Joonho Lee

4.9k total citations
205 papers, 3.9k citations indexed

About

Joonho Lee is a scholar working on Mechanical Engineering, Materials Chemistry and Electrical and Electronic Engineering. According to data from OpenAlex, Joonho Lee has authored 205 papers receiving a total of 3.9k indexed citations (citations by other indexed papers that have themselves been cited), including 110 papers in Mechanical Engineering, 72 papers in Materials Chemistry and 33 papers in Electrical and Electronic Engineering. Recurrent topics in Joonho Lee's work include Metallurgical Processes and Thermodynamics (53 papers), Iron and Steelmaking Processes (23 papers) and nanoparticles nucleation surface interactions (21 papers). Joonho Lee is often cited by papers focused on Metallurgical Processes and Thermodynamics (53 papers), Iron and Steelmaking Processes (23 papers) and nanoparticles nucleation surface interactions (21 papers). Joonho Lee collaborates with scholars based in South Korea, Japan and China. Joonho Lee's co-authors include Toshihiro Tanaka, Jinkoo Kim, Kazuki Morita, Masashi Nakamoto, Hirotaro Mori, Wei Li, Minsoo Shin, Byoungchul Hwang, Shigeta Hara and Jung Goo Lee and has published in prestigious journals such as Physical Review Letters, SHILAP Revista de lepidopterología and ACS Nano.

In The Last Decade

Joonho Lee

201 papers receiving 3.8k citations

Peers — A (Enhanced Table)

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

Name h Career Trend Papers Cites
Joonho Lee South Korea 35 1.8k 1.7k 671 586 546 205 3.9k
Irina V. Belova Australia 30 2.5k 1.4× 1.6k 0.9× 466 0.7× 455 0.8× 217 0.4× 305 3.8k
Jong‐Hyeon Lee South Korea 36 2.2k 1.2× 2.7k 1.6× 407 0.6× 262 0.4× 1.0k 1.9× 380 5.7k
Daniel K. Schreiber United States 31 879 0.5× 1.6k 1.0× 825 1.2× 434 0.7× 343 0.6× 144 3.3k
G.H. Tang China 46 1.9k 1.0× 1.1k 0.6× 1.7k 2.5× 205 0.3× 1.4k 2.6× 251 6.9k
Shuai Chen China 40 1.6k 0.9× 1.9k 1.1× 1.0k 1.5× 126 0.2× 1.6k 2.9× 196 5.7k
Ji Zhou China 38 1.2k 0.6× 2.0k 1.2× 687 1.0× 154 0.3× 1.3k 2.4× 124 4.3k
Ning Xu China 35 961 0.5× 2.4k 1.4× 531 0.8× 123 0.2× 219 0.4× 151 3.9k
Daniel Crespo Spain 33 2.0k 1.1× 2.2k 1.3× 259 0.4× 147 0.3× 321 0.6× 135 3.6k
B. Wei China 35 3.0k 1.6× 3.0k 1.7× 1.1k 1.7× 455 0.8× 711 1.3× 324 5.3k
Yanhui Feng China 38 2.6k 1.4× 1.7k 1.0× 904 1.3× 75 0.1× 676 1.2× 193 4.9k

Countries citing papers authored by Joonho Lee

Since Specialization
Citations

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

Fields of papers citing papers by Joonho Lee

Since Specialization
Physical SciencesHealth SciencesLife SciencesSocial Sciences

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

Co-authorship network of co-authors of Joonho Lee

This figure shows the co-authorship network connecting the top 25 collaborators of Joonho Lee. A scholar is included among the top collaborators of Joonho Lee 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 Joonho Lee. Joonho Lee 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.
Lee, Joonho, et al.. (2025). Evaluation of Reduction Behavior of the Acid Pellets Prepared with Sinter-Grade Iron Ore Fines by 55% H2–35% CO–10% N2 and 100% H2. Journal of Sustainable Metallurgy. 11(1). 300–312. 1 indexed citations
2.
Suh, In-Kook, et al.. (2025). Effect of process parameters on fluidization and agglomeration behavior of iron ore fines. Powder Technology. 467. 121500–121500. 1 indexed citations
3.
Park, Chanhee, et al.. (2024). Formation of eta phase during aging at 750–850 °C for Ni-base superalloys with different Ti/Al ratios. Calphad. 87. 102743–102743. 2 indexed citations
4.
Heo, Yoon‐Uk, et al.. (2024). Effect of dew point during annealing on phosphatability of ultra-high-strength steel. Journal of Materials Research and Technology. 33. 8564–8572.
5.
Park, C. G., Joonho Lee, & Woo-Sang Jung. (2024). Evolution of precipitates during creep deformation for alloy 718. Journal of Materials Research and Technology. 34. 2453–2462.
6.
Kim, June‐Hyung, Young‐Su Lee, Dong‐Ik Kim, et al.. (2023). Crucial role of Ce particles during initial hydrogen absorption of AB-type hydrogen storage alloys. Nano Energy. 112. 108483–108483. 44 indexed citations
7.
Lee, Young Jun, Hee‐Eun Kim, Hongseok Yun, et al.. (2022). Lens-Shaped Carbon Particles with Perpendicularly-Oriented Channels for High-Performance Proton Exchange Membrane Fuel Cells. ACS Nano. 16(2). 2988–2996. 38 indexed citations
8.
Jung, Jaehoon, et al.. (2022). Modulation of ionic current rectification direction for biomimetic aluminum oxide membrane by surface modification. AIP Advances. 12(3). 35141–35141. 2 indexed citations
9.
Choi, Kiwoon, et al.. (2020). Antireflective Transparent Conductive Oxide Film Based on a Tapered Porous Nanostructure. Micromachines. 11(2). 206–206. 3 indexed citations
10.
Gu, Foquan, Yuanbo Zhang, Zhiwei Peng, et al.. (2019). Selective recovery of chromium from ferronickel slag via alkaline roasting followed by water leaching. Journal of Hazardous Materials. 374. 83–91. 47 indexed citations
11.
Bandyopadhyay, Kaushik, Shamik Basak, K. Sajun Prasad, et al.. (2018). Improved formability prediction by modeling evolution of anisotropy of steel sheets. International Journal of Solids and Structures. 156-157. 263–280. 25 indexed citations
12.
Cho, Woo Jong, Jaegil Kim, Joonho Lee, et al.. (2014). Limit of Metastability for Liquid and Vapor Phases of Water. Physical Review Letters. 112(15). 157802–157802. 18 indexed citations
13.
Lee, Joonho, et al.. (2013). Phase stability of Ag–Sn alloy nanoparticles. Journal of Alloys and Compounds. 590. 140–146. 37 indexed citations
14.
Lee, Joonho, et al.. (2010). Preparation and Thermal Analysis of Sn-Ag Nano Solders. MATERIALS TRANSACTIONS. 51(12). 2145–2149. 32 indexed citations
15.
Lee, Jung Goo, Joonho Lee, Toshihiro Tanaka, & Hirotaro Mori. (2009). In situatomic-scale observation of melting point suppression in nanometer-sized gold particles. Nanotechnology. 20(47). 475706–475706. 51 indexed citations
16.
Takada, Yoshihisa, et al.. (2007). The Influence of Si, Mn on Dynamic Wetting of Liquid Zinc to Steel. Tetsu-to-Hagane. 93(8). 532–537. 2 indexed citations
17.
Lee, Joonho, et al.. (2006). In SituHREM Observation of Crystalline-to-Gas Transition in Nanometer-Sized Ag Particles. Physical Review Letters. 96(7). 75504–75504. 45 indexed citations
18.
Lee, Joonho, et al.. (2004). Oxygen Adsorption Behavior on the Surface of Liquid Cu-Ag Alloys. MATERIALS TRANSACTIONS. 45(8). 2719–2722. 27 indexed citations
19.
Lee, Joonho, Toshihiro Tanaka, M. Yamamoto, & Shigeta Hara. (2004). Effect of Oxygen on Surface Tension of Liquid Ag-Sn Alloys. MATERIALS TRANSACTIONS. 45(3). 625–629. 26 indexed citations
20.
Lee, Joonho & Kazuki Morita. (2003). Interfacial Kinetics of Nitrogen with Molten Iron Containing Sulfur.. ISIJ International. 43(1). 14–19. 15 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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