Hongki Kang

2.2k total citations
66 papers, 1.9k citations indexed

About

Hongki Kang is a scholar working on Electrical and Electronic Engineering, Biomedical Engineering and Cellular and Molecular Neuroscience. According to data from OpenAlex, Hongki Kang has authored 66 papers receiving a total of 1.9k indexed citations (citations by other indexed papers that have themselves been cited), including 54 papers in Electrical and Electronic Engineering, 30 papers in Biomedical Engineering and 17 papers in Cellular and Molecular Neuroscience. Recurrent topics in Hongki Kang's work include Thin-Film Transistor Technologies (21 papers), Nanomaterials and Printing Technologies (16 papers) and Neuroscience and Neural Engineering (16 papers). Hongki Kang is often cited by papers focused on Thin-Film Transistor Technologies (21 papers), Nanomaterials and Printing Technologies (16 papers) and Neuroscience and Neural Engineering (16 papers). Hongki Kang collaborates with scholars based in South Korea, United States and Ethiopia. Hongki Kang's co-authors include Vivek Subramanian, Rungrot Kitsomboonloha, Jaewon Jang, Gerd Grau, Yoonkey Nam, Hyuk‐Jun Kwon, Jee Woong Lee, Sarah L. Swisher, Jae Eun Jang and William J. Scheideler and has published in prestigious journals such as Advanced Materials, Nature Communications and ACS Nano.

In The Last Decade

Hongki Kang

60 papers receiving 1.8k citations

Peers — A (Enhanced Table)

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

Name h Career Trend Papers Cites
Hongki Kang South Korea 23 1.4k 820 610 298 175 66 1.9k
Hanul Moon South Korea 17 1.1k 0.8× 833 1.0× 533 0.9× 516 1.7× 157 0.9× 42 1.9k
Gen-Wen Hsieh Taiwan 12 849 0.6× 893 1.1× 807 1.3× 225 0.8× 51 0.3× 28 1.5k
Jaewon Jang South Korea 28 2.0k 1.5× 666 0.8× 1.2k 2.0× 628 2.1× 263 1.5× 185 2.6k
Hongbin Zhao China 27 1.4k 1.0× 473 0.6× 905 1.5× 353 1.2× 245 1.4× 102 2.2k
Jonas Deuermeier Portugal 24 1.1k 0.8× 487 0.6× 903 1.5× 366 1.2× 123 0.7× 75 1.8k
Sunghwan Lee United States 25 1.6k 1.1× 662 0.8× 974 1.6× 717 2.4× 63 0.4× 87 2.1k
H. Glesková United States 23 1.9k 1.4× 1.1k 1.3× 824 1.4× 478 1.6× 94 0.5× 85 2.5k
Jung‐Dae Kwon South Korea 22 1.5k 1.1× 577 0.7× 814 1.3× 361 1.2× 104 0.6× 95 2.0k
Hanna M. Haverinen United States 13 2.0k 1.4× 1.3k 1.5× 731 1.2× 364 1.2× 66 0.4× 19 2.6k
Teppei Araki Japan 25 1.6k 1.1× 1.8k 2.2× 400 0.7× 664 2.2× 163 0.9× 63 2.5k

Countries citing papers authored by Hongki Kang

Since Specialization
Citations

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

Fields of papers citing papers by Hongki Kang

Since Specialization
Physical SciencesHealth SciencesLife SciencesSocial Sciences

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

Co-authorship network of co-authors of Hongki Kang

This figure shows the co-authorship network connecting the top 25 collaborators of Hongki Kang. A scholar is included among the top collaborators of Hongki Kang 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 Hongki Kang. Hongki Kang 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.
Hong, Nari, Jungha Lee, Yoon Kyoung Kim, et al.. (2025). Hexagonal metal complex based mechanically robust transparent ultrathin gold µECoG for electro-optical neural interfaces. npj Flexible Electronics. 9(1).
2.
Lee, Jee Woong, Jung‐Ha Lee, Hyuk‐Jun Kwon, et al.. (2025). Simultaneous Detection of Neural Activity and Temperature in Photothermal Neural Stimulation. Advanced Science. 12(19). e2411725–e2411725. 4 indexed citations
3.
Lee, Jee Woong, et al.. (2025). Transparent Temperature Sensors for Photothermal Neuromodulation: Advances, Challenges, and Future Directions. Advanced Materials Interfaces. 12(13). 2 indexed citations
4.
5.
Heo, Su Jin, et al.. (2024). Flexible multi-electrode neural probe using active-matrix design of transistor array. Sensors and Actuators A Physical. 372. 115373–115373. 1 indexed citations
6.
Kwon, Hyeok‐jin, et al.. (2024). Laser-Induced and MOF-Derived Metal Oxide/Carbon Composite for Synergistically Improved Ethanol Sensing at Room temperature. Nano-Micro Letters. 16(1). 113–113. 36 indexed citations
7.
Kang, Hongki, et al.. (2024). Heavily phosphorus doped germanium with local strain compensation effect by Co-implantation and rapid thermal process. Journal of Alloys and Compounds. 984. 173952–173952.
8.
9.
Lee, Won‐Yong, Junhee Lee, Hyuk‐Jun Kwon, et al.. (2024). High-detectivity silver telluride nanoparticle-based near-infrared photodetectors functionalized with surface-plasmonic gold nanoparticles. Applied Surface Science. 654. 159563–159563. 6 indexed citations
10.
Jang, Bongho, et al.. (2023). Schottky barrier modulation of bottom contact SnO2 thin-film transistors via chloride-based combustion synthesis. Journal of Material Science and Technology. 148. 199–208. 4 indexed citations
11.
Kang, Hongki, et al.. (2023). Reducing specific contact resistivity for n-type germanium using laser activation process and nano-island formation. Applied Surface Science. 638. 157967–157967. 2 indexed citations
12.
Lee, Dong-Hoon, Jungha Lee, Minhye Shin, et al.. (2023). Sol-gel processed Y2O3 embedded capacitor based physically unclonable function. Materials Science in Semiconductor Processing. 168. 107860–107860.
13.
Kwon, Hyuk‐Jun, et al.. (2023). Tactile Sensor Structure Optimized for Sliding Motion With High Resolution Recording of Surface Topography. IEEE Electron Device Letters. 44(7). 1184–1187. 2 indexed citations
14.
Kang, Min Soo, et al.. (2022). Detecting temperature of small object using hybrid tactile sensor array and multi-parameter extraction analysis. Sensors and Actuators A Physical. 340. 113541–113541. 7 indexed citations
15.
Lee, Jee Woong, Hongki Kang, & Yoonkey Nam. (2018). Thermo-plasmonic gold nanofilms for simple and mass-producible photothermal neural interfaces. Nanoscale. 10(19). 9226–9235. 27 indexed citations
16.
Grau, Gerd, et al.. (2016). Gravure-printed electronics: recent progress in tooling development, understanding of printing physics, and realization of printed devices. Flexible and Printed Electronics. 1(2). 23002–23002. 183 indexed citations
17.
Jang, Jaewon, et al.. (2014). Transparent High‐Performance Thin Film Transistors from Solution‐Processed SnO2/ZrO2 Gel‐like Precursors. Advanced Materials. 26(26). 4412–4412. 5 indexed citations
18.
Kang, Hongki & Vivek Subramanian. (2014). Measurement and analysis of 1/f noise under switched bias in organic thin film transistors. Applied Physics Letters. 104(2). 23301–23301. 13 indexed citations
19.
Kwon, Hyuk‐Jun, Hongki Kang, Jaewon Jang, Sunkook Kim, & Costas P. Grigoropoulos. (2014). Analysis of flicker noise in two-dimensional multilayer MoS2 transistors. Applied Physics Letters. 104(8). 59 indexed citations
20.
Kang, Hongki. (1991). Water-based ink-jet ink. I, Formulation. 35(3). 179–188. 6 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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