Person Image

    Education

    • Ph.D.(Chemical Engineering), University of California, United States of America, 2554

    Expertise Cloud

    ]+ catalyst13-PropanediolActivated carbonAdsorbentAluminaAlumina supportAluminum compoundsAluminum oxideAtmospheric pressureBimetallic catalystCarbonCatalystCatalyst screeningCatalyst selectivitycatalystsCelluloseChromiumCobaltConversion of methanescoppercopper oxideDeoxygenationDirect conversionepoxidationGlycerolGlycerol carbonateGreen dieselHeterogeneous catalysisHigh-throughputHigh-throughput screeningHybrid catalystsHydrogenationmanganese oxideMethaneMethane combustionMethane conversionMethane conversionsMicrocrystalline celluloseMicrowaveMnTiO3MorphologyNa2WO4nanocompositesnatural rubberOxidative coupling of methanePalmitic acidPineapple leaf fiberpineapple leavespropylenePropylene Epoxidationpropylene oxidePt/WOx/Al2O3 catalystPt-WOx/Al2O3 catalystReactor temperaturesrutheniumSilicaSiO2Sodium aluminateSupported catalystsSurface chemistrySustainable productiontelluriumTemperatureTemperature programmed desorptionTensile strengththermal stabilityThermogravimetric analysistitaniumTitanium dioxidetitanium oxideTMDsTransesterificationคอปเปอร์คาร์บอนเจลาตินชุดบอร์ดต้นแบบซิลิกาซีเซียมเซลลูโลสโซเดียมคลอไรด์ไดเรค อิพ็อกซิเดชั่นตัวเร่งปฏิกิริยาตัวเร่งปฏิกิริยาแบบมีตัวรองรับทองแดงเทลลูเรียมไททาเนียมนวัตกรรมแบบครบวงจรนาโนเซลลูโลสนาโนเทคโนโลยีใบสับปะรดปฏิกิริยาคู่ควบขอมีเทนมีเทนปฏิกิริยาโลหะผสมปุ๋ยละลายช้าโพรพิลีนโพรพิลีนออกไซด์มีเทนรูทีเนียมอิพ็อกซิเดชั่นอิพ๊อกซิเดชั่น

    Interest

    การพัฒนาตัวเร่งปฏิกิริยาสำหรับปฏิกิริยาเคมี, การสังเคราะห์อนุภาคระดับนาโนเมตร, การพัฒนาผลิตภัณฑ์หรือสารมีมูลค่าเพิ่มจากของเหลือทิ้งทางเกษตรและอุตสาหกรรม

    Administrative Profile

    • ก.ค. 2564 - ปัจจุบัน รองหัวหน้าภาควิชา คณะวิศวกรรมศาสตร์ ภาควิชาวิศวกรรมเคมี

    Resource

    • จำนวนหน่วยปฏิบัติการที่เข้าร่วม 0 หน่วย
    • จำนวนเครื่องมือวิจัย 0 ชิ้น

    งานวิจัยในรอบ 5 ปี

    Project

    งานวิจัยที่อยู่ระหว่างการดำเนินการ
    • ทุนใน 14 โครงการ (หัวหน้าโครงการ 10 โครงการ, ผู้ร่วมวิจัย 2 โครงการ, หัวหน้าโครงการย่อย 3 โครงการ)
    • ทุนนอก 0 โครงการ
    งานวิจัยที่เสร็จสิ้นแล้ว
    • ทุนใน 29 โครงการ (หัวหน้าโครงการ 20 โครงการ, ที่ปรึกษาโครงการ 1 โครงการ, ผู้ร่วมวิจัย 7 โครงการ, หัวหน้าโครงการย่อย 2 โครงการ)
    • ทุนนอก 6 โครงการ (หัวหน้าโครงการ 4 โครงการ, ผู้ร่วมวิจัย 1 โครงการ, หัวหน้าโครงการย่อย 1 โครงการ)

    แนวโน้มผลงานทั้งหมดเทียบกับแนวโน้มผลงานในรอบ 5 ปี

    Output

    • บทความ 85 เรื่อง (ตีพิมพ์ในวารสารวิชาการ 72 เรื่อง, นำเสนอในการประชุม/สัมมนา 13 เรื่อง)
    • ทรัพย์สินทางปัญญา 29 เรื่อง (ลิขสิทธิ์ 0 เรื่อง, เครื่องหมายการค้า 0 เรื่อง, อนุสิทธิบัตร 0 เรื่อง, สิทธิบัตร 29 เรื่อง)
    • สิ่งประดิษฐ์ 0 เรื่อง (ขึ้นทะเบียนพันธุ์พืช หรือพันธุ์สัตว์ หรือสิ่งประดิษฐ์ มก. 0 เรื่อง)
    • Unknown 0 เรื่อง (Unknown 0 เรื่อง)

    แนวโน้มการนำผลงานไปใช้ประโยชน์ในด้านต่างๆ

    Outcome

    • การนำผลงานไปใช้ประโยชน์ 53 เรื่อง (เชิงวิชาการ 53 เรื่อง, เชิงนโยบาย/บริหาร 0 เรื่อง, เชิงสาธารณะ 0 เรื่อง, เชิงพาณิชย์ 0 เรื่อง)

    รางวัลที่ได้รับ

    Award

    • รางวัลที่ได้รับ 2 เรื่อง (ประกาศเกียรติคุณ/รางวัลนักวิจัย 2 เรื่อง, รางวัลผลงานวิจัย/สิ่งประดิษฐ์ 0 เรื่อง, รางวัลผลงานนำเสนอในการประชุมวิชาการ 0 เรื่อง)

    นักวิจัยที่มีผลงานงานร่วมกันมากที่สุด 10 คนแรก


    Scopus h-index

    #Document titleAuthorsYearSourceCited by
    1High-Performance Asymmetric Supercapacitors of MnCo2O4 Nanofibers and N-Doped Reduced Graphene Oxide AerogelPettong T., Pettong T., Iamprasertkun P., Iamprasertkun P., Krittayavathananon A., Sukha P., Sukha P., Sirisinudomkit P., Sirisinudomkit P., Seubsai A., Chareonpanich M., Kongkachuichay P., Limtrakul J., Sawangphruk M.2016ACS Applied Materials and Interfaces
    8(49),pp. 34045-34053
    194
    2Removal of Heavy Metal Ions Using Modified Celluloses Prepared from Pineapple Leaf FiberDaochalermwong A., Chanka N., Songsrirote K., Dittanet P., Niamnuy C., Seubsai A.2020ACS Applied Materials and Interfaces
    83
    3Charge storage mechanisms of manganese oxide nanosheets and N-doped reduced graphene oxide aerogel for high-performance asymmetric supercapacitorsIamprasertkun P., Iamprasertkun P., Krittayavathananon A., Seubsai A., Chanlek N., Kidkhunthod P., Sangthong W., Maensiri S., Yimnirun R., Nilmoung S., Pannopard P., Ittisanronnachai S., Kongpatpanich K., Limtrakul J., Sawangphruk M.2016Scientific Reports
    6
    80
    4Direct synthesis of dimethyl ether from CO2 hydrogenation over Cu-ZnO-ZrO2/SO42--ZrO2 hybrid catalysts: Effects of sulfur-to-zirconia ratiosWitoon T., Witoon T., Permsirivanich T., Kanjanasoontorn N., Akkaraphataworn C., Seubsai A., Faungnawakij K., Warakulwit C., Chareonpanich M., Chareonpanich M., Limtrakul J., Limtrakul J.2015Catalysis Science and Technology
    5(4),pp. 2347-2357
    75
    5Oxidative Coupling of Methane by Nanofiber CatalystsNoon D., Seubsai A., Senkan S.2013ChemCatChem
    5(1),pp. 146-149
    67
    6Nickel catalyst with different supports for green diesel productionHongloi N., Prapainainar P., Seubsai A., Sudsakorn K., Prapainainar C.2019Energy
    182,pp. 306-320
    49
    7Biodiesel production from Jatropha Curcas oil using strontium-doped CaO/MgO catalystSudsakorn K., Saiwuttikul S., Palitsakun S., Seubsai A., Limtrakul J.2017Journal of Environmental Chemical Engineering
    5(3),pp. 2845-2852
    46
    8New Catalytic Materials for the Direct Epoxidation of Propylene by Molecular OxygenSeubsai A., Kahn M., Senkan S.2011ChemCatChem
    3(1),pp. 174-179
    43
    9Copper-Manganese Mixed Metal Oxide Catalysts for the Direct Epoxidation of Propylene by Molecular OxygenSeubsai A., Kahn M., Zohour B., Noon D., Charoenpanich M., Senkan S.2015Industrial and Engineering Chemistry Research
    54(10),pp. 2638-2645
    29
    10Properties of natural rubber reinforced with nano cellulose from pineapple leaf agricultural wasteChawalitsakunchai W., Dittanet P., Loykulnant S., Sae-oui P., Tanpichai S., Seubsai A., Prapainainar P.2021Materials Today Communications
    28
    28
    11Sustainable utilization of waste glycerol for 1,3-propanediol production over Pt/WOx/Al2O3 catalysts: Effects of catalyst pore sizes and optimization of synthesis conditionsNumpilai T., Cheng C.K., Seubsai A., Faungnawakij K., Faungnawakij K., Limtrakul J., Witoon T., Witoon T.2020Environmental Pollution
    27
    12Transesterification of Jatropha oil to biodiesel using SrO catalysts modified with CaO from waste eggshellPalitsakun S., Koonkuer K., Topool B., Seubsai A., Sudsakorn K.2021Catalysis Communications
    149
    27
    13Production of glycerol carbonate from glycerol over templated-sodium-aluminate catalysts prepared using a spray-drying methodRittiron P., Niamnuy C., Donphai W., Chareonpanich M., Seubsai A.2019ACS Omega
    4(5),pp. 9001-9009
    25
    14Composite properties of graphene-based materials/natural rubber vulcanized using electron beam irradiationPhetarporn V., Loykulnant S., Kongkaew C., Seubsai A., Prapainainar P., Prapainainar P.2019Materials Today Communications
    19,pp. 413-424
    25
    15Single and bimetallic catalyst screenings of noble metals for methane combustionKumsung W., Chareonpanich M., Kongkachuichay P., Senkan S., Seubsai A.2018Catalysis Communications
    110,pp. 83-87
    23
    16Propylene epoxidation: High-throughput screening of supported metal catalysts combinatorially prepared by rapid sol-gel methodOnal I., Düzenli D., Seubsai A., Kahn M., Seker E., Senkan S.2010Topics in Catalysis
    53(1-2),pp. 92-99
    22
    17SnO2-CuO-NaCl/SiO2 catalysts for propylene epoxidationMiller A., Zohour B., Seubsai A., Noon D., Senkan S.2013Industrial and Engineering Chemistry Research
    52(28),pp. 9551-9555
    22
    18NaCl-Promoted CuO-RuO2/SiO2 Catalysts for Propylene Epoxidation with O2 at Atmospheric Pressures: A Combinatorial Micro-reactor StudyKalyoncu Ş., Düzenli D., Onal I., Seubsai A., Noon D., Senkan S., Say Z., Vovk E., Vovk E., Ozensoy E.2015Catalysis Letters
    145(2),pp. 596-605
    20
    19High throughput synthesis and screening of new catalytic materials for the direct epoxidation of propyleneKahn M., Seubsai A., Onal I., Senkan S.2010Combinatorial Chemistry and High Throughput Screening
    13(1),pp. 67-74
    20
    20Screening of single and binary catalysts for oxidative coupling of methane to value-added chemicalsChukeaw T., Sringam S., Chareonpanich M., Seubsai A.2019Molecular Catalysis
    470,pp. 40-47
    19
    21Thermally Robust Porous Bimetallic (NixPt1- x) Alloy Mesocrystals within Carbon Framework: High-Performance Catalysts for Oxygen Reduction and Hydrogenation ReactionsSohn H., Sohn H., Xiao Q., Xiao Q., Seubsai A., Ye Y., Lee J., Lee J., Han H., Park S., Chen G., Lu Y.2019ACS Applied Materials and Interfaces
    11(24),pp. 21435-21444
    19
    22Direct epoxidation of propylene to propylene oxide on various catalytic systems: A combinatorial micro-reactor studyKalyoncu Ş., Düzenli D., Onal I., Seubsai A., Noon D., Senkan S.2015Catalysis Communications
    61,pp. 16-20
    18
    23Multimetallic catalysts of RuO2-CuO-Cs2O-TiO2/SiO2 for direct gas-phase epoxidation of propylene to propylene oxideChukeaw T., Seubsai A., Phon-In P., Charoen K., Witoon T., Donphai W., Parpainainar P., Chareonpanich M., Noon D., Zohour B., Senkan S.2016RSC Advances
    6(61),pp. 56116-56126
    18
    24Direct epoxidation of propylene to propylene oxide over RuO2-CuO-NaCl-TeO2-MnOx/SiO2 catalystsPhon-in P., Seubsai A., Chukeaw T., Charoen K., Donphai W., Prapainainar P., Chareonpanich M., Noon D., Zohour B., Senkan S.2016Catalysis Communications
    86,pp. 143-147
    16
    25Production of glycerol carbonate from glycerol over modified sodium-aluminate-doped calcium oxide catalystsChotchuang A., Kunsuk P., Phanpitakkul A., Chanklang S., Chareonpanich M., Seubsai A.2020Catalysis Today
    15
    26Synthesis of Value-Added Chemicals via Oxidative Coupling of Methanes over Na2WO4-TiO2-MnOx/SiO2Catalysts with Alkali or Alkali Earth Oxide AdditivesKidamorn P., Tiyatha W., Chukeaw T., Niamnuy C., Chareonpanich M., Sohn H., Seubsai A.2020ACS Omega
    5(23),pp. 13612-13620
    14
    27Epoxidation of propylene to propylene oxide with molecular oxygen over Sb2O3-CuO-NaCl/SiO2 catalystsSeubsai A., Noon D., Chukeaw T., Zohour B., Donphai W., Chareonpanich M., Senkan S.2015Journal of Industrial and Engineering Chemistry
    32,pp. 292-297
    14
    28The Effects of Cofeeding Chlorinated Hydrocarbons in the Direct Epoxidation of Propylene by Molecular OxygenSeubsai A., Seubsai A., Senkan S.2011ChemCatChem
    3(11),pp. 1751-1754
    14
    29Key mechanistic insight into the direct gas-phase epoxidation of propylene by the ruo2-CuO-NaCl/SiO2 catalystSeubsai A., Zohour B., Noon D., Senkan S.2014ChemCatChem
    6(5),pp. 1215-1219
    14
    30High Stability of Ruthenium–Copper-Based Catalysts for Epoxidation of PropyleneSeubsai A., Uppala C., Tiencharoenwong P., Chukeaw T., Chareonpanich M., Zohour B., Noon D., Senkan S.2018Catalysis Letters
    148(2),pp. 586-600
    13
    31Synthesis of value-added hydrocarbons via oxidative coupling of methane over MnTiO3-Na2WO4/SBA-15 catalystsChukeaw T., Tiyatha W., Jaroenpanon K., Witoon T., Kongkachuichay P., Chareonpanich M., Faungnawakij K., Yigit N., Rupprechter G., Seubsai A.2021Process Safety and Environmental Protection
    148,pp. 1110-1122
    12
    32Investigation of metal oxide additives onto Na2WO4-Ti/SiO2 catalysts for oxidative coupling of methane to value-added chemicalsSringam S., Kidamorn P., Chukeaw T., Chareonpanich M., Seubsai A.2020Catalysis Today
    11
    33New catalytic materials for the direct epoxidation of propylene by oxygen: Application of high-throughput pulsed laser ablationKahn M., Seubsai A., Onal I., Senkan S.2010Topics in Catalysis
    53(1-2),pp. 86-91
    10
    34Oxidative coupling of methane-comparisons of MnTiO3-Na2WO4 and MnOx-TiO2-Na2WO4 catalysts on different silica supportsTiyatha W., Chukeaw T., Sringam S., Witoon T., Chareonpanich M., Rupprechter G., Seubsai A.2022Scientific reports
    12(1),pp. 2595
    10
    35Solvent effects in integrated reaction-separation process of liquid-phase hydrogenation of furfural to furfuryl alcohol over CuAl2O4 catalystsThongratkaew S., Kiatphuengporn S., Junkaew A., Kuboon S., Chanlek N., Seubsai A., Rungtaweevoranit B., Faungnawakij K.2022Catalysis Communications
    169
    10
    36Effects of Mg, Ca, Sr, and Ba Dopants on the Performance of La2O3Catalysts for the Oxidative Coupling of MethaneKiatsaengthong D., Jaroenpanon K., Somchuea P., Chukeaw T., Chareonpanich M., Faungnawakij K., Sohn H., Rupprechter G., Seubsai A.2021ACS Omega
    9
    37Effects of Ir-doping on the transition from oxidative coupling to partial oxidation of methane in La2O3-CeO2 nanofiber catalysts: Spatial concentration and temperature profilesNoon D., Zohour B., Bae A., Seubsai A., Senkan S.2017RSC Advances
    7(43),pp. 26783-26789
    9
    38A new strategy for the synthesis of (±)-Lupinine and (±)-epilupinine via cyclization of α-sulfinyl carbanionsPohmakotr M., Seubsai A., Numeechai P., Tuchinda P.2008Synthesis
    (11),pp. 1733-1736
    9
    39Direct propylene epoxidation over RuO2-CuO-NaCl-TeO2-MnOx/SiO2 catalysts: Optimized operating conditions and catalyst characterizationSeubsai A., Phon-In P., Chukeaw T., Uppala C., Prapainainar P., Chareonpanich M., Zohour B., Noon D., Senkan S.2017Industrial and Engineering Chemistry Research
    56(1),pp. 100-110
    8
    40Hydrogenolysis of glycerol to 1,3-propanediol over H-ZSM-5-supported iridium and rhenium oxide catalystsChanklang S., Mondach W., Somchuea P., Witoon T., Chareonpanich M., Faungnawakij K., Seubsai A.2021Catalysis Today
    8
    41Modification of pineapple leaf fibers with aminosilanes as adsorbents for H2S removalChanka N., Mondach W., Dittanet P., Roddecha S., Niamnuy C., Prapainainar P., Seubsai A.2020Chemosphere
    7
    42Structure-Activity Relationships of Pt-WOx/Al2O3 Prepared with Different W Contents and Pretreatment Conditions for Glycerol Conversion to 1,3-PropanediolDolsiririttigul N., Numpilai T., Wattanakit C., Seubsai A., Faungnawakij K., Cheng C.K., Vo D.V.N., Nijpanich S., Chanlek N., Witoon T.2022Topics in Catalysis
    6
    43Synthesis of Na2WO4-MnxOy supported on SiO2 or La2O3 as fiber catalysts by electrospinning for oxidative coupling of methane: Synthesis of Na2WO4-MnxOy supported on SiO2 or La2O3 as fiber catalystsJaroenpanon K., Tiyatha W., Chukeaw T., Sringam S., Witoon T., Wattanakit C., Chareonpanich M., Faungnawakij K., Seubsai A.2022Arabian Journal of Chemistry
    15(2)
    6
    44Synthesis of Dimethyl Ether via CO2 Hydrogenation: Effect of the Drying Technique of Alumina on Properties and Performance of Alumina-Supported Copper CatalystsNiamnuy C., Prapaitrakul P., Panchan N., Seubsai A., Witoon T., Devahastin S., Devahastin S., Chareonpanich M.2020ACS Omega
    5(5),pp. 2334-2344
    6
    45Chromium-ruthenium oxides supported on gamma-alumina as an alternative catalyst for partial combustion of methaneChomboon T., Kumsung W., Chareonpanich M., Senkan S., Seubsai A.2019Catalysts
    9(4)
    6
    46Optimization of metal atomic ratio of Pd x Ru y Ni z on carbon support for ethanol oxidationCharoen K., Warakulwit C., Prapainainar C., Seubsai A., Chareonpanich M., Prapainainar P.2017Applied Surface Science
    421,pp. 2-17
    5
    47Synthesis of light hydrocarbons via oxidative coupling of methane over silica-supported Na2WO4-Tio2 catalystSeubsai A., Tiencharoenwong P., Kidamorn P., Niamnuy C.2019Engineering Journal
    23(5),pp. 169-182
    5
    48Isotherm adsorption of free fatty acid in waste cooking oil used activated carbon of banana peel as bio-adsorbentRengga W.D.P., Seubsai A., Roddecha S., Yudistira A., Wiharto A.D.2021Journal of Physics: Conference Series
    1918(3)
    5
    49Highly efficient TiO2-supported Co–Cu catalysts for conversion of glycerol to 1,2-propanediolMondach W., Chanklang S., Somchuea P., Witoon T., Chareonpanich M., Faungnawakij K., Sohn H., Seubsai A.2021Scientific Reports
    11(1)
    5
    50Comparative evaluation of the effect of microfluidisation on physicochemical properties and usability as food thickener and Pickering emulsifier of autoclaved and TEMPO-oxidised nanofibrillated celluloseSungsinchai S., Niamnuy C., Seubsai A., Prapainainar P., Wattanapan P., Thakhiew W., Raghavan V., Devahastin S., Devahastin S.2021International Journal of Food Science and Technology
    4
    51Iron oxide-carbon nanocomposites modified by organic ligands: Novel pore structure design of anode materials for lithium-ion batteriesJeong Y., Park J., Lee S., Oh S.H., Kim W.J., Ji Y.J., Park G.Y., Seok D., Shin W.H., Oh J.M., Lee T., Park C., Seubsai A., Sohn H.2022Journal of Electroanalytical Chemistry
    904
    4
    52Co2 capture in the form of thermally stable solid compounds using ammoniated brinePalitsakun S., Seubsai A., Sudsakorn K.2019Songklanakarin Journal of Science and Technology
    41(5),pp. 984-991
    4
    53Spatial profiles in RuO2-CuO-NaCl/SiO2 packed-bed propylene epoxidation reactorsZohour B., Noon D., Seubsai A., Senkan S.2014Industrial and Engineering Chemistry Research
    53(14),pp. 6243-6248
    4
    54Effect of polyethylene glycol in nanocellulose/PLA compositesSomphol W., Lampang T.N., Prapainainar P., Sae-Oui P., Loykulnant S., Suebsai A., Dittanet P.2019Key Engineering Materials
    821 KEM,pp. 89-95
    3
    55Kinetic study of adsorption carboxylic acids of used cooking oil using mesoporous active carbonRengga W.D.P., Seubsai A., Roddecha S., Azizah S.Y.N., Rosada D.F.2021IOP Conference Series: Earth and Environmental Science
    700(1)
    2
    56Optimization of operating conditions of bio-hydrogenated diesel production from fatty acidBoonrod B., Rochpuang C., Paisan T., Prapainainar C., Seubsai A., Hongloi N., Prapainainar P.2020Chemical Engineering Transactions
    78,pp. 397-402
    2
    57Novel hybrid conductor of irregularly patterned graphene mesh and silver nanowire networksSohn H., Shin W.H., Seok D., Lee T., Park C., Oh J.M., Kim S.Y., Seubsai A.2020Micromachines
    11(6),pp. 1-13
    2
    58Effect of surface treatment technique on properties and performance of Na2WO4-TiO2-MnOx/SiO2 for oxidative coupling of methaneChuntalap Y., Panchan N., Junsomboon J., Srisonphan S., Witoon T., Seubsai A., Chareonpanich M., Niamnuy C.2021Journal of Chemical Technology and Biotechnology
    2
    59Synthesis of polylactic acid/cellulose composite extracted from pineapple leavesPornbencha K., Boonmalert T., Seubsai A., Dittanet P.2021Key Engineering Materials
    891 KEM,pp. 131-136
    2
    60Green Diesel Production from Oleic Acid Deoxygenation Using Subcritical Water under Hydrogen-Free ConditionHongloi N., Prapainainar P., Prapainainar P., Muadmai T., Namboonlue J., Seubsai A., Seubsai A., Prapainainar C.2021Engineering Journal
    25(10),pp. 115-122
    2
    61Pineapple leaf fibers (PALF) as the sustainable carbon anode material for lithium-ion batteriesKingsakklang S., Kingsakklang S., Roddecha S., Roddecha S., Pimphor K., Pimphor K., Amornsakchai T., Seubsai A., Seubsai A., Dittane P., Dittane P., Prapainainar P., Prapainainar P., Niamnuy C., Niamnuy C., Phraewphiphat T.2022Journal of Materials Science: Materials in Electronics
    2
    62Optimization of Synthesis Conditions for Carboxymethyl Cellulose from Pineapple Leaf Waste using Microwave-Assisted Heating and Its Application as a Food ThickenerPanchan N., Wattanapan P., Wattanapan P., Sungsinchai S., Roddecha S., Dittanet P., Seubsai A., Niamnuy C., Devahastin S., Devahastin S.2021BioResources
    16(4),pp. 7684-7701
    2
    63The structure analysis and chemical properties probing during recycling processes of transition metal dichalcogenides exfoliationSaisopa T., Jitapunkul K., Bunpheng A., Nakajima H., Supruangnet R., Busayaporn W., Sukprom T., Sukprom T., Hirunpinyopas W., Seubsai A., Songsiriritthigul P., Iamprasertkun P.2023Electrochimica Acta
    449
    2
    64Conversion of Methane to Value-Added Hydrocarbons via Modified Fischer–Tropsch Process Using Hybrid CatalystsSomchuea P., Sukprom T., Sringam S., Ampansang S., Witoon T., Chareonpanich M., Faungnawakij K., Rupprechter G., Seubsai A.2023Topics in Catalysis
    2
    65Functionalization of cellulose nanocrystals extracted from pineapple leaves as a UV-absorbing agent in poly(lactic acid)Pornbencha K., Sringam S., Piyanirund S., Seubsai A., Prapainainar P., Niumnuy C., Roddecha S., Dittanet P.2023RSC Advances
    13(22),pp. 15311-15321
    2
    66Effect of Microwave Drying of Alumina Support on Properties of Cu/Al2O3 Catalyst for Synthesis of Dimethyl Ether via CO2 HydrogenationNintao N., Chadawong P., Sangthong W., Donphai W., Seubsai A., Niamnuy C.2023Topics in Catalysis
    2
    67Direct Conversion of Methane to Value-Added Hydrocarbons over Alumina-Supported Cobalt Modified by Alkaline Earth CatalystsAmpansang S., Sringam S., Somchuea P., Witoon T., Wattanakit C., Chareonpanich M., Sohn H., Seubsai A.2023Topics in Catalysis
    1
    68Unraveling the roles of microporous and micro-mesoporous structures of carbon supports on iron oxide properties and As (V) removal performance in contaminated waterNumpilai T., Seubsai A., Chareonpanich M., Witoon T.2023Environmental Research
    236
    1
    69Direct conversion of methane to value-added hydrocarbons using hybrid catalysts of Ni/Al2O3 and K-Co/Al2O3Sukprom T., Somchuea P., Sringam S., Witoon T., Chareonpanich M., Iamprasertkun P., Faungnawakij K., Rupprechter G., Seubsai A.2023Reaction Chemistry and Engineering
    1
    70Pineapple-Leaf-Derived, Copper-PAN-Modified Regenerated Cellulose Sheet Used as a Hydrogen Sulfide IndicatorThongboon S., Chukeaw T., Niamnuy C., Roddecha S., Prapainainar P., Chareonpanich M., Kingwascharapong P., Faungnawakij K., Rupprechter G., Seubsai A.2023ACS Omega
    1
    71Fabrication of Natural Rubber Latex Foam Composite Filled with Pineapple-leaf Cellulose FibresPinrat S., Dittanet P., Seubsai A., Prapainainar P., Prapainainar P.2022Journal of Physics: Conference Series
    2175(1)
    1
    72The Effect of Drying Technique of Silica Support on Properties and Catalytic Activity of Multi-Metal Catalyst for Oxidative Coupling of MethaneNintao N., Chuntalap Y., Panchan N., Seubsai A., Niamnuy C.2021Chemical Engineering Transactions
    89,pp. 199-204
    0
    73Biodegradable behavior of polyethylene based plastics by soil burialDittanet P., Boonmalert T., Leungprasert S., Panjapornpon C., Seubsai A.2021AIP Conference Proceedings
    2441
    0
    74Lead Ions Removal Using Pineapple Leaf-Based Modified CellulosesSukprom T., Chanklang S., Roddecha S., Niamnuy C., Prapainainar P., Seubsai A.2023Applied Science and Engineering Progress
    16(2)
    0
    75Rational synthesis, characterization, and reaction screening of alkali-modified hopcalite: Employing a total oxidation catalyst for a partial oxidation processKahn M., Seubsai A., Senkan S.2009AIChE Annual Meeting, Conference Proceedings
    0
    76Efficient Cellulose/Nano-silver Composite Sheet Derived from Pineapple Leaves for Hydrogen Sulfide DetectionThongboon S., Muenchanama C., Chanthanumatt R., Charoenchaitrakool M., Sudsakorn K., Prapainainar P., Roddecha S., Chareonpanich M., Faungnawakij K., Seubsai A.2023ChemNanoMat
    0
    77Potassium Permanganate-Impregnated Amorphous Silica-Alumina Derived from Sugar Cane Bagasse Ash as an Ethylene Scavenger for Extending Shelf Life of Mango FruitsChanka N., Donphai W., Chareonpanich M., Faungnawakij K., Rupprechter G., Seubsai A.2023ACS Omega
    0