รศ.ดร.ปุริม จารุจำรัส
88 · Patterned Paper and Alternative Materials as Substrates for Low-Cost Microfluidics& Sensors
· The development of functional nanocomposites on fiber-based microfluidics analytical device for novel chemical and biosensing
· Functional Nanocomposites-Based Methodologies
· Development of Field Test Kits
· Analytical Chemistry Education
· Spectroanalytical Chemistry
รศ. ดร.ศิริลักษณ์ พุ่มประดับ
55 Polymer Science and Technology; Rubber Science and Technology; Composite materials and Reinforcement; Reclaimed rubber; Rubber for carbon dioxide capture
รศ. ดร.กนกทิพย์ บุญเกิด
66 Smart materials utilizing the piezoelectric and dielectric properties , Polymers and composite materials for electronic application ,Bio-nanocomposites
,Cellulose
รศ. ดร.ศิริลักษณ์ พุ่มประดับ
75 Polymer Science and Technology; Rubber Science and Technology; Composite materials and Reinforcement; Reclaimed rubber; Rubber for carbon dioxide capture
ศ. ดร.ดวงดาว อาจองค์
61 Biobased and biodegradable plastics , Nanocelluloses, nanostarches, and nanofibers , Polymer composites and nanocomposite materials
,Materials recycling and agricultural wastes utilization, Mechanochemistry and microwave assisted chemistry and processing
ดร.พิชณ์สิณี สุวรรณแพทย์
67 Graphene-based materials and related nanomaterials, Nanocomposites, graphene oxide solution, calcium lactate solution, and a mixture of graphene oxide and calcium lactate solution.
ดร.จีรวุฒิ แก้วเสนีย์
45 Sol-gel and electrospinning techniques were incorporated to produce polyvinylpyrrolidone (PVP)/titanium (IV) oxide composite fibers from solutions containing PVP and titanium tetraisopropoxide, with or without aluminium nitrate as the source of aluminium dopant. Upon the calcination of the as-spun fibers, the neat and the aluminium-doped titania fibers were obtained. Increasing the calcination temperature resulted in the decrease in the fraction of anatase phase within the fibers, as well as the increase in titania crystallite sizes.