Ya‐Xia Yin

45.9k total citations · 38 hit papers
244 papers, 41.9k citations indexed

About

Ya‐Xia Yin is a scholar working on Electrical and Electronic Engineering, Automotive Engineering and Electronic, Optical and Magnetic Materials. According to data from OpenAlex, Ya‐Xia Yin has authored 244 papers receiving a total of 41.9k indexed citations (citations by other indexed papers that have themselves been cited), including 241 papers in Electrical and Electronic Engineering, 76 papers in Automotive Engineering and 64 papers in Electronic, Optical and Magnetic Materials. Recurrent topics in Ya‐Xia Yin's work include Advancements in Battery Materials (228 papers), Advanced Battery Materials and Technologies (205 papers) and Advanced Battery Technologies Research (76 papers). Ya‐Xia Yin is often cited by papers focused on Advancements in Battery Materials (228 papers), Advanced Battery Materials and Technologies (205 papers) and Advanced Battery Technologies Research (76 papers). Ya‐Xia Yin collaborates with scholars based in China, United States and Czechia. Ya‐Xia Yin's co-authors include Yu‐Guo Guo, Li‐Jun Wan, Sen Xin, Nianwu Li, Chunpeng Yang, Ya You, Pengfei Wang, Lin Gu, Jinyi Li and Ji‐Lei Shi and has published in prestigious journals such as Journal of the American Chemical Society, Advanced Materials and Angewandte Chemie International Edition.

In The Last Decade

Ya‐Xia Yin

240 papers receiving 41.5k citations

Hit Papers

Lithium–Sulfur Batteries: Electrochemistry, Materials, an... 2012 2026 2016 2021 2013 2012 2015 2015 2014 500 1000 1.5k 2.0k
What are hit papers?

Hit papers significantly outperform the citation benchmark for their cohort. A paper qualifies if it has ≥500 total citations, achieves ≥1.5× the top-1% citation threshold for papers in the same subfield and year (this is the minimum needed to enter the top 1%, not the average within it), or reaches the top citation threshold in at least one of its specific research topics.

  1. Lithium–Sulfur Batteries: Electrochemistry, Materials, and Prospects
    2013 2.5k citations Ya‐Xia Yin, Yu‐Guo Guo et al. profile →
  2. Smaller Sulfur Molecules Promise Better Lithium–Sulfur Batteries
    2012 1.5k citations Lin Gu, Ya‐Xia Yin et al. Journal of the American Chemical Society profile →
  3. Accommodating lithium into 3D current collectors with a submicron skeleton towards long-life lithium metal anodes
    2015 1.4k citations Chunpeng Yang, Ya‐Xia Yin et al. Nature Communications profile →
  4. An Artificial Solid Electrolyte Interphase Layer for Stable Lithium Metal Anodes
    2015 1.4k citations Nianwu Li, Ya‐Xia Yin et al. Advanced Materials profile →
  5. High-quality Prussian blue crystals as superior cathode materials for room-temperature sodium-ion batteries
    2014 966 citations Ya‐Xia Yin, Yu‐Guo Guo et al. profile →
  6. Layered Oxide Cathodes for Sodium‐Ion Batteries: Phase Transition, Air Stability, and Performance
    2017 803 citations Pengfei Wang, Ya‐Xia Yin et al. Advanced Energy Materials profile →
  7. A Flexible Solid Electrolyte Interphase Layer for Long‐Life Lithium Metal Anodes
    2017 677 citations Nianwu Li, Ya‐Xia Yin et al. profile →
  8. Watermelon‐Inspired Si/C Microspheres with Hierarchical Buffer Structures for Densely Compacted Lithium‐Ion Battery Anodes
    2016 602 citations Ya‐Xia Yin, Li‐Jun Wan et al. Advanced Energy Materials profile →
  9. A High‐Energy Room‐Temperature Sodium‐Sulfur Battery
    2013 564 citations Ya‐Xia Yin, Yu‐Guo Guo et al. Advanced Materials profile →
  10. Towards better Li metal anodes: Challenges and strategies
    2019 557 citations Ying Zhang, Tong‐Tong Zuo et al. profile →
  11. Graphitized Carbon Fibers as Multifunctional 3D Current Collectors for High Areal Capacity Li Anodes
    2017 549 citations Tong‐Tong Zuo, Chunpeng Yang et al. Advanced Materials profile →
  12. Suppressing the P2–O2 Phase Transition of Na0.67Mn0.67Ni0.33O2 by Magnesium Substitution for Improved Sodium‐Ion Batteries
    2016 525 citations Pengfei Wang, Ya‐Xia Yin et al. profile →
  13. Advanced Micro/Nanostructures for Lithium Metal Anodes
    2017 512 citations Nianwu Li, Ya‐Xia Yin et al. Advanced Science profile →
  14. Uniform Lithium Nucleation/Growth Induced by Lightweight Nitrogen‐Doped Graphitic Carbon Foams for High‐Performance Lithium Metal Anodes
    2018 502 citations Ya‐Xia Yin, Yu‐Guo Guo et al. Advanced Materials profile →
  15. Subzero‐Temperature Cathode for a Sodium‐Ion Battery
    2016 493 citations Hurong Yao, Ya‐Xia Yin et al. Advanced Materials profile →
  16. Rice husk-derived hierarchical silicon/nitrogen-doped carbon/carbon nanotube spheres as low-cost and high-capacity anodes for lithium-ion batteries
    2016 469 citations Ya‐Xia Yin, Feifei Cao et al. Nano Energy profile →
  17. Na + /vacancy disordering promises high-rate Na-ion batteries
    2018 466 citations Pengfei Wang, Hurong Yao et al. profile →
  18. Self‐Assembled Nanocomposite of Silicon Nanoparticles Encapsulated in Graphene through Electrostatic Attraction for Lithium‐Ion Batteries
    2012 458 citations Ya‐Xia Yin, Li‐Jun Wan et al. Advanced Energy Materials profile →
  19. Suppressing Surface Lattice Oxygen Release of Li‐Rich Cathode Materials via Heterostructured Spinel Li4Mn5O12 Coating
    2018 458 citations Ji‐Lei Shi, Ya‐Xia Yin et al. Advanced Materials profile →
  20. Upgrading traditional liquid electrolyte via in situ gelation for future lithium metal batteries
    2018 458 citations Ya‐Xia Yin, Shuaifeng Zhang et al. profile →
  21. Dendrite-Free Li-Metal Battery Enabled by a Thin Asymmetric Solid Electrolyte with Engineered Layers
    2017 445 citations Ya‐Xia Yin, Pengfei Wang et al. Journal of the American Chemical Society profile →
  22. Stable Li Metal Anodes via Regulating Lithium Plating/Stripping in Vertically Aligned Microchannels
    2017 439 citations Ya‐Xia Yin, Tong‐Tong Zuo et al. Advanced Materials profile →
  23. Reshaping Lithium Plating/Stripping Behavior via Bifunctional Polymer Electrolyte for Room-Temperature Solid Li Metal Batteries
    2016 432 citations Xian‐Xiang Zeng, Ya‐Xia Yin et al. Journal of the American Chemical Society profile →
  24. Ti‐Substituted NaNi0.5Mn0.5‐xTixO2 Cathodes with Reversible O3−P3 Phase Transition for High‐Performance Sodium‐Ion Batteries
    2017 422 citations Pengfei Wang, Hurong Yao et al. Advanced Materials profile →
  25. An Advanced Selenium–Carbon Cathode for Rechargeable Lithium–Selenium Batteries
    2013 421 citations Chunpeng Yang, Ya‐Xia Yin et al. profile →
  26. Stable Li Plating/Stripping Electrochemistry Realized by a Hybrid Li Reservoir in Spherical Carbon Granules with 3D Conducting Skeletons
    2017 416 citations Huan Ye, Ya‐Xia Yin et al. Journal of the American Chemical Society profile →
  27. Extended Electrochemical Window of Solid Electrolytes via Heterogeneous Multilayered Structure for High‐Voltage Lithium Metal Batteries
    2019 413 citations Pengfei Wang, Ji‐Lei Shi et al. Advanced Materials profile →
  28. Designing Air-Stable O3-Type Cathode Materials by Combined Structure Modulation for Na-Ion Batteries
    2017 382 citations Hurong Yao, Pengfei Wang et al. Journal of the American Chemical Society profile →
  29. High‐Capacity Cathode Material with High Voltage for Li‐Ion Batteries
    2018 373 citations Ji‐Lei Shi, Dongdong Xiao et al. Advanced Materials profile →
  30. Engineering Janus Interfaces of Ceramic Electrolyte via Distinct Functional Polymers for Stable High-Voltage Li-Metal Batteries
    2019 357 citations Xian‐Xiang Zeng, Xu‐Dong Zhang et al. Journal of the American Chemical Society profile →
  31. Guiding Uniform Li Plating/Stripping through Lithium–Aluminum Alloying Medium for Long‐Life Li Metal Batteries
    2018 333 citations Huan Ye, Hurong Yao et al. profile →
  32. Research progress regarding Si-based anode materials towards practical application in high energy density Li-ion batteries
    2017 328 citations Ya‐Xia Yin, Li‐Jun Wan et al. profile →
  33. Boron-doped sodium layered oxide for reversible oxygen redox reaction in Na-ion battery cathodes
    2021 306 citations Yüjie Guo, Pengfei Wang et al. Nature Communications profile →
  34. In Situ Electrochemical Regeneration of Degraded LiFePO4 Electrode with Functionalized Prelithiation Separator
    2022 221 citations Qinghai Meng, Ya‐Xia Yin et al. Advanced Energy Materials profile →
  35. Bridging Interparticle Li+ Conduction in a Soft Ceramic Oxide Electrolyte
    2021 221 citations Ji‐Lei Shi, Ya‐Xia Yin et al. Journal of the American Chemical Society profile →
  36. Mitigating the Large‐Volume Phase Transition of P2‐Type Cathodes by Synergetic Effect of Multiple Ions for Improved Sodium‐Ion Batteries
    2022 215 citations Zhiwei Cheng, Bin Zhao et al. Advanced Energy Materials profile →
  37. A Universal Strategy toward Air‐Stable and High‐Rate O3 Layered Oxide Cathodes for Na‐Ion Batteries
    2022 184 citations Xinguang Yuan, Yüjie Guo et al. profile →
  38. Fast Na+ Kinetics and Suppressed Voltage Hysteresis Enabled by a High‐Entropy Strategy for Sodium Oxide Cathodes
    2024 102 citations Yüjie Guo, Yüjie Guo et al. Advanced Materials profile →

Peers — A (Enhanced Table)

Peers by citation overlap · career bar shows stage (early→late) cites · hero ref

Name h Career Trend Papers Cites
Ya‐Xia Yin China 113 40.6k 15.1k 11.1k 6.2k 3.4k 244 41.9k
Yong‐Sheng Hu China 105 34.7k 0.9× 9.3k 0.6× 9.5k 0.9× 6.4k 1.0× 4.0k 1.2× 311 36.9k
Hanxi Yang China 97 28.3k 0.7× 8.0k 0.5× 9.2k 0.8× 4.4k 0.7× 3.3k 1.0× 277 30.4k
Xiulei Ji United States 93 37.0k 0.9× 8.6k 0.6× 13.9k 1.2× 7.7k 1.3× 2.0k 0.6× 205 40.5k
Sen Xin China 88 26.1k 0.6× 8.4k 0.6× 6.7k 0.6× 6.4k 1.0× 1.5k 0.4× 235 28.4k
Xin‐Bing Cheng China 89 40.6k 1.0× 22.2k 1.5× 4.3k 0.4× 5.4k 0.9× 1.0k 0.3× 208 41.7k
Hongshuai Hou China 93 25.0k 0.6× 4.5k 0.3× 11.8k 1.1× 6.7k 1.1× 3.3k 1.0× 452 29.0k
Ping He China 86 21.7k 0.5× 6.4k 0.4× 4.5k 0.4× 3.2k 0.5× 2.0k 0.6× 333 23.3k
Zhaoxiang Wang China 78 17.9k 0.4× 5.1k 0.3× 6.7k 0.6× 5.1k 0.8× 2.4k 0.7× 264 20.3k
Zhaoyin Wen China 81 19.0k 0.5× 6.7k 0.4× 3.9k 0.4× 5.6k 0.9× 1.3k 0.4× 481 21.2k
Yongming Sun China 67 19.7k 0.5× 5.5k 0.4× 7.2k 0.7× 4.5k 0.7× 1.2k 0.4× 166 21.7k

Countries citing papers authored by Ya‐Xia Yin

Since Specialization
Citations

This map shows the geographic impact of Ya‐Xia Yin's research. It shows the number of citations coming from papers published by authors working in each country. You can also color the map by specialization and compare the number of citations received by Ya‐Xia Yin with the expected number of citations based on a country's size and research output (numbers larger than one mean the country cites Ya‐Xia Yin more than expected).

Fields of papers citing papers by Ya‐Xia Yin

Since Specialization
Physical SciencesHealth SciencesLife SciencesSocial Sciences

This network shows the impact of papers produced by Ya‐Xia Yin. Nodes represent research fields, and links connect fields that are likely to share authors. Colored nodes show fields that tend to cite the papers produced by Ya‐Xia Yin. The network helps show where Ya‐Xia Yin may publish in the future.

Co-authorship network of co-authors of Ya‐Xia Yin

This figure shows the co-authorship network connecting the top 25 collaborators of Ya‐Xia Yin. A scholar is included among the top collaborators of Ya‐Xia Yin based on the total number of citations received by their joint publications. Widths of edges represent the number of papers authors have co-authored together. Node borders signify the number of papers an author published with Ya‐Xia Yin. Ya‐Xia Yin is excluded from the visualization to improve readability, since they are connected to all nodes in the network.

All Works

20 of 20 papers shown
1.
Guo, Yaru, et al.. (2025). In situ surface engineering O3-layered oxide cathode via Na3PO4/P3-layered oxide dual coating layers. Electrochimica Acta. 521. 145911–145911. 2 indexed citations
2.
Li, Yuting, X.-M. Tang, Qiang Li, et al.. (2025). Halide Solid-State Electrolytes for All-Solid-State Sodium Batteries: Progress and Perspectives. ACS Energy Letters. 10(11). 5520–5541. 2 indexed citations
3.
Huang, Yang, Xiaowei Li, Feng Yan, et al.. (2025). Regulating Local Mn─O Coordination to Suppress the Intrinsic Anti‐Site Defects in Mn‐Based Phosphate Cathodes. Advanced Energy Materials.
4.
5.
Zheng, Xiaohui, et al.. (2025). Cerium bulk/interfacial modulation for advanced layered oxide cathodes. Electrochimica Acta. 536. 146758–146758. 1 indexed citations
6.
Xiao, Shengxiong, Ran Zheng, Yu‐Jie Guo, et al.. (2025). Circumventing Self‐Diffusion Enables High‐Rate Hard Carbon Anodes. Advanced Materials. 38(7). e13193–e13193. 1 indexed citations
7.
Chang, Yuxin, Yu‐Jie Guo, Ya‐Xia Yin, et al.. (2024). Bismuth-doping boosting Na+ diffusion kinetics of layered oxide cathode with radially oriented {010} active lattice facet for sodium-ion batteries. ACS Applied Materials & Interfaces. 16(49). 66939–66947. 5 indexed citations
8.
Cheng, Zhiwei, Bin Zhao, Yüjie Guo, et al.. (2022). Mitigating the Large‐Volume Phase Transition of P2‐Type Cathodes by Synergetic Effect of Multiple Ions for Improved Sodium‐Ion Batteries. Advanced Energy Materials. 12(14). 215 indexed citations breakdown →
9.
Yao, Hurong, Xinguang Yuan, Xu‐Dong Zhang, et al.. (2022). Excellent air storage stability of Na-based transition metal oxide cathodes benefiting from enhanced Na−O binding energy. Energy storage materials. 54. 661–667. 65 indexed citations
10.
Guo, Yu‐Jie, Yu‐Jie Guo, Yubin Niu, et al.. (2021). Insights on Electrochemical Behaviors of Sodium Peroxide as a Sacrificial Cathode Additive for Boosting Energy Density of Na-Ion Battery. ACS Applied Materials & Interfaces. 13(2). 2772–2778. 45 indexed citations
11.
Zhang, Siyuan, Yüjie Guo, Yüjie Guo, et al.. (2021). P3/O3 Integrated Layered Oxide as High‐Power and Long‐Life Cathode toward Na‐Ion Batteries. Small. 17(10). e2007236–e2007236. 98 indexed citations
12.
Ye, Huan, Ying Zhang, Ya‐Xia Yin, Feifei Cao, & Yu‐Guo Guo. (2020). An Outlook on Low-Volume-Change Lithium Metal Anodes for Long-Life Batteries. ACS Central Science. 6(5). 661–671. 102 indexed citations
13.
Ling, Wei, Qi Deng, Qiang Ma, et al.. (2018). Hierarchical Carbon Micro/Nanonetwork with Superior Electrocatalysis for High‐Rate and Endurable Vanadium Redox Flow Batteries. Advanced Science. 5(12). 1801281–1801281. 58 indexed citations
14.
Zhou, Yanan, Pengfei Wang, Yubin Niu, et al.. (2018). A P2/P3 composite layered cathode for high-performance Na-ion full batteries. Nano Energy. 55. 143–150. 201 indexed citations
15.
Wang, Pengfei, Hurong Yao, Tong‐Tong Zuo, Ya‐Xia Yin, & Yu‐Guo Guo. (2017). Novel P2-type Na₂/₃Ni₁/₆Mg₁/₆Ti₂/₃O₂ as an anode material for sodium-ion batteries. Chemical Communications. 1 indexed citations
16.
Yao, Hurong, Pengfei Wang, Yue Gong, et al.. (2017). Designing Air-Stable O3-Type Cathode Materials by Combined Structure Modulation for Na-Ion Batteries. Journal of the American Chemical Society. 139(25). 8440–8443. 382 indexed citations breakdown →
17.
Yin, Ya‐Xia, et al.. (2016). 锂硫(硒)电池中的界面问题与解决途径. Journal of Electrochemistry. 22(6). 553–560. 2 indexed citations
18.
Yang, Chunpeng, Ya‐Xia Yin, Shuaifeng Zhang, Nianwu Li, & Yu‐Guo Guo. (2015). Accommodating lithium into 3D current collectors with a submicron skeleton towards long-life lithium metal anodes. Nature Communications. 6(1). 8058–8058. 1441 indexed citations breakdown →
19.
Shi, Ji‐Lei, Dongdong Xiao, Xu‐Dong Zhang, et al.. (2015). Enhancing the Kinetics of Li‐Rich Cathode Materials through the Pinning Effects of Gradient Surface Na+ Doping. Advanced Energy Materials. 6(6). 353 indexed citations
20.
Wu, Na, Yingchun Lyu, Xiqian Yu, et al.. (2014). A highly reversible, low-strain Mg-ion insertion anode material for rechargeable Mg-ion batteries. NPG Asia Materials. 6(8). e120–e120. 128 indexed citations

Rankless uses publication and citation data sourced from OpenAlex, an open and comprehensive bibliographic database. While OpenAlex provides broad and valuable coverage of the global research landscape, it—like all bibliographic datasets—has inherent limitations. These include incomplete records, variations in author disambiguation, differences in journal indexing, and delays in data updates. As a result, some metrics and network relationships displayed in Rankless may not fully capture the entirety of a scholar's output or impact.

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