Insights from Atomistic Simulations
Insights from Atomistic Simulations
Who will you meet ?
Dr. Leo Hong
Assistant Professor of Mechanical Engineering
Loyola Marymount University’s Frank R. Seaver College of Science and Engineering As a new mechanical engineering assistant professor at Loyola Marymount University’s Frank R. Seaver College of Science and Engineering, one of Sunwook “Leo” Hong’s goals is to provide students with “tangible experiences in computational modelling, virtual reality, and augmented reality to motivate them to learn cutting-edge skills and pursue careers in science, technology, engineering, and mathematics fields.” Dr. Hong’s research spans a wide range of scientific areas, particularly focusing on the use of computer modelling and simulations (CMS) for chemical and materials process modelling. His work has garnered significant recognition, securing approximately $1.2 million in funding from various sources, including state-level programs (e.g., California State Chancellor's Office), federal agencies (e.g., NSF, USDA), and global industry-academic collaborations (e.g., Samsung and Chevron). Hong is also dedicated to transforming STEM education. He is particularly passionate about supporting underrepresented groups. He integrates computer simulations and VR/AR techniques into educational practices to enhance learning outcomes, aligning with LMU’s mission to foster a diverse and supportive academic community.
Emily Hanney
Assistant Director of Graduate Recruitment
Loyola Marymount University Emily Agnello is the Assistant Director of Graduate Recruitment at Loyola Marymount University. Emily received her Bachelor of Science in Family & Child Sciences from Florida State University and her Master of Education in College Student Affairs Leadership from Grand Valley State University. With over 7 years of admission experience, Emily is passionate about working with students to help them take the next step in their career through enhancing their education.
Assistant Professor of Mechanical Engineering
Loyola Marymount University’s Frank R. Seaver College of Science and Engineering As a new mechanical engineering assistant professor at Loyola Marymount University’s Frank R. Seaver College of Science and Engineering, one of Sunwook “Leo” Hong’s goals is to provide students with “tangible experiences in computational modelling, virtual reality, and augmented reality to motivate them to learn cutting-edge skills and pursue careers in science, technology, engineering, and mathematics fields.” Dr. Hong’s research spans a wide range of scientific areas, particularly focusing on the use of computer modelling and simulations (CMS) for chemical and materials process modelling. His work has garnered significant recognition, securing approximately $1.2 million in funding from various sources, including state-level programs (e.g., California State Chancellor's Office), federal agencies (e.g., NSF, USDA), and global industry-academic collaborations (e.g., Samsung and Chevron). Hong is also dedicated to transforming STEM education. He is particularly passionate about supporting underrepresented groups. He integrates computer simulations and VR/AR techniques into educational practices to enhance learning outcomes, aligning with LMU’s mission to foster a diverse and supportive academic community.
Assistant Director of Graduate Recruitment
Loyola Marymount University Emily Agnello is the Assistant Director of Graduate Recruitment at Loyola Marymount University. Emily received her Bachelor of Science in Family & Child Sciences from Florida State University and her Master of Education in College Student Affairs Leadership from Grand Valley State University. With over 7 years of admission experience, Emily is passionate about working with students to help them take the next step in their career through enhancing their education.Dr. Leo Hong speaks on his research focus on reactive molecular dynamics (RMD) simulation of chemical/physical processes of complex nanostructured systems (structures with dimensions of only a few nanometers). An RMD simulation is a method of studying the behaviour of materials by tracking the atomistic interactions in a system. The simulations are used to solve chemical problems, such as understanding reaction rates and kinetics, and the reaction pathways of physical/chemical/biological systems. His recent collaborative investigations include the development of mechanically strengthened glass-ceramic materials for aircraft windshield/window applications; the computational design of high-performance liquid fuels for the hypersonic scramjet aircraft for improved regenerative cooling and combustion performance; and computational synthesis of surface-coated aluminium nanoparticles to improve the combustion performance.
Understanding the fundamental principles of RMD simulations
Insights into optimizing materials for high-impact, high-stress environments
Understanding the role of nanoscale engineering in improving energy release and efficiency
Exploring how atomistic simulations can drive innovation
Understanding the fundamental principles of RMD simulations
Insights into optimizing materials for high-impact, high-stress environments
Understanding the role of nanoscale engineering in improving energy release and efficiency
Exploring how atomistic simulations can drive innovation
Gain insights into the University programs & offerings
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Interdisciplinary Advancements
Sustainability and Resource Efficiency
Gain insights into the University programs & offerings
Exclusive app fee waiver
Interdisciplinary Advancements
Sustainability and Resource Efficiency
The Frank R. Seaver College Graduate Programs at LMU are designed with students in mind. Our curriculum supports your need for advanced technical knowledge, enhanced professional growth, and deepened understanding within your chosen industry. For many, the best path to a successful career in technology, medicine, or the sciences is an advanced degree. With a master's degree from Seaver College, students will be sure to see the benefits of our Jesuit education.
Civil Engineering
Mechanical Engineering
Electrical Engineering
Computer Engineering
Computer Science
Environmental Science
02 April 2025
8:00 PM IST (Asia/Kolkata)
20 March 2025
8:00 PM IST (Asia/Kolkata)
26 March 2025
7:00 PM IST (Asia/Kolkata)
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