, Biwas Subedi +5

    Статья2021Цитирований: 2

    ABIABI:AkademIndex/openalex/2026.other.785025

24. Does Sb₂Se₃ Admit Nonstoichiometric Conditions? How Modifying the Overall Se Content Affects the Structural, Optical, and Optoelectronic Properties of Sb₂Se₃ Thin Films

    Iván Caño, Pedro Vidal‐Fuentes, L. Calvo‐Barrio +9

    Статья2022Цитирований: 2

    ABIABI:AkademIndex/openalex/2026.other.785026

25. Identifying Raman modes of Sb₂Se₃ and their symmetries using angle-resolved polarised Raman spectra

    Nicole Fleck, Theodore D. C. Hobson, Christopher N. Savory +6

    Статья2020Цитирований: 2

    ABIABI:AkademIndex/openalex/2026.other.804212