Meehyun Lim

1.1k total citations
23 papers, 920 citations indexed

About

Meehyun Lim is a scholar working on Electrical and Electronic Engineering, Biomedical Engineering and Atomic and Molecular Physics, and Optics. According to data from OpenAlex, Meehyun Lim has authored 23 papers receiving a total of 920 indexed citations (citations by other indexed papers that have themselves been cited), including 19 papers in Electrical and Electronic Engineering, 13 papers in Biomedical Engineering and 5 papers in Atomic and Molecular Physics, and Optics. Recurrent topics in Meehyun Lim's work include Terahertz technology and applications (8 papers), Advanced Sensor and Energy Harvesting Materials (5 papers) and Advanced Memory and Neural Computing (4 papers). Meehyun Lim is often cited by papers focused on Terahertz technology and applications (8 papers), Advanced Sensor and Energy Harvesting Materials (5 papers) and Advanced Memory and Neural Computing (4 papers). Meehyun Lim collaborates with scholars based in South Korea, Hong Kong and United States. Meehyun Lim's co-authors include Sung‐Jin Choi, Bongsik Choi, Jinsu Yoon, Sungho Kim, Hee‐Dong Kim, Ju-Hee Lee, Haewook Han, Dong Myong Kim, Dae Hwan Kim and Jieun Lee and has published in prestigious journals such as ACS Nano, Applied Physics Letters and Scientific Reports.

In The Last Decade

Meehyun Lim

22 papers receiving 901 citations

Peers — A (Enhanced Table)

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

Name h Career Trend Papers Cites
Meehyun Lim South Korea 15 681 345 236 197 124 23 920
Farshid Raissi Iran 17 763 1.1× 438 1.3× 93 0.4× 76 0.4× 263 2.1× 75 1.1k
Myungsoo Kim United States 11 963 1.4× 224 0.6× 159 0.7× 160 0.8× 739 6.0× 13 1.3k
Jian‐Min Yan China 18 716 1.1× 204 0.6× 200 0.8× 145 0.7× 491 4.0× 64 1.2k
Shuchao Qin China 18 759 1.1× 223 0.6× 176 0.7× 228 1.2× 610 4.9× 45 1.1k
Yang Ming Fu China 15 752 1.1× 263 0.8× 369 1.6× 209 1.1× 142 1.1× 22 923
Zhenhan Zhang China 9 792 1.2× 133 0.4× 208 0.9× 129 0.7× 362 2.9× 22 967
Bongsik Choi South Korea 15 721 1.1× 450 1.3× 220 0.9× 202 1.0× 223 1.8× 35 1.1k
Ling Qin China 15 537 0.8× 568 1.6× 347 1.5× 65 0.3× 107 0.9× 62 1.1k

Countries citing papers authored by Meehyun Lim

Since Specialization
Citations

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

Fields of papers citing papers by Meehyun Lim

Since Specialization
Physical SciencesHealth SciencesLife SciencesSocial Sciences

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

Co-authorship network of co-authors of Meehyun Lim

This figure shows the co-authorship network connecting the top 25 collaborators of Meehyun Lim. A scholar is included among the top collaborators of Meehyun Lim 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 Meehyun Lim. Meehyun Lim 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, Hanbin, Dong Myong Kim, Dae Hwan Kim, et al.. (2024). Simulation of a randomly percolated CNT network for an improved analog physical unclonable function. Scientific Reports. 14(1). 8811–8811. 1 indexed citations
2.
3.
Yoon, Jinsu, Jun Tae Jang, Jieun Lee, et al.. (2018). Hybrid complementary inverter based on carbon nanotube and IGZO thin-film transistors with controlled process conditions. Journal of Alloys and Compounds. 762. 456–462. 14 indexed citations
4.
Kim, Sungho, et al.. (2018). Impact of Synaptic Device Variations on Pattern Recognition Accuracy in a Hardware Neural Network. Scientific Reports. 8(1). 2638–2638. 74 indexed citations
5.
Kim, Sungho, et al.. (2018). Synaptic Device Network Architecture with Feature Extraction for Unsupervised Image Classification. Small. 14(32). e1800521–e1800521. 22 indexed citations
6.
Lee, Yongwoo, Jungmin Han, Bongsik Choi, et al.. (2018). Three-Dimensionally Printed Micro-electromechanical Switches. ACS Applied Materials & Interfaces. 10(18). 15841–15846. 14 indexed citations
7.
Yoon, Jinsu, Meehyun Lim, Bongsik Choi, et al.. (2017). Determination of individual contact interfaces in carbon nanotube network-based transistors. Scientific Reports. 7(1). 5453–5453. 8 indexed citations
8.
Lee, Jieun, Meehyun Lim, Jinsu Yoon, et al.. (2017). Transparent, Flexible Strain Sensor Based on a Solution-Processed Carbon Nanotube Network. ACS Applied Materials & Interfaces. 9(31). 26279–26285. 149 indexed citations
9.
Kim, Sungho, Bongsik Choi, Meehyun Lim, et al.. (2017). Pattern Recognition Using Carbon Nanotube Synaptic Transistors with an Adjustable Weight Update Protocol. ACS Nano. 11(3). 2814–2822. 297 indexed citations
10.
Lim, Meehyun, Jieun Lee, Dae Hwan Kim, et al.. (2016). Comparative study of piezoresistance effect of semiconducting carbon nanotube-Polydimethylsiloxane nanocomposite strain sensor. 755–758. 2 indexed citations
11.
Lee, Dong Il, Byung-Hyun Lee, Jinsu Yoon, et al.. (2016). Three-Dimensional Fin-Structured Semiconducting Carbon Nanotube Network Transistor. ACS Nano. 10(12). 10894–10900. 18 indexed citations
12.
Park, Hong‐Kyu, Edward P. J. Parrott, Fan Fan, et al.. (2012). Evaluating liquid crystal properties for use in terahertz devices. Optics Express. 20(11). 11899–11899. 83 indexed citations
13.
Park, Hong‐Kyu, Kiwon Moon, Meehyun Lim, et al.. (2012). THz Time-Domain Spectroscopic Imaging of Human Articular Cartilage. Journal of Infrared Millimeter and Terahertz Waves. 33(6). 593–598. 10 indexed citations
14.
Moon, Kiwon, et al.. (2012). Quantitative coherent scattering spectra in apertureless terahertz pulse near-field microscopes. Applied Physics Letters. 101(1). 32 indexed citations
15.
Choi, Hyuck Jae, Meehyun Lim, Hong‐Kyu Park, et al.. (2012). Quantitative analysis of water distribution in human articular cartilage using terahertz time-domain spectroscopy. Biomedical Optics Express. 3(5). 1110–1110. 20 indexed citations
16.
Lim, Meehyun, et al.. (2012). Terahertz time-domain spectroscopy of anisotropic complex conductivity tensors in silicon nanowire films. Applied Physics Letters. 100(21). 10 indexed citations
17.
Moon, Kiwon, et al.. (2011). Quantitative analysis and measurements of near-field interactions in terahertz microscopes. Optics Express. 19(12). 11539–11539. 18 indexed citations
18.
Lim, Meehyun, et al.. (2011). Terahertz Pulse Imaging of Micro-metastatic Lymph Nodes in Early-stage Cervical Cancer Patients. Journal of the Optical Society of Korea. 15(2). 155–160. 38 indexed citations
19.
Park, Hong‐Kyu, Fan Fan, Meehyun Lim, et al.. (2011). Terahertz properties of liquid crystals. Rare & Special e-Zone (The Hong Kong University of Science and Technology). 1–3. 2 indexed citations
20.
Moon, Kiwon, et al.. (2011). Terahertz Near-Field Microscope: Analysis and Measurements of Scattering Signals. IEEE Transactions on Terahertz Science and Technology. 1(1). 164–168. 18 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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