THE L I M GROUP
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L I M group
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Biologically inspired soft robot
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Bioengineered cellular/green agriculture for bioactive production
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Bioreactor control systems
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Bioinstrumentation
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Biomaterials and mechanical engineering to facilitate dynamically tunable tissue properties
Classifications
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Biomedical engineering - biomaterials and stem cell niche, biointerfaces, tissue engineering, regenerative medicine, bioelectronic devices, biosensors, biofabrication, biotechnology
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Interface science - wetting, adhesion, coatings (self-healing, self-cleaning, conductive, antimicrobial), separation/purification (membranes), 2D materials, Materials (green) synthesis
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Engineering - mechanical/structural properties, fabrication/manufacturing/processing, 3D printing, composites, actuators, robotics, thermal properties
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Polymer science - characterization, polymers, tunable hydrogels
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Soft robotics - Biological Models and Systems Field, Variable stiffness actuation < Electroactive polymers < Active Elastomers < Electronics and Materials Field
Bioprinting
Graphene
Cyclic voltammetry
Co-axial
Conductive electrode
Wet adhesives
Cell culture
Cellulose
Bioinspired nanoparticles
Strain sensing
Optical cellulose
Quantum dots
Bioreactor
Microfluidics
Shape memory
Cultured meat
Air filters
Glucose realtime
Electromagnetic stimulation
Electrical stimulation
Perfusion chamber
Micropump
Iridescent structural colour
3D printed patches
3D printing scaffolds
Stem cell metabolism
Pulsatile pressure
Electrical tool
Electrospinning
Shaking reactor
Conductive strain sensing
Plant growth monitoring
Bacteria experiment