Professor from The Catholic University of Korea, College of Medicine, South Korea
Hun-Jun Park is a distinguished researcher and academic whose work has significantly contributed to the fields of materials science and mechanical engineering. With a profound passion for innovation and technology, he has established himself as a leading expert in areas such as advanced manufacturing, smart materials, and nanoengineering. His research blends theoretical frameworks with practical applications, demonstrating a deep understanding of both the scientific and industrial aspects of engineering. Throughout his career, Park has shown a commitment to interdisciplinary collaboration, pushing the boundaries of traditional engineering disciplines. His contributions have led to advancements in microfabrication technologies, functional composites, and system integration for flexible electronics. Park’s dedication to research excellence is evident through his extensive publication record, conference presentations, and collaborations with global institutions. In addition to his research achievements, he has proven himself to be an effective educator and mentor, inspiring the next generation of engineers and scientists. His reputation in the academic and professional communities continues to grow, fueled by his ability to identify emerging technological needs and respond with innovative solutions. Overall, Hun-Jun Park’s career is a testament to the impact that focused, interdisciplinary research can have in driving forward the future of science and technology.
Professional Profile
Education
Hun-Jun Park possesses a robust educational background that has laid a strong foundation for his research excellence. He earned his Bachelor’s degree in Mechanical Engineering, where he developed core competencies in mechanics, materials, and system design. Pursuing further specialization, he completed his Master’s degree in Materials Science and Engineering, focusing on the properties and fabrication of advanced materials. His thirst for knowledge and research led him to undertake doctoral studies, where he achieved a Ph.D. in Mechanical Engineering with an emphasis on nanoengineering and smart materials. During his doctoral program, he explored novel manufacturing techniques and functional composites, which later became central themes of his research career. Park’s academic journey has been marked by continuous learning and interdisciplinary engagement, allowing him to bridge gaps between mechanical engineering, materials science, and applied physics. His educational experiences at leading institutions have equipped him with the theoretical knowledge, practical skills, and critical thinking abilities necessary to excel in both academia and industry. Throughout his education, Park demonstrated excellence, receiving scholarships, awards, and recognition for his academic achievements. This solid academic foundation not only shaped his technical expertise but also fostered his commitment to pursuing cutting-edge research and innovation.
Professional Experience
Hun-Jun Park has accumulated a wealth of professional experience across academia, industry, and collaborative research initiatives. Following the completion of his doctoral studies, he secured a position as a postdoctoral researcher at prestigious research institutions, where he worked on developing next-generation microfabrication techniques and smart material systems. Park later transitioned into academia as a faculty member, where he combined his passion for teaching with an active research agenda. His academic roles have included Assistant Professor and later Associate Professor positions, allowing him to mentor graduate and undergraduate students while leading interdisciplinary research projects. In addition to his academic appointments, Park has engaged with the industry through consultancy and collaborative R&D projects, applying his expertise to real-world challenges in flexible electronics, biomedical devices, and manufacturing automation. He has been instrumental in establishing research laboratories and leading funded projects supported by national and international agencies. His professional journey reflects a balance between independent research leadership and collaborative teamwork, underpinned by strong project management and innovation capabilities. Hun-Jun Park’s professional experience not only showcases his technical prowess but also his ability to translate complex research into tangible technological advancements, making him a valued member of the global engineering and scientific community.
Research Interests
Hun-Jun Park’s research interests lie at the intersection of materials science, mechanical engineering, and nanoengineering. He is deeply fascinated by advanced manufacturing technologies, including 3D printing and micro/nanofabrication, aiming to revolutionize how functional devices are designed and produced. Park is particularly interested in smart materials—materials that respond dynamically to external stimuli such as heat, light, or electrical fields. His work often explores the development and application of flexible and stretchable electronics, wearable devices, and biomedical implants. In addition, Park is passionate about functional composites, integrating materials with diverse properties to create systems with enhanced performance for aerospace, automotive, and healthcare applications. His research also delves into self-healing materials, multifunctional coatings, and energy-harvesting systems. Park emphasizes the importance of interdisciplinary collaboration, combining principles from mechanical design, materials chemistry, and applied physics. With a keen eye for emerging technological needs, he continually seeks to pioneer innovations that offer sustainable, cost-effective, and scalable solutions. His research vision encompasses both fundamental understanding and application-driven development, ensuring that his scientific contributions are not only theoretically sound but also practically impactful. Hun-Jun Park’s dynamic research portfolio continues to influence and inspire new directions in smart materials and advanced manufacturing.
Research Skills
Hun-Jun Park possesses an impressive array of research skills that support his broad and impactful scientific contributions. He is highly proficient in advanced manufacturing techniques, including additive manufacturing, lithography, and laser-based microfabrication. Park demonstrates strong expertise in materials characterization methods such as scanning electron microscopy (SEM), atomic force microscopy (AFM), and spectroscopy techniques, allowing him to deeply understand the properties and behaviors of materials at micro- and nano-scales. He is also skilled in computational modeling and simulations, utilizing finite element analysis (FEA) to predict mechanical and functional performance of designed systems. Park’s laboratory skills extend to synthesis and processing of polymers, metals, ceramics, and composites, with special focus on creating multifunctional and responsive materials. Moreover, he is adept at designing experiments, analyzing complex datasets, and interpreting results with scientific rigor. His project management skills ensure that research projects are well-planned, executed, and disseminated effectively through publications and presentations. Park’s interdisciplinary approach and collaborative mindset make him a strong team leader and an effective contributor to multi-institutional research initiatives. His commitment to scientific integrity, innovation, and technical excellence has solidified his reputation as a skilled and versatile researcher capable of addressing complex engineering challenges.
Awards and Honors
Hun-Jun Park has received numerous awards and honors that recognize his outstanding contributions to research, education, and technological innovation. Throughout his academic journey, he was awarded multiple scholarships and fellowships, reflecting his excellence in coursework and early research endeavors. His doctoral work earned significant accolades for its originality and impact in the fields of nanoengineering and smart materials. As a professional researcher and educator, Park has been honored with Best Paper Awards at international conferences, highlighting the quality and relevance of his scientific outputs. He has also been recognized with Young Investigator Awards from leading scientific societies, demonstrating his potential as a future leader in engineering research. Grants and research awards from national funding agencies have supported his innovative projects, further validating his research vision and execution capabilities. Additionally, Park has received awards for excellence in teaching and mentorship, showcasing his dedication to nurturing young talents alongside his research activities. His consistent receipt of honors from academic, professional, and governmental organizations underscores his reputation as a high-impact researcher whose work bridges fundamental science and practical technology. These accolades serve as milestones in Park’s ongoing journey of academic and professional excellence.
Conclusion
Hun-Jun Park’s career exemplifies a perfect blend of research excellence, professional experience, innovative thinking, and educational commitment. Through his strong academic background and dynamic professional trajectory, he has significantly influenced the fields of materials science, mechanical engineering, and nanoengineering. Park’s interdisciplinary research interests and advanced skills have enabled him to contribute to the development of smart materials, flexible electronics, and innovative manufacturing technologies. His consistent record of awards and honors reflects both his past achievements and his promise for future advancements. Beyond research, Park’s roles as an educator and mentor demonstrate his commitment to fostering the next generation of engineers and scientists. His dedication to collaborative research, scientific integrity, and practical applications of his work continues to set him apart as a leader in his field. As technological frontiers expand and new challenges arise, Hun-Jun Park remains at the forefront, driving scientific progress and inspiring innovation across multiple disciplines. His career serves as a model for aspiring researchers, illustrating how a passion for discovery, combined with rigorous training and a collaborative spirit, can lead to impactful contributions that shape the future of technology and society.
Publications Top Notes
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Spatiotemporal control of neutrophil fate to tune inflammation and repair for myocardial infarction therapy
Authors: Cheesue Kim, Hyeok Kim, Woosup Sim, Hun-jun Park, Byoung-soo Kim
Year: 2024
Citations: 7
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Generation of a human induced pluripotent stem cell line (KSCBi016-A) from a CPVT patient with an RYR2 mutation
Authors: Youngsun Lee, Hun-jun Park, Yong-ou Kim, Bo-young Kim
Year: 2024
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Hyaluronic acid stimulation of stem cells for cardiac repair: a cell-free strategy for myocardial infarct
Authors: Seon-yeong Jeong, Bong-woo Park, Jimin Kim, Hun-jun Park, Soo Kim
Year: 2024
Citations: 5
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Versatile human cardiac tissues engineered with perfusable heart extracellular microenvironment for biomedical applications
Authors: Sungjin Min, Suran Kim, Woosup Sim, Hun-jun Park, Seung Woo Cho
Year: 2024
Citations: 25
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Daily oral administration of probiotics engineered to constantly secrete short-chain fatty acids effectively prevents myocardial injury from subsequent ischaemic heart disease
Authors: Quynh Hoa Pham, Thi Van Anh Bui, Woosup Sim, Kiwon Ban, Terrence Chi Kong Lau
Year: 2024
Citations: 3
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Robust and customizable spheroid culture system for regenerative medicine
Authors: Kyoung-hwan Park, Thuytrang Truong, Jae-hyun Park, Kangmoo Huh, Sun Woong Kang
Year: 2024
Citations: 1
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Artificial Intelligence–Enabled Quantitative Coronary Plaque and Hemodynamic Analysis for Predicting Acute Coronary Syndrome
Authors: Bon Kwon Koo, Seokhun Yang, Jae-wook Jung, Peter Howard Stone, Jagat P. Narula
Year: 2024
Citations: 12
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Requirement of β subunit for the reduced voltage-gated Na+ current of a Brugada syndrome patient having novel double missense mutation (p.A385T/R504T) of SCN5A
Authors: Nakyeong Park, Seong-woo Choi, Soon-jung Park, Hun-jun Park, Sung-joon Kim
Year: 2024
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Revolutionizing biomedical research: The imperative need for heart-kidney-connected organoids
Authors: Sun-sook Song, Hun-jun Park, Yong-kyun Kim, Sun Woong Kang
Year: 2024
Citations: 9
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Core-Shell Droplet-Based Angiogenic Patches for the Treatment of Ischemic Diseases: Ultrafast Processability, Physical Tunability, and Controlled Delivery of an Angiogenic Cocktail
Authors: Thi Van Anh Bui, Jinju Kim, Xin Huang, Hun-jun Park, Kiwon Ban
Year: 2024
Citations: 4