- read this article : http://thoughts.chkwon.net/phd-students/
- read this article : http://www-verimag.imag.fr/~plafourc/DIVERS/sample_letter.pdf
• Degree: Ph.D. Candidate in Department of Future Convergence Engineering, College of Engineering, Kongju National University
Ph.D Exchange Student in Department of Mechanical and Materials Engineering, College of Engineering, University of Nebraska-Lincoln, NE, U.S.A, 2023~2025
M.S & B.S. in Department of Mechanical and Automotive Engineering, College of Engineering, Kongju National University
• E-mail: syjvlfry1004@gmail.com
• Research Interest: My primary research interest is Laser Aided Manufacturing (LAM) on composite materials. My recent research focuses on the applicability of laser processing to composite materials such as concrete and rock. I am investigating 1) the mechanism of the composite materials through the interaction of the composite material and the laser, 2) the physical and chemical changes of the composites during laser-composite interaction.
• Homepage: https://sites.google.com/view/syj1109
• Degree: Ph.D. Candidate in Department of Future Convergence Engineering, College of Engineering, Kongju National University
M.S. in Future Convergence Engineering, College of Engineering, Kongju National University
B.S. in Department of Mechanical and Automotive Engineering, College of Engineering, Kongju National University
• E-mail: thstmddlr23@gmail.com
• Research Interest: My research interest is the improvement of laser processing by using various optical elements. Recently, my research focused on laser drilling with various methods. I investigated 1) the mechanism of laser drilling with a trepanning head, 2) the effect of the laser drilling with various patterns, ie) Spiral, Circle, and hatch formation which is set by the Galvano metric scanner.
• Homepage: https://sites.google.com/view/ssi0579/
• Degree: Ph.D. Candidate in Department of Future Convergence Engineering, College of Engineering, Kongju National University
Ph.D Exchange Student in Department of Mechanical and Materials Engineering, College of Engineering, University of Nebraska-Lincoln, NE, U.S.A, 2024~2025
M.S. in Future Convergence Engineering, College of Engineering, Kongju National University
M.S. Exchange Student in Department of Mechanical and Materials Engineering, College of Engineering, University of Nebraska-Lincoln, NE, U.S.A, 2023
B.S. in Department of Mechanical and Automotive Engineering, College of Engineering, Kongju National University
• E-mail: qortmddms12@gmail.com
• Research Interest: My research area involves the development of manufacturing technologies through physical and chemical modification of materials using lasers. My recent research interests include using lasers to create 1) functional surfaces, 2) microchannels, and 3) high aspect ratio holes.
• Homepage: https://sites.google.com/view/seb98
• Degree: Ph.D. Candidate in Department of Future Convergence Engineering, College of Engineering, Kongju National University
Ph.D Exchange Student in Department of Mechanical and Materials Engineering, College of Engineering, University of Nebraska-Lincoln, NE, U.S.A, 2025~2026
M.S. in Future Convergence Engineering, College of Engineering, Kongju National University
B.S. in Department of Mechanical and Automotive Engineering, College of Engineering, Kongju National University
• E-mail: myeongho0203@gmail.com
• Research Interest: Research interest: My research interest is to investigate interaction between laser and materials. My recent research is to investigate 1) ablation characteristics of nanosecond laser and LFP (LiFePO4) according to the change of relative humidity, 2) ablation characteristics of nanosecond laser and HEA (High Entropy Alloy)
• Homepage: https://sites.google.com/view/parkmyeongho
• Degree: M.S. Candidate in Future Convergence Engineering, College of Engineering, Kongju National University
B.Sc. in Department of Metallurgical Engineering, College of Engineering, Kwame Nkrumah University of Science and Technology
• E-mail: sammycrankson@gmail.com
• Research Interest: My research focuses on experimental and numerical simulation studies of laser micro-drilling on stainless steel and laser concrete scabbling.
• Homepage: https://sites.google.com/view/crankson
• Degree: M.S. Candidate in Future Convergence Engineering, College of Engineering, Kongju National University
B.S. in Department of Mechanical and Automotive Engineering, College of Engineering, Kongju National University
• E-mail: aen010820@gmail.com
• Research Interest: My research focuses on laser-based micro-drilling of advanced materials for semiconductor and energy applications. My research interests include 1) fabrication of microchannels, 2) generation of high aspect ratio holes, and 3) investigation of the effects of various laser wavelengths (IR and UV) on material processing.
• Homepage: https://sites.google.com/view/kim-dongkyu
• Degree: M.S. Candidate in Future Convergence Engineering, College of Engineering, Kongju National University
B.S. in Department of Mechanical and Production Engineering, Ahsanullah University of Science and Technology (AUST)
• E-mail: efazmahdi007@gmail.com
• Research Interest :
• Homepage: https://sites.google.com/view/efazmahdi007
• Degree: B.S. Candidate in Department of Mechanical and Automotive Engineering, College of Engineering, Kongju National University
• E-mail: mingyu20th@gmail.com
• Research Interest: My research focuses on the laser welding of high-entropy alloys (HEAs) for advanced structural applications. My interests include 1) establishing process-microstructure-property relationships in novel HEA systems, and 2) optimizing weldability and minimizing defects using statistical methods like Response Surface Methodology (RSM).
• Homepage: https://sites.google.com/view/mingyu20th/
• Degree: B.S. Candidate in Department of Mechanical and Automotive Engineering, College of Engineering, Kongju National University
• E-mail : hanseyoung01@gamil.com
• Research Interest: My research interest is in improving secondary battery performance using laser processing of electrodes. My specific research topics include 1) Laser-assisted 3D structuring of aqueous zinc batteries, 2) Laser structuring of dry-coated thick LFP electrodes, 3) Laser coating of PI@Cu current collectors
• Homepage: https://sites.google.com/view/hsy0322
• Degree: B.S. Candidate in Department of Mechanical and Automotive Engineering, College of Engineering, Kongju National University
• E-mail : azsx39506@gmail.com
• Research Interest: My research focuses on precise patterning of PET non-conductive films to control electroconvective vortices (ECV) at the surface of ion-exchange membranes. My specific research topics include 1) Patterning of non-conductive films using femtosecond laser processing, 2) Enhancement of ECV control through the application of patterned films.
• Homepage: https://sites.google.com/view/rlackdals/%ED%99%88
• Degree: B.S. Candidate in Department of Mechanical and Automotive Engineering, College of Engineering, Kongju National University
• E-mail: ju010521@gmail.com
• Research Interest:
• Homepage: https://sites.google.com/view/leejh20
• Degree: B.S. Candidate in Department of Mechanical and Automotive Engineering, College of Engineering, Kongju National University
• E-mail: jeungmin4239@gmail.com
• Research Interest: My research focuses on laser-based precision processing and recycling technology of secondary battery cathode materials for energy applications. This study includes 1) micro-processing through graphite removal using a laser, 2) copper removal rate analysis according to laser power, and 3) purity evaluation of residual copper after graphite removal, and through this, the possibility of high-purity copper recovery from waste battery cathode materials is explored.
• Homepage: https://sites.google.com/view/thswjdals/
• Degree: B.S. Candidate in Department of Mechanical and Automotive Engineering, College of Engineering, Kongju National University
• E-mail: yangbbng@gmail.com
• Research Interest: My research has two core objectives. Laser Drilling of Metallic GDL (Gas Diffusion Layer). Precisely create nanopores and micropores to form a porous structure. Optimize pore diameter, distribution, and density to enhance gas diffusion and current distribution. By simultaneously maximizing the physicochemical properties of both the GDL and critical components, I aim to significantly enhance the current‑density–voltage performance and durability at both single‑cell and stack levels.
• Homepage: https://sites.google.com/view/gmlgur1234
• Degree: B.S. Candidate in Department of Mechanical and Automotive Engineering, College of Engineering, Kongju National University
• E-mail: songisongi2004@gmail.com
• Research Interest:
• Homepage: https://sites.google.com/view/adallab/