{
  "fields": [{"id":"_id","type":"int"},{"id":"No.","type":"numeric"},{"id":"List of Publications","type":"text"},{"id":"Quartile","type":"numeric"},{"id":"Impact Factor","type":"numeric"}],
  "records": [
    [1,1,"Boopasiri S, Sae-Oui P, Siriwong, C*. \nFabrication of microcrystalline cellulose/zinc oxide hybrid composite by hydrothermal synthesis and its application in rubber compounding. Journal of Applied Polymer Science 2022; 139(18): art. no. 52065.",1,3.057],
    [2,2,"Boopasiri S, Thaptong P, Sae-Oui P, Siriwong, C*. \nFabrication of zinc oxide-coated microcrystalline cellulose and its application in truck tire tread compounds. Journal of Applied Polymer Science 2022; 139(31): art. no. e52701.",2,3.057],
    [3,3,"Limtrakul A, Sae-Oui P, Nillawong M, Sirisinha C*.\nInfluence of carbon black/silica hybrid ratio on properties of passenger car tire sidewall. Periodica Polytechnica Chemical Engineering 2022; 66(1): 147-156.",2,1.744],
    [4,4,"Matthujak A*, Wichangarm M, Sriveerakul T, Sucharitpwatskul S, Phongthanapanich S. \nNumerical investigation on the influences of swirling flow to thermal efficiency enhancement of an LPG-energy saving burner. Case Studies in Thermal Engineering 2021; 28: art. no. 101466.",1,6.268],
    [5,5,"Somseemee O, Saeoui P, Schevenels F.T, Siriwong, C*. \nEnhanced interfacial interaction between modified cellulose nanocrystals and epoxidized natural rubber via ultraviolet irradiation. Scientific Reports 2022; 12(1):  art. no. 6682.",1,4.996],
    [6,6,"Somseemee, O., Sae-Oui, P., Siriwong, C. \nBio-based epoxidized natural rubber/chitosan/cellulose nanocrystal composites for enhancing mechanical properties, self-healing behavior and triboelectric nanogenerator performance. Cellulose 2022; 29(16): 8675-8693.",1,6.123],
    [7,7,"Srimongkol S, Wiroonpochit P, Utra K, Sethayospongsa R, Muthitamongkol P, Methachan B, Butsri N, Srisawadi S*.\nCarbon-based conductive rubber composite for 3D printed flexible strain sensors. Polymers for Advanced Technologies 2022; Article in Press.",1,3.348],
    [8,8,"Takian W, Rooppakhun S*, Ariyarit A, Sucharitpwatskul S.\nOptimal conformity design of tibial insert component based on ISO standard wear test using finite element analysis and surrogate model. Symmetry 2021; 13(12): art. no. 2377.",2,2.713],
    [9,9,"Tangsritrakul J*., Wichittanakom C, Dokkhan C, Loykulnant S.\nInfluence of Calcination Temperature on Structure-Property Relationship in BCZT Lead-Free Piezoceramic. Integrated Ferroelectrics 2021; 223(1): 104-117.",3,0.836],
    [10,10,"Tapangnoi P, Sae-Oui P, Naebpetch W, Siriwong C*. \nPreparation of purified spent coffee ground and its reinforcement in natural rubber composite. Arabian Journal of Chemistry 2022; 15(7): art. no. 103917.",1,6.212],
    [11,11,"Thaptong P, Sae-Oui P, Jittham P, Sirisinha C*.\nOptimization of highly dispersible silica/carbon black hybrid filler ratio for tire tread based on solution- and emulsion-styrene butadiene rubber. Journal of Applied Polymer Science 2022; 139(29): art. no. e52608.",2,3.125],
    [12,12,"Wiroonpochit P, Keawmaungkom S, Chisti Y, Hansupalak N*. \nCompositing prevulcanized natural rubber with multiwalled carbon nanotubes to make antistatic films. Polymers for Advanced Technologies 2022; 33(5): 1591-1605.",1,3.348]
]}