OpenAlex Citation Counts

OpenAlex is a bibliographic catalogue of scientific papers, authors and institutions accessible in open access mode, named after the Library of Alexandria. It's citation coverage is excellent and I hope you will find utility in this listing of citing articles!

If you click the article title, you'll navigate to the article, as listed in CrossRef. If you click the Open Access links, you'll navigate to the "best Open Access location". Clicking the citation count will open this listing for that article. Lastly at the bottom of the page, you'll find basic pagination options.

Requested Article:

Defect Passivation by Amide-Based Hole-Transporting Interfacial Layer Enhanced Perovskite Grain Growth for Efficient p–i–n Perovskite Solar Cells
Shin-Yu Wang, Chih‐Ping Chen, Chung‐Lin Chung, et al.
ACS Applied Materials & Interfaces (2019) Vol. 11, Iss. 43, pp. 40050-40061
Closed Access | Times Cited: 51

Showing 1-25 of 51 citing articles:

Passivation and process engineering approaches of halide perovskite films for high efficiency and stability perovskite solar cells
Abd. Rashid bin Mohd Yusoff, Maria Vasilopoulou, Dimitra G. Georgiadou, et al.
Energy & Environmental Science (2021) Vol. 14, Iss. 5, pp. 2906-2953
Open Access | Times Cited: 254

Teaching an Old Anchoring Group New Tricks: Enabling Low-Cost, Eco-Friendly Hole-Transporting Materials for Efficient and Stable Perovskite Solar Cells
Yang Wang, Qiaogan Liao, Jianhua Chen, et al.
Journal of the American Chemical Society (2020) Vol. 142, Iss. 39, pp. 16632-16643
Closed Access | Times Cited: 220

Lewis acid/base approach for efficacious defect passivation in perovskite solar cells
Shurong Wang, Aili Wang, Xiaoyu Deng, et al.
Journal of Materials Chemistry A (2020) Vol. 8, Iss. 25, pp. 12201-12225
Closed Access | Times Cited: 196

A hole-transport material that also passivates perovskite surface defects for solar cells with improved efficiency and stability
Xiaoming Zhao, Chao Yao, Kaichen Gu, et al.
Energy & Environmental Science (2020) Vol. 13, Iss. 11, pp. 4334-4343
Closed Access | Times Cited: 177

Advancements in organic small molecule hole-transporting materials for perovskite solar cells: past and future
Pachaiyappan Murugan, Ting Hu, Xiaotian Hu, et al.
Journal of Materials Chemistry A (2022) Vol. 10, Iss. 10, pp. 5044-5081
Closed Access | Times Cited: 104

Symmetrical Acceptor–Donor–Acceptor Molecule as a Versatile Defect Passivation Agent toward Efficient FA_0.85MA_0.15PbI₃ Perovskite Solar Cells
Wenjing Zhao, Hao‐Wu Lin, Yong Li, et al.
Advanced Functional Materials (2022) Vol. 32, Iss. 19
Closed Access | Times Cited: 68

Halogen‐Bonded Hole‐Transport Material Suppresses Charge Recombination and Enhances Stability of Perovskite Solar Cells
Laura Canil, Jagadish K. Salunke, Qiong Wang, et al.
Advanced Energy Materials (2021) Vol. 11, Iss. 35
Open Access | Times Cited: 57

Advanced Characterization and Optimization of NiO_x:Cu‐SAM Hole‐Transporting Bi‐Layer for 23.4% Efficient Monolithic Cu(In,Ga)Se₂‐Perovskite Tandem Solar Cells
Ivona Kafedjiska, Igal Levine, Artem Musiienko, et al.
Advanced Functional Materials (2023) Vol. 33, Iss. 34
Open Access | Times Cited: 29

A review for nickel oxide hole transport layer and its application in halide perovskite solar cells
Xin Cai, Taotao Hu, Hongshuai Hou, et al.
Materials Today Sustainability (2023) Vol. 23, pp. 100438-100438
Closed Access | Times Cited: 27

Recent Advances in Organic Hole Transporting Materials for Perovskite Solar Cells
Esmaeil Sheibani, Yang Li, Jinbao Zhang
Solar RRL (2020) Vol. 4, Iss. 12
Closed Access | Times Cited: 63

Design of dopant-free small molecular hole transport materials for perovskite solar cells: a viewpoint from defect passivation
Wanhai Wang, Jie Zhou, Weihua Tang
Journal of Materials Chemistry A (2021) Vol. 10, Iss. 3, pp. 1150-1178
Closed Access | Times Cited: 55

Inverted perovskite/silicon V-shaped tandem solar cells with 27.6% efficiency via self-assembled monolayer-modified nickel oxide layer
Likai Zheng, Yimin Xuan, Jilei Wang, et al.
Journal of Materials Chemistry A (2022) Vol. 10, Iss. 13, pp. 7251-7262
Closed Access | Times Cited: 34

Bicyclopentadithiophene-Based Organic Semiconductor for Stable and High-Performance Perovskite Solar Cells Exceeding 22%
Arulmozhi Velusamy, Shakil N. Afraj, Yusheng Guo, et al.
ACS Applied Materials & Interfaces (2024) Vol. 16, Iss. 5, pp. 6162-6175
Open Access | Times Cited: 7

Additive-Assisted Defect Passivation for Minimization of Open-Circuit Voltage Loss and Improved Perovskite Solar Cell Performance
Mohammad Adil Afroz, Rabindranath Garai, Ritesh Kant Gupta, et al.
ACS Applied Energy Materials (2021) Vol. 4, Iss. 10, pp. 10468-10476
Closed Access | Times Cited: 36

D–A–π–A organic sensitizer surface passivation for efficient and stable perovskite solar cells
Minghuang Guo, Chun‐Yu Lin, Shih-Jyun Liou, et al.
Journal of Materials Chemistry A (2021) Vol. 9, Iss. 44, pp. 25086-25093
Closed Access | Times Cited: 36

Spherical Hole-Transporting Interfacial Layer Passivated Defect for Inverted NiO_x-Based Planar Perovskite Solar Cells with High Efficiency of over 20%
Yi-Min Chang, Chia-Wei Li, Yu‐Lin Lu, et al.
ACS Applied Materials & Interfaces (2021) Vol. 13, Iss. 5, pp. 6450-6460
Closed Access | Times Cited: 35

Side-Chain Engineering of Diketopyrrolopyrrole-Based Hole-Transport Materials to Realize High-Efficiency Perovskite Solar Cells
Amit Sharma, Ranbir Singh, Gururaj P. Kini, et al.
ACS Applied Materials & Interfaces (2021) Vol. 13, Iss. 6, pp. 7405-7415
Closed Access | Times Cited: 34

Surface passivation of perovskite with organic hole transport materials for highly efficient and stable perovskite solar cells
Yajie Fu, Yang Li, Guichuan Xing, et al.
Materials Today Advances (2022) Vol. 16, pp. 100300-100300
Open Access | Times Cited: 24

Passivation of Inverted Perovskite Solar Cells by Trifluoromethyl-Group-Modified Triphenylamine Dibenzofulvene Hole Transporting Interfacial Layers
Nurlailatush Sholihah, Han-Ching Cheng, Jhong-Ci Wang, et al.
The Journal of Physical Chemistry C (2023) Vol. 127, Iss. 13, pp. 6167-6178
Closed Access | Times Cited: 13

Lewis-base containing spiro type hole transporting materials for high-performance perovskite solar cells with efficiency approaching 20%
Jianbin Xu, Lusheng Liang, Chi‐Lun Mai, et al.
Nanoscale (2020) Vol. 12, Iss. 24, pp. 13157-13164
Closed Access | Times Cited: 38

Enhancing the Stability of Orthorhombic CsSnI₃ Perovskite via Oriented π-Conjugated Ligand Passivation
Yapeng Zheng, Zhi Fang, Minghui Shang, et al.
ACS Applied Materials & Interfaces (2020) Vol. 12, Iss. 30, pp. 34462-34469
Closed Access | Times Cited: 35

Dicyclopentadithienothiophene (DCDTT)-based organic semiconductor assisted grain boundary passivation for highly efficient and stable perovskite solar cells
Shakil N. Afraj, Arulmozhi Velusamy, Chung‐Yu Chen, et al.
Journal of Materials Chemistry A (2022) Vol. 10, Iss. 20, pp. 11254-11267
Closed Access | Times Cited: 20

Improving the Stability and Efficiency of Perovskite Solar Cells by a Bidentate Anilinium Salt
Lucas Scalon, Rodrigo Szostak, Francineide Lopes de Araújo, et al.
JACS Au (2022) Vol. 2, Iss. 6, pp. 1306-1312
Open Access | Times Cited: 20

Dopant-Free All-Organic Small-Molecule HTMs for Perovskite Solar Cells: Concepts and Structure–Property Relationships
Mohamed M. H. Desoky, Matteo Bonomo, Roberto Buscaino, et al.
Energies (2021) Vol. 14, Iss. 8, pp. 2279-2279
Open Access | Times Cited: 25

Peripheral group engineering on hole-transporting materials in perovskite solar cells: Theoretical design and experimental research
Qian Chen, Hongyuan Liu, Ruiqin Wang, et al.
Dyes and Pigments (2022) Vol. 206, pp. 110604-110604
Closed Access | Times Cited: 18

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Requested Article:

Showing 1-25 of 51 citing articles:

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