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:

Integratable solid-state zinc-air battery with extended cycle life inspired by bionics
Wenming Li, Wendi Chen, Hui Zhang, et al.
Chemical Engineering Journal (2022) Vol. 435, pp. 134900-134900
Closed Access | Times Cited: 21

Showing 21 citing articles:

Gel Polymer-Based Composite Solid-State Electrolyte for Long-Cycle-Life Rechargeable Zinc–Air Batteries
Wenming Li, Yuxin Wang, Renjie Liu, et al.
ACS Sustainable Chemistry & Engineering (2023) Vol. 11, Iss. 9, pp. 3732-3739
Closed Access | Times Cited: 33

Advances in polymer electrolytes for solid-state zinc–air batteries
Pengfei Zhang, Zhuo Chen, Nuo Shang, et al.
Materials Chemistry Frontiers (2023) Vol. 7, Iss. 18, pp. 3994-4018
Closed Access | Times Cited: 28

Surface-confined polymerization to construct binary Fe3N/Co–N–C encapsulated MXene composites for high-performance zinc-air battery
Dangcheng Su, Yuanhua Xiao, Yingliang Liu, et al.
Carbon (2022) Vol. 201, pp. 269-277
Closed Access | Times Cited: 37

A Long‐Overlooked Pitfall in Rechargeable Zinc–Air Batteries: Proper Electrode Balancing
Daniel Deckenbach, Jörg J. Schneider
Advanced Materials Interfaces (2023) Vol. 10, Iss. 15
Open Access | Times Cited: 19

Agarose-based Gel Electrolytes for Sustainable Primary and Secondary Zinc-Air Batteries
Estibaliz García‐Gaitán, María C. Morant-Miñana, Domenico Frattini, et al.
Chemical Engineering Journal (2023) Vol. 472, pp. 144870-144870
Closed Access | Times Cited: 18

Extending the Cycle Lifetime of Solid-State Zinc-Air Batteries by Arranging Stable Zinc Species Channels
Wei Zheng, Yan Zhao, Hui Zhang, et al.
ACS Applied Materials & Interfaces (2024) Vol. 16, Iss. 7, pp. 8885-8894
Closed Access | Times Cited: 7

Failure Mechanisms and Strategies Toward Flexible Zinc‐Air Batteries
Hengwei Wang, Lingling Kang, Keliang Wang, et al.
Advanced Functional Materials (2024) Vol. 34, Iss. 44
Closed Access | Times Cited: 6

Hygroscopic and Malleable Dough‐Type Zn–Air Battery in a Dry Condition Utilizing Deliquescence
Ok Sung Jeon, Eun Seo Ko, Yong Yeol Park, et al.
Advanced Energy Materials (2023) Vol. 13, Iss. 21
Closed Access | Times Cited: 15

Dual‐Carbon Assisted Oxygen Vacancy Engineering for Optimizing Mn(III) Sites to Enhance Zn–air Battery Performances
Benji Zhou, Nengneng Xu, Tuo Lu, et al.
Advanced Functional Materials (2024)
Closed Access | Times Cited: 5

Recent development of rechargeable solid-state metal-air batteries for electric mobility
Molla Asmare Alemu, Dawit Tessema Ebissa, Muluken Zegeye Getie, et al.
Energy Reports (2024) Vol. 12, pp. 517-528
Closed Access | Times Cited: 4

Carboxymethyl Cellulose – Polyvinyl Alcohol Composite-Based Gel Polymer Electrolyte for Rechargeable Zn-Air Batteries
Deepika Choudhary, Ritu Bala, Rajnish Dhiman
Journal of The Electrochemical Society (2024) Vol. 171, Iss. 7, pp. 070533-070533
Closed Access | Times Cited: 4

Porous carbon nanosheets integrated with graphene-wrapped CoO and CoNx as efficient bifunctional oxygen electrocatalysts for rechargeable zinc-air batteries
Chang Ma, Binji Zhu, Yue Wang, et al.
Journal of Colloid and Interface Science (2025) Vol. 685, pp. 793-803
Closed Access

Constructing dual-ionic channels to enhance the cycle stability of solid-state zinc-air batteries
Yan Zhao, Xianwei Li, Hui Zhang, et al.
Journal of Energy Storage (2025) Vol. 115, pp. 115987-115987
Closed Access

N,S-Doped hollow carbon nanosheet-encapsulated Co₉S₈ nanoparticles as a highly efficient bifunctional electrocatalyst for rechargeable zinc–air batteries
Yuanyuan Peng, Fuping Zhang, Yinglin Zhang, et al.
Dalton Transactions (2022) Vol. 51, Iss. 33, pp. 12630-12640
Closed Access | Times Cited: 15

Bifunctional oxygen electrocatalysts for rechargeable zinc-air battery based on MXene and beyond
Jing Zhang, Zixiang Cui, Jie Liu, et al.
Frontiers of Physics (2022) Vol. 18, Iss. 1
Closed Access | Times Cited: 14

In situspace-confined growth of Co₃O₄nanoparticles inside N-doped hollow porous carbon nanospheres as bifunctional oxygen electrocatalysts for high-performance rechargeable zinc–air batteries
Jingbiao Kuang, Nengfei Yu, Zhongtang Yang, et al.
Dalton Transactions (2023) Vol. 52, Iss. 14, pp. 4371-4381
Closed Access | Times Cited: 5

Molten salt method for preparing Mn0.3Ru0.7O2 nanosheets as a superior bifunctional catalyst for rechargeable zinc-air batteries
Yinghan Wang, Mengfei Qiao, Liqing Qiao, et al.
Journal of Power Sources (2024) Vol. 622, pp. 235367-235367
Closed Access | Times Cited: 1

Preparation and properties of flexible integrated cathode and electrolyte all-gel zinc-air batteries
Xiaowu Yang, Haichao Yang, Jiaqi Zhu, et al.
Journal of Power Sources (2023) Vol. 586, pp. 233640-233640
Closed Access | Times Cited: 3

High-performance flexible zinc-air batteries with layered Zn/C3N4-carbon nanotube/polyvinyl alcohol-epoxy resin composite: In-situ crosslinking and electrode-electrolyte integration
Xin Wang, Mengdi Liu, Di Chen, et al.
Journal of Power Sources (2024) Vol. 625, pp. 235606-235606
Closed Access

Zinc-air batteries
Gargi Giri, Dan J. L. Brett, Paul R. Shearing, et al.
Elsevier eBooks (2024), pp. 369-403
Closed Access

Surface-Confined Polymerization to Construct Binary Fe3n/Co-N-C Encapsulated Mxene Composites for High Performance Zinc-Air Battery
Dangcheng Su, Yuanhua Xiao, Yingliang Liu, et al.
SSRN Electronic Journal (2022)
Closed Access

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Requested Article:

Showing 21 citing articles:

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