Satoshi Yasuno

1.1k total citations
68 papers, 903 citations indexed

About

Satoshi Yasuno is a scholar working on Electrical and Electronic Engineering, Materials Chemistry and Automotive Engineering. According to data from OpenAlex, Satoshi Yasuno has authored 68 papers receiving a total of 903 indexed citations (citations by other indexed papers that have themselves been cited), including 54 papers in Electrical and Electronic Engineering, 19 papers in Materials Chemistry and 13 papers in Automotive Engineering. Recurrent topics in Satoshi Yasuno's work include Advancements in Battery Materials (21 papers), Advanced Battery Materials and Technologies (20 papers) and Thin-Film Transistor Technologies (18 papers). Satoshi Yasuno is often cited by papers focused on Advancements in Battery Materials (21 papers), Advanced Battery Materials and Technologies (20 papers) and Thin-Film Transistor Technologies (18 papers). Satoshi Yasuno collaborates with scholars based in Japan, Vietnam and United States. Satoshi Yasuno's co-authors include Shinichi Komaba, Kei Kubota, Tatsuo Horiba, Hiroshi Oji, Shinya Morita, Tomooki Hosaka, Ryoichi Tatara, Tatsuo Matsuyama, Tomoyuki Koganezawa and Kazushi Hayashi and has published in prestigious journals such as Journal of the American Chemical Society, SHILAP Revista de lepidopterología and Applied Physics Letters.

In The Last Decade

Satoshi Yasuno

62 papers receiving 888 citations

Peers

Satoshi Yasuno
Binggong Yan China
Chia‐Chin Chen Germany
Heng Wang China
Alok M. Tripathi India
Oleg I. Lebedev France
Dmitry A. Aksyonov Russia
Shengda D. Pu United Kingdom
Yiling Sun China
Ashok S. Menon United Kingdom
Mohamed Ati France
Binggong Yan China
Satoshi Yasuno
Citations per year, relative to Satoshi Yasuno Satoshi Yasuno (= 1×) peers Binggong Yan

Countries citing papers authored by Satoshi Yasuno

Since Specialization
Citations

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

Fields of papers citing papers by Satoshi Yasuno

Since Specialization
Physical SciencesHealth SciencesLife SciencesSocial Sciences

This network shows the impact of papers produced by Satoshi Yasuno. 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 Satoshi Yasuno. The network helps show where Satoshi Yasuno may publish in the future.

Co-authorship network of co-authors of Satoshi Yasuno

This figure shows the co-authorship network connecting the top 25 collaborators of Satoshi Yasuno. A scholar is included among the top collaborators of Satoshi Yasuno 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 Satoshi Yasuno. Satoshi Yasuno 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.
2.
Igarashi, Daisuke, Ryoichi Tatara, Satoshi Yasuno, & Shinichi Komaba. (2024). Physicochemical properties and application of concentrated KN(SO2F)2/sulfolane solution in high-voltage high-power K-ion batteries. Journal of Materials Chemistry A. 13(17). 12113–12123.
3.
Yasuno, Satoshi, et al.. (2023). Development of hard x-ray photoelectron spectroscopy using synchrotron radiation x-ray up to 30 keV. Review of Scientific Instruments. 94(11).
4.
Tatara, Ryoichi, et al.. (2023). Application of Modified Styrene-Acrylic-Rubber-based Latex Binder to LiCoO<sub>2</sub> Composite Electrodes for Lithium-ion Batteries. SHILAP Revista de lepidopterología. 91(7). 77005–77005. 5 indexed citations
5.
Tatara, Ryoichi, et al.. (2023). High-performance SiO electrodes for lithium-ion batteries: merged effects of a new polyacrylate binder and an electrode-maturation process. Materials Advances. 4(7). 1637–1647. 10 indexed citations
6.
Kusada, Kohei, Tomokazu Yamamoto, Takaaki Toriyama, et al.. (2023). Continuous-Flow Chemical Synthesis for Sub-2 nm Ultra-Multielement Alloy Nanoparticles Consisting of Group IV to XV Elements. Journal of the American Chemical Society. 145(31). 17136–17142. 34 indexed citations
7.
Kubota, Kei, Wataru Ota, Maxim Shishkin, et al.. (2021). Phase evolution of electrochemically potassium intercalated graphite. Journal of Materials Chemistry A. 9(18). 11187–11200. 43 indexed citations
8.
Suda, Kohei, Satoshi Yasuno, Takeshi Watanabe, et al.. (2021). Analytical System for Simultaneous Operando Measurements of Electrochemical Reaction Rate and Hard X-ray Photoemission Spectroscopy. Journal of The Electrochemical Society. 168(5). 54506–54506. 2 indexed citations
9.
Nakamura, Kyotaro, et al.. (2021). Investigation of the Chemical Reaction between Silver Electrodes and Transparent Conductive Oxide Films for the Improvement of Fill Factor of Silicon Heterojunction Solar Cells. ECS Journal of Solid State Science and Technology. 10(5). 55013–55013. 4 indexed citations
10.
Yamamoto, Takayuki, et al.. (2021). Control of Chemical Structure and Lithium-ion Conductivity of Amorphous Lithium Phosphate Thin Film Deposited by Pulsed Laser Deposition. Chemistry Letters. 51(1). 34–37. 1 indexed citations
11.
Tatara, Ryoichi, Kei Kubota, Tatsuo Horiba, et al.. (2021). Effect of Substituted Styrene‐Butadiene Rubber Binders on the Stability of 4.5 V‐Charged LiCoO2 Electrode. ChemElectroChem. 8(22). 4345–4352. 9 indexed citations
12.
Horiba, Tatsuo, Yoshinari Abe, Kazuo Hida, et al.. (2020). Investigation and Improvement of Metallic Aluminum as Alloying Electrode in Non-Aqueous Li Cells. Journal of The Electrochemical Society. 167(11). 110513–110513. 8 indexed citations
13.
Ikeda, Takashi, Keishiro Tahara, Tomofumi Kadoya, et al.. (2020). Ferrocene on Insulator: Silane Coupling to a SiO2 Surface and Influence on Electrical Transport at a Buried Interface with an Organic Semiconductor Layer. Langmuir. 36(21). 5809–5819. 13 indexed citations
14.
Kubota, Kei, Ryoichi Tatara, Tatsuo Horiba, et al.. (2020). Impact of Newly Developed Styrene–Butadiene–Rubber Binder on the Electrode Performance of High-Voltage LiNi0.5Mn1.5O4 Electrode. ACS Applied Energy Materials. 3(8). 7978–7987. 30 indexed citations
15.
Miyazaki, Takamichi, et al.. (2020). CF 4 :O 2 surface etching for the improvement of contact resistance and high-temperature reliability in Ni/Nb ohmic contacts on n-type 4H-SiC. Japanese Journal of Applied Physics. 59(5). 56501–56501. 3 indexed citations
16.
Ishikawa, Seiji, et al.. (2019). Influence of Ni and Nb thickness on low specific contact resistance and high-temperature reliability of ohmic contacts to 4H-SiC. Japanese Journal of Applied Physics. 58(11). 116501–116501. 5 indexed citations
17.
Ishikawa, Seiji, et al.. (2018). High-temperature reliability of Ni/Nb ohmic contacts on 4H-SiC for harsh environment applications. Thin Solid Films. 669. 306–314. 14 indexed citations
18.
Hirosawa, Ichiro, Takeshi Watanabe, Hiroshi Oji, et al.. (2016). Effects of applying bias voltage on metal-coated pentacene films on SiO. Japanese Journal of Applied Physics. 55(3). 1 indexed citations
19.
Yasuno, Satoshi, et al.. (2012). Physical properties of amorphous In-Ga-Zn-O films deposited under various sputtering pressure. 147–150. 1 indexed citations
20.

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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