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I) Publications
1. Laser-Induced Graphene-Based Flexible Electrodes for Advanced Electrochemical Performance (ACS Applied Nano Materials, 2025, V.B. Nam*, P.G. Le, J. Lee)
(Front Cover) (Highlighted in ME KAIST: https://me.kaist.ac.kr/news/news_020100.html?bmain=view&uid=1006)
2. Recycling of Nanomaterial Ink Waste for Laser Digital Patterning Process (ACS Sustainable Chemistry & Engineering, 2024, V.B. Nam, D. Lee*)
3. Highly transparent and low-voltage-driven soft actuators fabricated by laser digital patterning (Optics & Laser Technology, 2024, V.B. Nam, D. Lee*, This paper was the hardest and took the most time )
4. Room-Temperature-Processable Highly Reliable Resistive Switching Memory with Reconfigurability for Neuromorphic Computing and Ultrasonic Tissue Classification (Advanced Functional Materials, 2023, V.B. Nam 9th, D. Lee*)
(Front Cover)
5. High-temperature, thin, flexible and transparent Ni-based heaters patterned by laser-induced reductive sintering on colorless polyimide (Journal of Materials Chemistry C, 2021, V.B. Nam, D. Lee*)
(Selected as J.Mater.Chem. C Lunar New Year collection 2022 (collection of the top 50 most popular articles published in Journal of Materials Chemistry C in 2021 by corresponding authors based in Asia.)
6. Laser Digital Patterning of Finely-Structured Flexible Copper Electrodes using Copper Oxide Nanoparticle Ink Produced by a Scalable Synthesis Method (Applied Surface Science, 2021, V.B. Nam, D. Lee*)
7. Evaluation of Ni-Based Flexible Resistance Temperature Detectors Fabricated by Laser Digital Pattering (Nanomaterials, 2021, V.B. Nam, D. Lee*, Sometimes I wish I could be submitted that paper to a better journal)
8. Laser Digital Patterning of Conductive Electrodes using Metal Oxide Nanomaterials (Nano convergence, 2020, V.B.Nam, J. Rho*, D. Lee*----This paper is worth to read)
9. Sensitive Wearable Temperature Sensor with Seamless Monolithic Integration (Advanced Materials, 2020, V.B. Nam 4th, D. Le*, S. Ko*)
(Front Cover, Most Citetation)
10. Highly Stable Ni-Based Flexible Transparent Conducting Panels Fabricated by Laser Digital Patterning (Advanced Functional Materials, 2019, V.B.Nam, J. Shin... D. Lee*)
(Highlighted in https://www.youtube.com/watch?v=sXQdrcZLHVg; https://www.dongascience.com/news.php?idx=26619; https://www.yna.co.kr/view/AKR20190131179200017?input=1195m; https://www.fnnews.com/news/201901311324438252; https://www.arirang.com/Tv2/TVCommon_NoStaff_Archive.asp?PROG_CODE=TVCR0847&MENU_CODE=102630&view_seq=31053&Page=1&sys_lang=Eng)
11. Flexible Ni/NiOx-Based Sensor for Human Breath Detection (Materials, 2021, Co-first V.B.Nam, D. Lee*, I wish I should be the Coresponding author for this paper)
12. Copper Nanowires and Their Applications for Flexible, Transparent Conducting Films: A Review (Nanomaterials, 2016, V.B. Nam, D. Lee*, the first paper in the PhD time)
13. Layered structure in core–shell silicon nanowires (Journal of Luminescence, 2014, V.B. Nam 4th, P.T. Huy, the first achivement started from the undergraduated student)
14. Magnetic and electric properties of stoichiometric BiMnO3 thin films (Nanoscale Research Letters, 2015, V.B.Nam 3rd, I should be the name in the much better paper for my effort instead of this one)
II) Patent Applications
II) Patent Applications
1.D. Lee, V. B. Nam, “Metal oxide nanoparticle ink composition, method of producing same, and method of forming conductive layer pattern using same”, US Patent Registered, US10999934B2, granted on May 4, 2021
2. 이대호, 부빈남 (V.B. Nam), "Metal oxide nanoparticle ink, method for production of metal oxide nanoparticle ink, and method for fabricating conductive layer patterns using metal oxide nanoparticle Ink (금속산화물 나노입자 잉크 조성물, 금속산화물 나노입자 잉크 조성물의 제조 방법 및 금속산화물 나노입자 잉크 조성물을 이용한 도전층 패턴 형성 방법), Domestic Patent (Application number: 10-2018-0044865, Registration No.:10-2092163 (date: 2020.03.17) )
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