Assoc.Prof.Dr. SUPACHOK TANPICHAI

Work Affiliations

Strategic Research Themes

Publications

  

  

  

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• ● Optically transparent tough nanocomposites with a hierarchical structure of cellulose nanofiber networks prepared by the Pickering emulsion method; Tanpichai S., Biswas S.K., Witayakran S., et al.; 2020; Journal article
• ● Preparation and Characterization of Iron Oxide Decorated Graphene Nanoplatelets for Use as Barrier Enhancing Fillers in Polyurethane Based Solar Cell Encapsulant; Yuwawech K., Wootthikanokkhan J., Tanpichai S.; 2020; Conference proceedings article
• ● Conductive paper of reduced graphene oxide and nanofibrillated cellulose; Tanpichai S., Aachri M., Pattananuwat P., et al.; 2019; Journal article
• ● Extraction of nanocellulose from pineapple leaves by acid-hydrolysis and pressurized acid hydrolysis for reinforcement in natural rubber composites; Chawalitsakunchai W., Dittanet P., Loykulnunt S., et al.; 2019; Journal article
• ● Highly Thermal-Resilient AgNW Transparent Electrode and Optical Device on Thermomechanically Superstable Cellulose Nanorod-Reinforced Nanocomposites; Biswas S.K., Sano H., Yang X., et al.; 2019; Journal article
• ● Porosity, density and mechanical properties of the paper of steam exploded bamboo microfibers controlled by nanofibrillated cellulose; Tanpichai S., Witayakran S., Srimarut Y., et al.; 2019; Journal article
• ● Study on structural and thermal properties of cellulose microfibers isolated from pineapple leaves using steam explosion; Tanpichai S., Witayakran S., Boonmahitthisud A.; 2019; Journal article
• ● Synthesis of sodium lignosulfonate from lignin extracted from oil palm empty fruit bunches by acid/alkaline treatment for reinforcement in natural rubber composites; Thungphotrakul N., Dittanet P., Loykulnunt S., et al.; 2019; Conference proceedings article
• ● Thermally superstable cellulosic-nanorod-reinforced transparent substrates featuring microscale surface patterns; Biswas S.K., Tanpichai S., Witayakran S., et al.; 2019; Journal article
• ● Use of steam explosion as a green alternative method to prepare pulp from pineapple leaves; Tanpichai S., Boonmahitthisud A., Witayakran S.; 2019; Journal article
• ● Using borax as a cross-linking agent in cellulose-based hydrogels; Phoothong F., Boonmahitthisud A., Tanpichai S.; 2019; Conference proceedings article
• ● Water Hyacinth: A Sustainable Lignin-Poor Cellulose Source for the Production of Cellulose Nanofibers; Tanpichai S., Biswas S.K., Witayakran S., et al.; 2019; Journal article
• ● A comparative study of nanofibrillated cellulose and microcrystalline cellulose as reinforcements in all-cellulose composites; Tanpichai S.; 2018; Journal article
• ● Aligned-porous-structured poly(vinyl alcohol) foams with cellulose nanocrystals; Tanpichai S., Oksman K.; 2018; Conference proceedings article
• ● All-cellulose composites from pineapple leaf microfibers: Structural, thermal, and mechanical properties; Tanpichai S., Witayakran S.; 2018; Journal article
• ● Crosslinked poly(vinyl alcohol) composite films with cellulose nanocrystals: Mechanical and thermal properties; Tanpichai S., Oksman K.; 2018; Journal article
• ● Reinforcing abilities of microfibers and nanofibrillated cellulose in poly(lactic acid) composites; Tanpichai S., Wootthikanokkhan J.; 2018; Journal article
• ● Transparency, moisture barrier property, and performance of the alternative solar cell encapsulants based on PU/PVDC blend reinforced with different types of cellulose nanocrystals; Yuwawech K., Wootthikanokkhan J., Tanpichai S.; 2018; Journal article
• ● All-cellulose composite laminates prepared from pineapple leaf fibers treated with steam explosion and alkaline treatment; Tanpichai S., Witayakran S.; 2017; Conference proceedings article
• ● Polyurethane/esterified cellulose nanocrystal composites as a transparent moisture barrier coating for encapsulation of dye sensitized solar cells; Yuwawech K., Wootthikanokkhan J., Wanwong S., et al.; 2017; Journal article

Expertise