Gary M. Koenig

2.5k total citations
79 papers, 2.1k citations indexed

About

Gary M. Koenig is a scholar working on Electrical and Electronic Engineering, Automotive Engineering and Electronic, Optical and Magnetic Materials. According to data from OpenAlex, Gary M. Koenig has authored 79 papers receiving a total of 2.1k indexed citations (citations by other indexed papers that have themselves been cited), including 66 papers in Electrical and Electronic Engineering, 49 papers in Automotive Engineering and 12 papers in Electronic, Optical and Magnetic Materials. Recurrent topics in Gary M. Koenig's work include Advancements in Battery Materials (58 papers), Advanced Battery Materials and Technologies (49 papers) and Advanced Battery Technologies Research (49 papers). Gary M. Koenig is often cited by papers focused on Advancements in Battery Materials (58 papers), Advanced Battery Materials and Technologies (49 papers) and Advanced Battery Technologies Research (49 papers). Gary M. Koenig collaborates with scholars based in United States, Mexico and South Korea. Gary M. Koenig's co-authors include Ilias Belharouak, Khalil Amine, Hongxu Dong, Nicholas L. Abbott, Juan Pablo, Chen Cai, J. Pierce Robinson, Naoki Ota, I‐Hsin Lin and Hiroyuki Yumoto and has published in prestigious journals such as Proceedings of the National Academy of Sciences, The Journal of Chemical Physics and Nano Letters.

In The Last Decade

Gary M. Koenig

75 papers receiving 2.1k citations

Peers — A (Enhanced Table)

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

Name h Career Trend Papers Cites
Gary M. Koenig United States 27 1.6k 885 622 379 292 79 2.1k
Tokihiko Yokoshima Japan 32 2.1k 1.3× 860 1.0× 611 1.0× 356 0.9× 629 2.2× 113 2.7k
Binbin Xu China 28 1.5k 1.0× 318 0.4× 645 1.0× 222 0.6× 462 1.6× 74 2.2k
Hyun Seok Kim South Korea 25 1.7k 1.0× 438 0.5× 424 0.7× 260 0.7× 1.1k 3.8× 56 2.6k
Nicholas S. Hudak United States 18 2.5k 1.6× 635 0.7× 824 1.3× 430 1.1× 843 2.9× 27 3.1k
Qinglin Zhang United States 23 2.1k 1.3× 981 1.1× 599 1.0× 164 0.4× 329 1.1× 32 2.4k
Katharine L. Harrison United States 26 2.1k 1.3× 1.1k 1.3× 263 0.4× 375 1.0× 368 1.3× 62 2.5k
Yong Xie China 30 2.7k 1.7× 770 0.9× 518 0.8× 132 0.3× 1.3k 4.4× 120 3.7k
Xiaojing Wu China 27 2.3k 1.5× 586 0.7× 617 1.0× 277 0.7× 662 2.3× 95 2.7k

Countries citing papers authored by Gary M. Koenig

Since Specialization
Citations

This map shows the geographic impact of Gary M. Koenig'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 Gary M. Koenig with the expected number of citations based on a country's size and research output (numbers larger than one mean the country cites Gary M. Koenig more than expected).

Fields of papers citing papers by Gary M. Koenig

Since Specialization
Physical SciencesHealth SciencesLife SciencesSocial Sciences

This network shows the impact of papers produced by Gary M. Koenig. 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 Gary M. Koenig. The network helps show where Gary M. Koenig may publish in the future.

Co-authorship network of co-authors of Gary M. Koenig

This figure shows the co-authorship network connecting the top 25 collaborators of Gary M. Koenig. A scholar is included among the top collaborators of Gary M. Koenig 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 Gary M. Koenig. Gary M. Koenig 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.
Colosi, Lisa M., et al.. (2025). Lithium capture from simulated geothermal brine via chemical reduction of iron phosphate in a packed bed reactor. Separation and Purification Technology. 378. 134692–134692.
2.
Koenig, Gary M., et al.. (2025). Constant voltage fast charge evaluation of lithium-ion battery full cells. Journal of Power Sources. 640. 236711–236711. 1 indexed citations
3.
Leroux, C., Geoffrey M. Geise, & Gary M. Koenig. (2025). Selective Membrane for Non‐Aqueous Electrochemical Flow Cells. Advanced Functional Materials. 35(47). 1 indexed citations
4.
Wang, Jing, et al.. (2024). Selective lithium extraction from brine via chemical reduction of iron phosphate with aqueous iron compounds. Sustainable Energy & Fuels. 8(17). 3902–3916. 1 indexed citations
5.
Leroux, C., et al.. (2024). Transport properties of ethylene glycol functionalized membranes exposed to nonaqueous electrolytes. Polymer. 300. 126986–126986. 4 indexed citations
6.
Koenig, Gary M., et al.. (2023). Combining Ester Solvent-Containing Electrolytes with All-Active Material Electrodes for High Current Density Lithium-Ion Batteries. ACS Applied Energy Materials. 6(21). 11226–11233. 5 indexed citations
7.
Koenig, Gary M., et al.. (2023). Impact of carbon coating processing using sucrose for thick binder-free titanium niobium oxide lithium-ion battery anode. Journal of Electrochemical Science and Engineering. 2 indexed citations
8.
Koenig, Gary M., et al.. (2023). Electronically conductive metal oxide incorporation in electrode to enable high energy density all active material electrodes. Journal of Electroanalytical Chemistry. 950. 117920–117920. 4 indexed citations
9.
Koenig, Gary M., et al.. (2023). Transport Property Modulation via Solvent-Specific Behavior in Crosslinked Nonaqueous Membranes. ACS Applied Polymer Materials. 5(4). 2449–2461. 3 indexed citations
10.
Wang, Jing & Gary M. Koenig. (2023). Direct Lithium Extraction Using Intercalation Materials. Chemistry - A European Journal. 30(4). e202302776–e202302776. 9 indexed citations
11.
Wang, Jing & Gary M. Koenig. (2023). Comparison of Lithium Diffusion Coefficient Measurements in Tellurium Electrodes via Different Electrochemical Techniques. Journal of The Electrochemical Society. 170(5). 50534–50534. 22 indexed citations
12.
Cai, Chen & Gary M. Koenig. (2023). Enhancing low electronic conductivity materials in all active material electrodes through multicomponent architecture. Energy Advances. 2(2). 308–320. 13 indexed citations
13.
14.
Cai, Chen, et al.. (2023). Increased cycling rates for thick all active material electrodes via electrolyte modifications. Journal of Energy Storage. 64. 107238–107238. 8 indexed citations
15.
Zhang, Yuxuan, et al.. (2022). Chemical redox of lithium-ion solid electroactive material in a packed bed flow reactor. Chemical Engineering Science. 251. 117443–117443. 13 indexed citations
16.
Koenig, Gary M., et al.. (2021). Thermodynamic Interactions as a Descriptor of Cross-Over in Nonaqueous Redox Flow Battery Membranes. ACS Applied Materials & Interfaces. 13(41). 49331–49339. 9 indexed citations
17.
Loth, Eric, et al.. (2021). Liquid metal battery storage in an offshore wind turbine: Concept and economic analysis. Renewable and Sustainable Energy Reviews. 149. 111387–111387. 30 indexed citations
18.
Cai, Chen, J. Pierce Robinson, Daniel S. Hussey, et al.. (2020). Thick Sintered Electrode Lithium-Ion Battery Discharge Simulations: Incorporating Lithiation-Dependent Electronic Conductivity and Lithiation Gradient Due to Charge Cycle. Journal of The Electrochemical Society. 167(14). 140542–140542. 23 indexed citations
19.
20.
Koenig, Gary M., et al.. (2017). Investigation of Polyanion Materials with Multiple Intercalation Cations: Na Ions in Na-Ion Full Cell. ECS Transactions. 80(10). 259–266. 2 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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