Research Platforms

at the Department of Materials Engineering, Kasetsart University

Unleashing Innovation, Shaping Tomorrow

Our department has been at the forefront of materials research, pushing boundaries, and creating tangible solutions for society, industries, and our local community. Here is what sets us apart:

Diverse Expertise, Collective Impact

Our team of passionate faculty members brings together expertise from various materials disciplines. From unraveling the mysteries of nanomaterials and molecular chemistry to designing sustainable materials and manufacturing processes, we thrive on collaboration and interdisciplinary synergy.

Four Research Platforms of Excellence

Our research platforms serve as the bedrock of our achievements:

(I)     Materials Chemistry: Drive into the molecular intricacies—the alchemy that transforms raw elements into functional materials
(II)  Mechanical Materials: Explore the mechanical properties of materials, ensuring their engineering integrity in real-world applications.
(III)  Nanomaterials and Devices: At the nanoscale, we engineer materials with unprecedented properties—tiny wonders with big impacts.
(IV)   Materials Design and Production for Sustainability: Crafting materials that harmonize with our planet, minimizing environmental footprint.

Join Us on this Journey

Explore our 4 key research platforms and witness the magic of materials science and engineering. From fundamental research to industrial inventions, we’re shaping a brighter future—one atom at a time.

Keywords

3D-Printing filament
Admicellar poymerization
Advance Ceramics
agricultural byproduct utilization
Agricultural waste
Antimicrobial products
Benzoxazine monomers
Biaxially oriented poly(lactic acid)
Biodegradable plastic
Biodegradable polymers
Biomass
Biomass conversion
Biomaterials
Biomaterials, drug delivery, tissue engineering
Biomedical composite materials
Bioplastic
Bioresistance ISO 6872
CAD
CAE
Carbaryl insecticide
Carbon materials
Catalysis
Cellulose derivatives
Chitosan and its derivatives
clay and lightweight brick
Cocatalysts
composite building construction
Composite nonwoven
Conventional and advanced ceramics and glass
Corrosion
Degradation
Dental materials
Dielectric filler
drug delivery
Electrochemistry
Electronic
Electrospun nanofibers
Energy conversion
Energy storage
Engineering Design
Failure Analysis
Fixed partial dentures
Fuel cell
Geopolymers
Glass-ceramics
Gypsum
Gypsum, clay and lightweight brick, composite building construction
Heat treatment processes
Heavy metal encapsulation
Heavy metals adsorption
Heterogeneous coating system
High early-strength
High-temperature resistance
Hydrogels
Hydrogen
Hydrothermal method
Industrial byproduct utilization
Interface
Kraft lignin
Lignin
Magnesium silicate
Magnetic
Materials Production
Materials Selection
Metal and Alloy
Metal nanoparticles
Metal superalloy
Metallurgy
Nano-silver particles
Nanofibrous membranes
Neurotransmitter detection
Oil spill cleanup
Optic
Optical Materials
Phenolic compounds
Photocatalytic applications
Photocatalytic degradation
Photoelectrochemistry
PLA
Poly(lactic acid)
Polybutylene succinate (PBS)
Polybutylene succinate adipate (PBSA)
Polylactide
Polymer additives
Polymer composite
Porous clay heterostructures
Prototype
Renewable resource-based polymers
Scintillator
Semiconductor
Single crystal
Solution combustion
Solution plasma process
Supercapacitor
Surface and Coating
Synthetic and natural rubber latex films and foams
Thin Film
tissue engineering
Waste material