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Bioinspired, Energy-efficient Materials Design and Manufacturing toward Better Sustainability and Healthcare
tailoring chemical solidification paths via macromolecular crosslinking and bioinspired mineralization toward
advanced manufacturing of materials with better properties, structures, functions, and sustainability
Research Themes
Research Themes
Dynamic Bonds in Polymer Systems / Vitrimers / Polymer Upcycling
Bioinspired Mineralization / Organic-Inorganic Hybrids / Hard-tissue Engineering
Metal-coordinate Crosslinking / Organometallic Gels / Water-binding / Preceramic Polymers
Additive Manufacturing / Sustainable Manufacturing
Sponsors
Sponsors
toward sustainable advanced materials manufacturing in desired 3D structures
for energy, environmental, and biological applications by tailoring fluid-to-solid transition through
Dynamic Crosslinking
Dynamic Crosslinking
covalent adaptive networks
vitrimers
high-performance polymer composites
adhesives
biobased polymer/composites
polymer upcycling
circular manufacturing
additive manufacturing
Closed-loop circular additive manufacturing of upcycled polymers, Science Advances 2022
Bioinspired Mineralization
Bioinspired Mineralization
mineralization control
polymer-assisted mineralization
organic-inorganic hybrids
bone bioactive materials
hard tissue engineering
CO2 utilization/storage
Bio-inspired mineralization of CO2 to bone mineral/bioresorbable polymer composites, Advanced Functional Materials 2013
Organometallic Crosslinking
Organometallic Crosslinking
dynamic metal-coordination
catechol/histidine crosslinking
permanent/transient network
hydrogels
mussel-inspired chemical binding
water-binding
metal-coordinate mineralization
organic-inorganic association
preceramic polymers
Metal-coordinated crosslink mineralization, Nature Communications 2021
"LOBOS in White Sands"
printed by Tyrus Antonson
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