Publications

Papers

  *Corresponding author

[61] Min Choi11st, Tae Yeon Kim11st, Jung Chun Kim, Jiung Cho, Hionsuck Baik, Su Jin Kim, Gwang Hwi An, Jae Woo Lee*, and Hyun Seok Lee*,"Beyond Conventional Silicides in CMOS: Silicon-Conserving Metal Contacts for Advanced Nanotransistor", submitted (2025)

[60] Tae Yeon Kim1st , Min Choi1st, Jeong-Ho An , Sung-In Mo , Ji-Eun Hong , Jung Chun Kim, Joon-Ho Oh*, Jae Woo Lee *, Ka-Hyun Kim*, and Hyun Seok Lee *, "Engineering Diffusion Pathways in Nanoporous Epitaxial Si for CMOS-Compatible Ni Silicide Contacts with Reduced Resistance", submitted (2025)

[59] Jung Ho Kim, Tae Yeon Kim, Min Choi, Hye Yun Jeong, Young Hee Lee, and Hyun Seok Lee*, "Excitonic emission modulation in GaSe/MoS2 van der Waals heterostructure via plasmonic control of interlayer charge transfer", Adv. Funct. Mater. 35, 2500263 (2025) [Link]

[58] H. C. Gao, P. Singh , C. Seo , F. Ruli, Y. S. Lee, D. S. Razaq, G. H. An, Y. S. Oh, C. J. Won, S.-W. Cheong, D. H. Kim , H. S. Lee, J. Bang, and K. W. Kim*, "Charge ordered phases in IrTe2 revealed by coherent phonon spectroscopy", Phys. Rev. B 110, 245119 (2024)[Link]

[57] Dohyun Kim* , Min Choi, Tae Yeon Kim, Il-Gyu Choi , Sung-Jae Chang, Hyun-Wook Jung, Ho-Kyun Ahn, and Hyun Seok Lee,"Investigation of NiSi Contacts on n-Type Gallium Nitride Using Low-Temperature Annealing", Appl. Sci. Converg. Technol. 33 (5); 148-151 (2024) [Link]

[56] Dohyun Kim* ,Hyun-Wook Jung, Sung-Jae Chang, Il-Gyu Choi, Ho-Kyun Ahn,and Hyun Seok Lee,"Investigation of In Situ NH3 and N2O Plasma Treatment on AlGaN/GaN High Electron Mobility Transistors ", Appl. Sci. Converg. Technol. 33 (5); 152-155 (2024)[Link]

[55] Prashant Vijay Gaikwad, Ikhwan Nur Rahman, Gwang Hwi An, Su Jin Kim, Anabil Gayen, Thu-Thuy Hoang, Sungjin Park, Kyungwan Kim*, Dong-Hyun Kim*, Hyun Seok Lee*, and Junhyeok Bang*,"Abnormal Raman Scattering in Hexagonal FeTe by Symmetry Breaking", J. Phys. Chem. C 128, 18872−18878 (2024)[Link]

[54]Min-Gi Jeon, Gwang Hwi An, Artavazd Kirakosyan, Subin Yun, Joonseok Kim, Chang-YeonKim, Hyun Seok Lee*, and Jihoon Choi*, "Suppressed Thermal Quenching via Tetrafluoroborate-Induced Surface Reconstruction of CsPbBr3 Nanocrystals for Efficient Perovskite Light-Emitting Diodes” ACS Nano 18,29078−29088 (2024)[Link]

[53] Jidong Jin, Kumin Kang, Zhenyuan Xiao, Jiawei Zhang, Tae Yeon Kim, Hyun Seok Lee*, and Jaekyun Kim*"Improved Process Stability and Light Detection in Phototransistors via Inverted MoS2/a-IGZO Heterojunction Integration" Physica. Status Solidi A 2400536 (2024)  [Link]

[52] R. P. Putra, J. Y. Oh, G. H. An, I. N. Rahman, H. S. Lee, and B. Kang* "Raman Spectroscopy Investigation of Phonon Behavior in ZnO-Buffered MgB2 Tapes: Exploring Lattice Dynamics and Anharmonicity", J. Phys, Chem. Lett. 15,8924(2024) [Link]

[51] Anabil Gayen, Gwang Hwi An, Ikhwan Nur Rahman, Min Choi, Qoimatul Mustaghfiroh, Prashant Vijay Gaikwad, Evan S. H. Kang, Kyoung-Ho Kim, Chuyang Liu,c Kyungwan Kim, * Junhyeok Bang,* Hyun Seok Lee * and Dong-Hyun Kim*"Polarized Raman spectroscopy study of CVD-grown Cr2S3 flakes: unambiguous identification of phonon modes" Nanoscale 16, 17452–17462(2024)  [Link]

[50] R. P. Putra, J. Y. Oh, G. H. An, H. S. Lee, and B. Kang*, "Investigation on the phonon behavior of MgB2 films via polarized Raman spectra", Progress in Superconductivity and Cryogenics. 26,14  (2024)[Link] 

[49] Yunxiu Zhao, Anabil Gayen, Lin Huang, Xiao You, Nguyen Le Thi, Qoimatul Mustaghfiroh, Fathiya Rahmani, Prashant Vijay Gaikwad, Pham Duc Huyen Yen, Je-Ho Shim, Dong Eon Kim, Hee Jun Shin, Jaehun Park, Caihua Wan, Ou Xiang, Hong-Guang Piao, Kyung-Ho Kim, Junhyeok Bang, Hyun Seok Lee, Kyung Wan Kim*, and  Dong-Hyun Kim*, "Quantifying Spin-Charge Conversion Mechanisms for THzEmission in Magnetic Multilayers" Adv. Opt. Mater. 16, 2302571 (2024)[Link]

[48] Mingu Kang, Su Jin Kim, Huitae Joo, Yeonjeong Koo, Hyeongwoo Lee, Hyun Seok Lee*, Yung Doug Suh*, and Kyoung-Duck Park*,"Nanoscale manipulation of exciton-trion interconversion in a MoSe2 monolayer via tip-enhanced cavity-spectroscopy", Nano Lett. 24, 279, (2023)[Link]

[47] Taeyeon Kim and Hyun Seok Lee*, "Growth Control of CVD-grown WS2 Monolayers via O2 Plasma Pre-treatment of Liquid Precursor Coatings" New Phys.: Sae Mulli 73, 893-899, (2023) [Link]

[46] Jung Ho Kim, Jubok Lee, Changwon Seo, Gang Hee Han, Byeong Wook Cho, Jeongyong Kim, Young Hee Lee, and Hyun Seok Lee*, "Polymer-waveguides-integrated 2D semiconductor heterostructures for optical communications", Nano Lett., 23,11019-11025 (2023) [Link]

[45] Yae Zy Kang,  Gwang Hwi An,  Min-Gi Jeon,  So Jeong Shin,  Su Jin Kim, Min Choi,  Jae Baek Lee, Tae Yeon Kim, Ikhwan Nur Rahman, Hyun Young Seo, Seyoung Oh, Byungjin Cho, Jihoon Choi*, and  Hyun Seok Lee*,  "Increased mobility and reduced hysteresis of MoS2  field-effect transistors via direct surface precipitation of CsPbBr3-nanoclusters for charge transfer doping", Nano Lett. 23, 8914–8922, (2023) [Link]

[44] Su Jin Kim, Gwang Hwi An, Min Choi, Yae Zy Kang, Tae Yeon Kim, Ikhwan Nur Rahman, Junhyeok Bang, Kyung Wan Kim, Dong-Hyun Kim, and Hyun Seok Lee*,"Crystal violet as CMOS-compatible alkali-free promoter for CVD growth of MoSe2 monolayers: Comparative surface analysis with alkali-based promoter", Curr. Appl. Phys. 48, 106 (2023) [Link]

[43] Jungchun Kim, Gwang Hwi An, Seain Bang, Dong Geun Park, Donghyun Kim, Seunghee Jin, Min Jung Kim, Hyun Seok Lee*, and Jae Woo Lee*, "Comparative analysis of Schottky barriers for heterogeneous defect domains in monolayer WS2 field-effect transistors", Appl. Surf. Sci. 604,154600 (2022)[Link]

[42] Lin Huang, Yunxiu Zhao, Nguyen Le Thi, Sang-Hyuk Lee, Zhi Peng, Seongheun Kim, Hee Jun Shin, Jaehun Park, Hyun-Joong Kim, Jung-Il Hong, Junhyeok Bang*, Hyun Seok Lee*, Kyung Wan Kim*, and Dong-Hyun Kim*, "Observation of magnetoconductivity with terahertz probes for ferromagnetic Fe films",  Curr. Appl. Phys. 41, 81 (2022) [Link]

[41] Min Choi, Jae Woo Lee, and Hyun Seok Lee*, "Optical and electrical characterizations of volatile doping effect originated from bilayer photoresist process in MoS2 field-effect transistors",  J. Korean Phys. Soc. 81, 317 (2022) [Link]

[40] Evan S. H. Kang,* Sriram KK, Inho Jeon, Jehan Kim, Shangzhi Chen, Kyoung-Ho Kim, Ka-Hyun Kim, Hyun Seok Lee, Fredrik Westerlund, and Magnus P. Jonsson*"Organic Anisotropic Excitonic Optical Nanoantennas", Adv. Sci. 2201907 (2022) [Link]

[39] Gwang Hwi An, Su Jin Kim, Sanghyeon Kim, So Jeong Shin, Min Choi, Dohyun Kim, Ikhwan Nur Rahman,  Junhyeok Bang, Kyungwan Kim, Dong-Hyun Kim, and Hyun Seok Lee*,"Growth mode control of CVD-grown WS2 monolayer flakes via O2 pre-annealing for organic surfactant oxidation", Appl. Surf. Sci. 585, 152564 (2022)[Link]

[38] M. Choi, S. K. Kang, S. Kim, S. J. Kim, G. H. An, S. J. Shin, D. Kim, I. N. Rahman, J. Bang, K. Kim, D.-H. Kim, and H. S. Lee*, "Mo nitrides and carbonitrides via metallic phase transition of MoO3 films using ammonium salt precursors in chemical vapor deposition", Curr. Appl. Phys., 34, 1 (2022) [Link]

[37] J. H. Kim, J. Lee, S. Park, C. Seo, S. J. Yun, G. H. Hane, J. Kim, Y. H. Lee, and H. S. Lee*, "Locally enhanced light–matter interaction of MoS2 monolayers at density-controllable nanogrooves of template-stripped Ag films", Curr. Appl. Phys., 33, 59 (2022) [Link]

[36] K.-H.Kim, J. Lee, E.S.H. Kang, D.-H. Kim, and H. S. Lee*,"Gap plasmon modes resolved by ultraflat nanogap and linear polarization in terrace-stepped hexagonal boron nitride spacer sandwiched by Ag nanowire and metal substrates", Curr. Appl. Phys., 31,16 (2021) [Link]

[35] S. Kim and H. S. Lee*, "Reduction of Water-soluble Nitrate ion in dust Using Alternative Compound Fuels in Fine-dust-reduction Cement Process", New Phys.: Sae Mulli, 71, 117 (2021)[Link]

[34] Y. Koo, Y. Kim, S. H. Choi, H. Lee, J. Choi, D. Y. Lee, M. Kang, H. S. Lee, K. K. Kim, G. Lee, K.-D. Park*, "Tip-induced nano-engineering of strain, bandgap, and exciton dynamics in 2D semiconductors", Adv. Mater., 33, 2008234 (2021) [Link]

[33]S. Roy,  M.‑H. Doan, J. Kim*,  S. K. Kang, G. H. An, H. S. Lee, and Seok Joon Yun, "Modulation of optoelectric properties of monolayer transition metal dichalcogenides placed on a metal pattern", J. Korean Phys. Soc., 16, 2003326 (2021)  [Link]

[32] J. Lee, S. J. Yun, C. Seo, K. Cho, T. S. Kim, G. H. An, K. Kang, H. S. Lee, and J. Kim*,"Switchable, Tunable, and Directable Exciton Funneling in Periodically Wrinkled WS2", Nano Lett. 21,43 (2021)  [Link]

[31] S. C. Jang, J.-M. Park, H.-D. Kim, H. S. Lee*, and H.-S. Kim*,"The Effect of Microwave Annealing Time on the Electrical Characteristics for InGaZnO Thin-Film Transistors", Korean J. Mater. Res. 30,615(2020) [Link]

[30] G. H. An1st, S. J. Yoon1st, Y. H. Lee*, H. S. Lee*,"Growth mechanism of alternating defect domains in hexagonal WS2 via inhomogeneous W-precursor accumulation", Small, 16, 2003326 (2020) [Link]

[29]  J. H. Kim, H. S. Lee*, G. H. An, J. Lee, H. M. Oh, J. Choi, and Y. H. Lee, “Dielectric Nanowire Hybrids for Plasmon-Enhanced Light-Matter Interaction in 2D Semiconductors”, ACS Nano, 14,11985 (2020) [Link]

[28]  S.-J. Shin and H. S. Lee*, “Projection photolithography for microscale patterning and 2D field-effect transistor demonstration”, New Physics: Sae Mulli, 70, 715 (2020) [Highlight Article] [Link]

[27] S. K. Kang and H.S.Lee*,“Study on Growth Parameters for Monolayer MoS2 Synthesized by CVD Using Solution-based Metal Precursors”, Appl. Sci. Converg. Technol. 28, 159-163 (2019) [Cover Image] [Link]

[26] M. R.Sihn, S.Yun, A. Kirakosy, M.-G. Jeon, H.S.Lee*, and J. Choi*, "Cu ion-induced photoluminescence quenching of methylammonium lead bromide nanocrystals", J. Photoch. Photobio. A, 384, 112041(2019) [Link]

[25] J. H. Kim, J. Lee, H. Kim, S. J. Yun, J. Kim, H.S.Lee*, and Y. H. Lee*, "Optical logic operation via plasmon-exciton interconversion in 2D semiconductors", Sci. Rep. 9, 9164 (2019) [Link]

[24] S. J. Kim and H.S.Lee*, "Dependence of the Selective Doping Effects of Heterogeneous Defect Domains in Hexagonal-WS2 on Wet-Transfer Methods", New Phys.: Sae Mulli,69,601(2019) [Link]

[23] M. Yoo, S. Miyeon, S. So, H.S.Lee, and C. Lee*, "Study on the Temperature Distribution Analysis Using Near Located H2O Absorption Signals", Nanosci. Nanotech. Lett., 10, 1058(2018) [Link]

[22] D. H. Luong, H.S.Lee*, G. Ghimire, J. Lee, H. Kim, S. J. Yun, G. H. An, and Y. H. Lee*, "Enhanced Light–Matter Interactions in Self-Assembled Plasmonic Nanoparticles on 2D Semiconductors", Small,14, 1802949 (2018) [Link]

[21] K. K. Kim*, H.S.Lee*, and Y. H. Lee*, "Synthesis of Hexagonal Boron Nitride Heterostructures for 2D van der Waals Electronics", Chem. Soc. Rev. 47,6342(2018) [Link]

[20] J. H. Kim, S. J. Yun, H.S.Lee, J. Zhao, H. Bouzid, and Y. H. Lee*, "Plasma-Induced Phase Transformation of SnS2 to SnS", Sci. Rep. 8,10284(2018) [Link]

[19] D. H. Luong1st, H.S.Lee1st*, G. P. Neupane, S. Roy, G. Ghimire, J. H. Lee, Q. A. Vu, and Y. H. Lee*, "Tunneling photocurrent assisted by interlayer excitons in staggered van der Waals heterobilayers", Adv. Mater. 29, 1701512 (2017)  [Link]

[18] H. Y. Jeong1st, Y. Jin1st, S. J. Yun, J. Zhao, J. Baik, D. H. Keum, H.S.Lee*, and Y. H. Lee*, "Heterogeneous defect domains in single-crystalline hexagonal WS2", Adv. Mater. 29, 1605043 (2017) [Link]

[17]  H. S. Lee*, D. H. Luong, M. S. Kim, Y. Jin, H. Kim, S. Yun, and Y. H. Lee*, "Reconfigurable exciton-plasmon interconversion for nanophotonic circuits", Nat. Commun. 7, 13663 (2016) [Media][Movie] [Link]

[16] H.S.Lee*, M. S. Kim, H. Kim, and Y. H. Lee*, “Identifying multiexcitons in MoS2 monolayers at room temperature”, Phys. Rev. B: Rapid Communications 93, 140409 (2016)  [Link]

[15] Y. Jin, D. H. Keum, S.-J. An, J. Kim, H.S.Lee*, and Y. H. Lee*, “Van der Waals homojunction: Ideal p-n diode behavior in MoSe2”, Adv. Mater. 27, 5534(2015)  [Link]

[14] H. S. Lee*, M. S. Kim, Y. Jin, G. H. Han, Y. H. Lee*, and J. Kim*,“Selective amplification of the primary exciton in a MoS2 monolayer”, Phys. Rev. Lett. 115, 226801(2015)  [Link]

[13] H. S. Lee, M. S. Kim, Y. Jin, G. H. Han, Y. H. Lee, and J. Kim*,“Efficient Exciton–Plasmon Conversion in Ag Nanowire/Monolayer MoS2 Hybrids: Direct Imaging and Quantitative Estimation of Plasmon Coupling and Propagation”, Adv. Opt. Mater. 3, 943(2015) [Link]

[12] H. S. Lee, C.i Awada, S. Boutami, F. Charra, L. Douillard, R. Espiau de Lamaestre, “Loss mechanisms of surface plasmon polaritons propagating on a smooth polycrystalline Cu surface”, Opt. Express. 20, 8974(2012)

[11] T.- D. Kang, A. Sirenko, J.-W. Park, H. S. Lee, S. Lee, J.-h. Jeong, B.-k. Cheong and H. Lee, “Investigation of the structural and optical Properties of Ge-doped SbTe films with various Sb:Te ratios”, J. Electrochem. Soc., 158, H249 (2011) 

[10] Y.-w. Park, H. S. Lee, H. W. Ahn, Z. Wu, S. Lee, J.-h. Jeong, D. S. Jeong, K.-w. Yi, and B.-k. Cheong, “The effect of Ge addition on the RESET operation of a phase-change memory (PCM) device using Ge-doped SbTe”, Curr. Appl. Phys., 10, e79 (2010). 

[9] D. Lee, D. Kang, M.-H. Kwon, H.-G. Jun, K.-B. Kim, H.-K. Lye, H. S. Lee and B.-k. Cheong, “Enhanced thermal efficiency for amorphization in nano-structured Ge2Sb2Te5–TiOx films”, Curr. Appl. Phys., 10, e83 (2010). 

[8] J. Choi, H. S. Lee, T. S. Lee, S. Lee, W. M. Kim, D. Kim, and B.-k. Cheong, “Investigation on the role of nitrogen in crystallization of Sb-rich phase change materials”, Appl. Phys. Lett., 95, 081905 (2009). 

[7] J.-h. Jeong, H. S. Lee, S. Lee, T. S. Lee, W. M. Kim, Wu Zhe, S. C. Kim, K. H. Oh and B.-k. Cheong, “Crystallization and memory programming characteristics of Ge-doped SbTe materials of varying Sb:Te ratio”, J. Phys. D, 42, 035104 (2009). 

[6] H. S. Lee, T. S. Lee, Y. Lee, J. Kim, S. Lee, J.-Y. Huh, D. Kim, and B.-k. Cheong, “Microstructural and optical analysis of superresolution phenomena due to Ge2Sb2Te5 thin films at blue light regime”, Appl. Phys. Lett., 93, 221108 (2008). 

[5] H. S. Lee, B.-k. Cheong, T. S. Lee, J.-h. Jeong, S. Lee, W. M. Kim, and D. Kim, “Origin of nonlinear optical characteristics of crystalline Ge-Sb-Te thin films for possible superresolution effects”, Jpn. J. Appl. Phys., 46, L277 (2007). 

[4] H. S. Lee, T. S. Lee, J.-h. Jeong, S. Lee, W. M. Kim, and B.-k. Cheong, “A real time electrical-optical characterization of PbTe thin film material for superresolution optical memory”, Electron. Mater. Lett., 3, 13, (2007). 

[3] T. S. Lee, H. S. Lee, B.-k. Cheong, J.-h. Jeong, D.-H. Kang, Wu Zhe, W. M. Kim, D. Kim, and K. Cho, “Toward understanding the mechanism of nonlinear optical characteristics of PbTe thin film for nano-optical memory”, J. Nanosci. Nanotechnol., 7, 293 (2007). 

[2] H. S. Lee, B.-k. Cheong, T. S. Lee, K. Seok Lee, and W. M. Kim, and J. Y. Huh, “A semiconducting thermooptic material for potential application to super-resolution optical data storage”, Surf. Coat. Tech., 193, 335(2005). 

[1] H. S. Lee, B.-k. Cheong, T. S. Lee, K. S. Lee, and W. M. Kim, J. W. Lee and S. H. Cho, and J. Y. Huh, "Thermoelectric PbTe thin film for superresolution optical data storage", Appl. Phys. Lett., 45,2782(2004). 

Patents

KR 10-2024-0076611 (2024.06.12출원)

US18/984,064 (2024.12.17 출원)

"반데르발스갭 산화물을 이용한 저항성 스위칭 메모리 소자개발"

"VARIABLE RESISTANCE MEMORY DEVICE"

최민, 이현석

KR 10-2024-0076612 (2024.06.12출원) 

US 18/990,103 (2024.12.20 출원)

"반도체 소자 및 그 제조방법"

"SEMICONDUCTOR DEVICE AND METHOD OF MANUFACTURING THE SAME"

이현석, 김수진, 김태연, 안광휘, 최민

등록번호 : 10-2771425 (2025.02.18.)

출원번호 10-2022-0036470 (2022.03.24)

"고온 발생을 위한 마이크로 히터 및 그의 제작 방법"

신현준, 이현석, 김동현, 김태연, 이재백, 장한솔, 김건휘, 곽호재

출원번호 10-2022-0007467 (2022.01.18)

"콘택 구조의 형성 방법, 반도체 소자의 제조방법, 콘택 구조 및 이를 포함하는 반도체 소자"

김가현, 이현석, 이재우, 오준호

출원번호: 10-2021-0088293 (2021.07.06)

"반도체 소자의 제조방법"

이현석, 강선경, 김수진

등록번호:10-2499815(2023.02.09)

"시냅스 소자"

이현석, 이재우, 김현석, 박지민

출원번호: 10-2020-0076800 (2020. 06.23)

"다공성 실리콘층과 실리사이드층을 구비하는 반도체 컨택 구조물 및 이를 포함하는 반도체 소자"

이현석, 김가현, 이재우

US10712479 (July 14, 2020 registration)

KR101835202 (Feb. 27, 2018 registration)

"Wavelength multiplexing device"

H.S. Lee, Y.H. Lee 

US9455290 (Sep. 27, 2016 registration)

"Image sensor including a photonic crystal, an operating method thereof, and a data processing system including the image sensor”

H.J. Jin, H.S. Lee, T.C.Kim

US9142577 B2 (Sep.22, 2015 registration)

“Photodetector and image sensor including the same”

H.S. Lee, J.K. Jung, Y.D. Park, T.Y. Lee

US9294702 B2 (Mar. 22, 2016 registration)

CN103855110 A (Jun. 11, 2014 registration)

“Image sensors for performing thermal reset, methods thereof, and devices including the same” 

T. Y. Lee, J. K. Jung, Y. D. Park, H. S. Lee

KR100930079 (Nov. 27, 2009 registration)

US7940637 B2 (May 10, 2011 registration)

 “An optical recording media having super-resolution structure for improvement of reproducing stability and characteristic of noise in low band”

W. Hwang, J. Kim, J. Kim, T.-S. Lee, B.-K. Cheong, H. S. Lee, S. Lee, W.-M. Kim, J.-h. Jeong

KR100928197 (Nov. 17, 2009 registration)

US 7906195 (Mar. 15, 2011 registration)

“Super-resolution material and high density optical information storage medium using same”

B.-K. Cheong, T.S. Lee, H. S. Lee, J.-h. Jeong, S. Lee, W.-M.Kim

KR100597992 (Jun. 30, 2006 registration)

US7758941 (Jul. 20, 2010 registration)

“Optical data storage medium with super resolution layer”

B.-K. Cheong, H. S Lee, T. S. Lee, W.-M. Kim, K.-S. Lee, J.-W. Lee, S.-H. Cho