Hoyong Chung
Florida State University
Appearances
- DateAugust 26, 2021Non-degradable plastics waste issue is a global challenge that requires urgent attention due to its harmful impact on humans and the environment. Lignin is an important biomass that can be a raw material to produce functional polymers…
Presenter
Speaker
Florida State University - DateAugust 23, 2021Lignin is an important biomass that can be a raw material to produce functional polymers due to its abundance, low price, sustainability, and high concentration of aromaticity…
Presenter
Speaker
Florida State University - DateMarch 22, 2022Lignin is the second most abundant plant-based biopolymer after cellulose, and it is a sustainable raw material…
Presenter
Florida State UniversitySpeaker
- DateMarch 23, 2022Lignin is abundant plant-based biopolymer that has high concentration of aromaticity which enhances mechanical and thermal properties. The production of lignin is primarily from the paper industry, where it is disposed of as an unwanted byproduct…
Presenter
Florida State UniversitySpeaker
- DateAugust 21, 2022Lignin is the second most abundant plant-based biopolymer after cellulose, and it is a sustainable raw material…
Presenter
Florida State UniversitySpeaker
- DateAugust 22, 2022Lignin is abundant and sustainable biomass polymer. However, their application is limited because of the multifunctionality, numerous reaction sites, and their complex chemical structures…
Presenter
Speaker
Florida State University - DateAugust 22, 2022Polymeric adhesives have attracted significant attention in both fundamental research and industrial applications owing to their excellent capability to join physically separated surfaces. Despite their wide utility, polymeric adhesives having pH-sensitive biodegradability is rare in literature…
Presenter
Speaker
Florida State University - DateAugust 23, 2022Lignin is an abundant plant-based biopolymer that has high concentration of aromaticity which enhances mechanical and thermal properties. The production of lignin is primarily from a paper industry, where it is disposed of as an unwanted byproduct…
Presenter
Florida State UniversitySpeaker
- Division/Committee: [POLY] Division of Polymer Chemistry
Organizer, Presider
Florida State University - Division/Committee: [POLY] Division of Polymer Chemistry
Organizer
Florida State University - Lignin is the second most abundant renewable biomass polymer. Despite its potential as a sustainable raw material due to its abundance, low price, and high aromatic concentration, its complex structure and poorly defined excessive reaction sites for lignin limit its application…
Presenter
Florida State UniversitySpeaker
- Division/Committee: [POLY] Division of Polymer Chemistry
Organizer
Florida State University - Division/Committee: [POLY] Division of Polymer Chemistry
Organizer
Florida State University - DateMarch 26, 2023DIVISION/COMMITTEE: [POLY] Division of Polymer Chemistry
Organizer, Presider
Florida State University - DateMarch 26, 2023DIVISION/COMMITTEE: [POLY] Division of Polymer Chemistry
Organizer, Presider
Florida State University - DateMarch 26, 2023Lignin is the second most abundant renewable biomass polymer. Despite its potential as a sustainable raw material due to its abundance, low price, and high aromatic concentration, its complex structure and poorly defined excessive reaction sites for lignin limit its application…
Presenter
Florida State UniversitySpeaker
- DateMarch 27, 2023DIVISION/COMMITTEE: [POLY] Division of Polymer Chemistry
Organizer, Presider
Florida State University - DateMarch 27, 2023DIVISION/COMMITTEE: [POLY] Division of Polymer Chemistry
Organizer, Presider
Florida State University - DateAugust 21, 2024Lignin is the second most abundant renewable biomass polymer…
Presenter
Florida State UniversitySpeaker
- DateAugust 21, 2024The fast expansion of the plastics industry has intensified the global crisis of plastic waste pollution, ecological imbalance, and greenhouse gas emissions…
Presenter
Florida State UniversitySpeaker
- DateMarch 25, 2025Bottlebrush polymers (BB) consist of densely packed polymer brush chains linked to a polymer backbone, forming a three-dimensional cylindrical structure. The high density of brush chains, rod-like shape, and high molecular weight of BB offer unique advantages for biomedical applications…
Presenter
Florida State University - DateAugust 18, 2025Climate change, driven by excessive CO2 emissions, poses a pressing threat to global ecosystems and human well-being…
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Co-Author
Florida State University - DateAugust 21, 2025This study introduces a novel biomedical adhesive designed for instant tissue adhesion and localized topical drug delivery…
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Co-Authors