Азиз Сапарбаев

РЕДАКЦИОННЫЙ КОЛЛЕКТИВ

Почтовый индекс: ул. Кадырова, 22/93, Мирзо-Улугбекский район, Ташкент, 100005, Узбекистан

Тел.: +998 88 7801441

Эл. почта: saparbaevaziz83@gmail.com

ОБРАЗОВАНИЕ

2016.09–2020.09 — степень PhD, Циндаоский институт биоэнергетики и биопроцессных технологий Китайской академии наук (QIBEBT, CAS), Университет Китайской академии наук (UCAS), КНР.
Тема докторской диссертации: «Низкотемпературные планарные перовскитные солнечные элементы, полученные методом растворной обработки в воздушных условиях».

2008.09–2010.07 — лазерная физика, магистр физики, Национальный университет Узбекистана, ул. Университетская, 4, 100074, Ташкент (Узбекистан).

2004.09–2008.07 — общая физика, бакалавр физики, Национальный университет Узбекистана, ул. Университетская, 4, 100074, Ташкент (Узбекистан).

Публикации

[1]. Li, Zhiya, Xunchang Wang, Nan Zheng, Saparbaev Aziz, Jiayi Zhang, Cong Xiao, Shiyun Lei et al. "Over 17% efficiency all-small-molecule organic solar cells based on an organic molecular donor employing 2D side chain symmetric-breaking strategy."Energy & Environmental Science (2022).

[2] Wang, Xunchang, Cong Xiao, Xiaokang Sun, Aziz Saparbaev, Shiyun Lei, Mingrui Zhang, Tian Zhong et al. "Hammer throw-liked hybrid cyclic and alkyl chains: A new side chain engineering for over 18% efficiency organic solar cells."Nano Energy 101 (2022): 107538.

[3] Huang Junyi, Shenghua He, Wenzhi Zhang, Aziz Saparbaev, Yi Wang, Yueyue Gao, Luwen Shang et al. "Efficient and Stable All‐Inorganic CsPbIBr2 Perovskite Solar Cells Enabled by Dynamic Vacuum‐Assisted Low‐Temperature Engineering." Solar RRL 6, no. 4 (2022): 2100839.

[4] Raji, Ibrahim Oladayo, Shuguang Wen, Yonghai Li, Da Huang, Xiaoyan Shi, Aziz Saparbaev, Chuantao Gu, Chunming Yang, and Xichang Bao. "Benzo bis (Thiazole)-Based Conjugated Polymer with Varying Alkylthio Side-Chain Positions for Efficient Fullerene-Free Organic Solar Cells." ACS Applied Materials & Interfaces 13, no. 30 (2021): 36071-36079.

[5] Liang, Xin, Shuai Zhang, Yuanwei Wu, Jiuxing Wang, Chunpeng Yang, Aziz Saparbaev, Shuguang Wen, and Xichang Bao. "Layer-by-layer solution-process enables higher crystallinity and desirable phase separation in non-fullerene organic solar cells." Organic Electronics 107 (2022): 106560.

[6] Saparbaev A, Gao C, Zhu D, Liu Z, Qu X, BaoX, Yang R, Efficient inverted all inorganic CsPbI3 planar solar cells via twice-coating in air condition, Journal of Power Sources: 2019, 426: 61-66.

[7]. Gao Y, Saparbaev A, Zhang Y, Yang Y, Guo F, Yang Y, Zhao L, Efficient polymer solar cells based on poly(thieno[2,3-f] benzofuran-co-thienopyrroledione) with a high open circuit voltage exceeding 1 V[J], Dyes and Pigments: 2017, 146: 543-550.

[8]. Gao C, Dong H, Bao X, Zhang Y, Saparbaev A, Yu L, Wen S, Yang R and Dong L, Additive engineering to improve the efficiency and stability of inverted planar perovskite solar cells, Journal of Materials Chemistry C: 2018, 6: 8234-8241.

[9]. Zakhidov E, Imomov M, Quvondikov V, Nematov S, Tajibaev I, Saparbaev A, Ismail I, Shahid B and Yang R, Comparative study of absorption and photoluminescent properties of organic solar cells based on P3HT:PCBM and P3HT:ITIC blends[J], Applied Physics A, 2019, 125: 803.

[10]. Zakhidov E.A., Nematov Sh.K., Saparbaev A. et.all. Raman spectroscopy of the interface between a thin nanostructured ZnO film and fullerene C60// Optics and Spectroscopy. 2017. Т.122., No4., PP. 607-614.

[11]. Zakhidov E.A., Nematov Sh.K. Saparbaev A. et.all. Spectral characteristics of a carotenoid–porphyrin–fullerene supramolecule, a promising material for organic photovoltaic devices//Applied Solar Energy. 2015. Vol. 51, No.3, PР.195-201.

[12]. Zakhidov E.A., Nematov Sh.K. Saparbaev A. et.all. Energy efficiency of the sunlight harvesting and storing system in bacterial photosynthesis: comparison with semiconductor photovoltaic cells // Turkish journal of biology. 2015. Vol. 39, No2., PP. 276 -283.

[13]. Zakhidov E.A., Nematov Sh.K. Saparbaev A. et.all. Photoacoustic spectroscopy of thermal relaxation processes of solar energy in the photosynthetic apparatus of plants // Applied Solar Energy. 2012. Vol. 48, No.1, PР.62-66.

[14]. Zakhidov E.A., Nematov Sh.K. Saparbaev A. et.all. Study of the effect of water deficiency to heat relaxation processes in photosynthesis by photoacoustic spectroscopy // Research in Environment and Life Sciences. 2012. No5., РР.1-4.

REFEREES

  • Dr. Erkin Zakhidov (DcS). Institute of Ion-Plasma and Laser Technologies, Uzbekistan Academy of Sciences, Tashkent, Uzbekistan. Email: ezakhidov@hotmail.com
  • Dr. Renqiang Yang (PhD). (1st Doctoral degree supervisor). Qingdao Institute of Bioenergy and Bioprocess Technology, Chinese Academy of Sciences, University of Chinese Academy of Sciences, PR China. Email: yangrq@qibebt.ac.cn
  • Dr. Xichang Bao (PhD). (2nd Doctoral degree supervisor). Qingdao Institute of Bioenergy and Bioprocess Technology, Chinese Academy of Sciences, University of Chinese Academy of Sciences, PR China. Email: baoxc@qibebt.ac.cn

ISSN 3093-8686 (Online)