# | Document title | Authors | Year | Source | Cited by |
1 | High-Performance Asymmetric Supercapacitors of MnCo2O4 Nanofibers and N-Doped Reduced Graphene Oxide Aerogel | Pettong 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. | 2016 | ACS Applied Materials and Interfaces 8(49),pp. 34045-34053 | 104 |
2 | Direct synthesis of dimethyl ether from CO2 hydrogenation over Cu-ZnO-ZrO2/SO42--ZrO2 hybrid catalysts: Effects of sulfur-to-zirconia ratios | Witoon T., Witoon T., Permsirivanich T., Kanjanasoontorn N., Akkaraphataworn C., Seubsai A., Faungnawakij K., Warakulwit C., Chareonpanich M., Chareonpanich M., Limtrakul J., Limtrakul J. | 2015 | Catalysis Science and Technology 5(4),pp. 2347-2357 | 58 |
3 | Charge storage mechanisms of manganese oxide nanosheets and N-doped reduced graphene oxide aerogel for high-performance asymmetric supercapacitors | Iamprasertkun 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. | 2016 | Scientific Reports 6 | 57 |
4 | Oxidative Coupling of Methane by Nanofiber Catalysts | Noon D., Seubsai A., Senkan S. | 2013 | ChemCatChem 5(1),pp. 146-149 | 41 |
5 | New Catalytic Materials for the Direct Epoxidation of Propylene by Molecular Oxygen | Seubsai A., Kahn M., Senkan S. | 2011 | ChemCatChem 3(1),pp. 174-179 | 39 |
6 | Biodiesel production from Jatropha Curcas oil using strontium-doped CaO/MgO catalyst | Sudsakorn K., Saiwuttikul S., Palitsakun S., Seubsai A., Limtrakul J. | 2017 | Journal of Environmental Chemical Engineering 5(3),pp. 2845-2852 | 26 |
7 | Copper-Manganese Mixed Metal Oxide Catalysts for the Direct Epoxidation of Propylene by Molecular Oxygen | Seubsai A., Kahn M., Zohour B., Noon D., Charoenpanich M., Senkan S. | 2015 | Industrial and Engineering Chemistry Research 54(10),pp. 2638-2645 | 23 |
8 | Propylene epoxidation: High-throughput screening of supported metal catalysts combinatorially prepared by rapid sol-gel method | Onal I., Düzenli D., Seubsai A., Kahn M., Seker E., Senkan S. | 2010 | Topics in Catalysis 53(1-2),pp. 92-99 | 22 |
9 | SnO2-CuO-NaCl/SiO2 catalysts for propylene epoxidation | Miller A., Zohour B., Seubsai A., Noon D., Senkan S. | 2013 | Industrial and Engineering Chemistry Research 52(28),pp. 9551-9555 | 21 |
10 | NaCl-Promoted CuO-RuO2/SiO2 Catalysts for Propylene Epoxidation with O2 at Atmospheric Pressures: A Combinatorial Micro-reactor Study | Kalyoncu Ş., Düzenli D., Onal I., Seubsai A., Noon D., Senkan S., Say Z., Vovk E., Vovk E., Ozensoy E. | 2015 | Catalysis Letters 145(2),pp. 596-605 | 18 |
11 | Direct epoxidation of propylene to propylene oxide on various catalytic systems: A combinatorial micro-reactor study | Kalyoncu Ş., Düzenli D., Onal I., Seubsai A., Noon D., Senkan S. | 2015 | Catalysis Communications 61,pp. 16-20 | 17 |
12 | High throughput synthesis and screening of new catalytic materials for the direct epoxidation of propylene | Kahn M., Seubsai A., Onal I., Senkan S. | 2010 | Combinatorial Chemistry and High Throughput Screening 13(1),pp. 67-74 | 15 |
13 | Multimetallic catalysts of RuO2-CuO-Cs2O-TiO2/SiO2 for direct gas-phase epoxidation of propylene to propylene oxide | Chukeaw T., Seubsai A., Phon-In P., Charoen K., Witoon T., Donphai W., Parpainainar P., Chareonpanich M., Noon D., Zohour B., Senkan S. | 2016 | RSC Advances 6(61),pp. 56116-56126 | 15 |
14 | Direct epoxidation of propylene to propylene oxide over RuO2-CuO-NaCl-TeO2-MnOx/SiO2 catalysts | Phon-in P., Seubsai A., Chukeaw T., Charoen K., Donphai W., Prapainainar P., Chareonpanich M., Noon D., Zohour B., Senkan S. | 2016 | Catalysis Communications 86,pp. 143-147 | 14 |
15 | Nickel catalyst with different supports for green diesel production | Hongloi N., Prapainainar P., Seubsai A., Sudsakorn K., Prapainainar C. | 2019 | Energy 182,pp. 306-320 | 14 |
16 | Key mechanistic insight into the direct gas-phase epoxidation of propylene by the ruo2-CuO-NaCl/SiO2 catalyst | Seubsai A., Zohour B., Noon D., Senkan S. | 2014 | ChemCatChem 6(5),pp. 1215-1219 | 13 |
17 | The Effects of Cofeeding Chlorinated Hydrocarbons in the Direct Epoxidation of Propylene by Molecular Oxygen | Seubsai A., Seubsai A., Senkan S. | 2011 | ChemCatChem 3(11),pp. 1751-1754 | 11 |
18 | High Stability of Ruthenium–Copper-Based Catalysts for Epoxidation of Propylene | Seubsai A., Uppala C., Tiencharoenwong P., Chukeaw T., Chareonpanich M., Zohour B., Noon D., Senkan S. | 2018 | Catalysis Letters 148(2),pp. 586-600 | 11 |
19 | Single and bimetallic catalyst screenings of noble metals for methane combustion | Kumsung W., Chareonpanich M., Kongkachuichay P., Senkan S., Seubsai A. | 2018 | Catalysis Communications 110,pp. 83-87 | 11 |
20 | Epoxidation of propylene to propylene oxide with molecular oxygen over Sb2O3-CuO-NaCl/SiO2 catalysts | Seubsai A., Noon D., Chukeaw T., Zohour B., Donphai W., Chareonpanich M., Senkan S. | 2015 | Journal of Industrial and Engineering Chemistry 32,pp. 292-297 | 11 |
21 | New catalytic materials for the direct epoxidation of propylene by oxygen: Application of high-throughput pulsed laser ablation | Kahn M., Seubsai A., Onal I., Senkan S. | 2010 | Topics in Catalysis 53(1-2),pp. 86-91 | 10 |
22 | A new strategy for the synthesis of (±)-Lupinine and (±)-epilupinine via cyclization of α-sulfinyl carbanions | Pohmakotr M., Seubsai A., Numeechai P., Tuchinda P. | 2008 | Synthesis (11),pp. 1733-1736 | 8 |
23 | Direct propylene epoxidation over RuO2-CuO-NaCl-TeO2-MnOx/SiO2 catalysts: Optimized operating conditions and catalyst characterization | Seubsai A., Phon-In P., Chukeaw T., Uppala C., Prapainainar P., Chareonpanich M., Zohour B., Noon D., Senkan S. | 2017 | Industrial and Engineering Chemistry Research 56(1),pp. 100-110 | 7 |
24 | Composite properties of graphene-based materials/natural rubber vulcanized using electron beam irradiation | Phetarporn V., Loykulnant S., Kongkaew C., Seubsai A., Prapainainar P., Prapainainar P. | 2019 | Materials Today Communications 19,pp. 413-424 | 7 |
25 | Production of glycerol carbonate from glycerol over templated-sodium-aluminate catalysts prepared using a spray-drying method | Rittiron P., Niamnuy C., Donphai W., Chareonpanich M., Seubsai A. | 2019 | ACS Omega 4(5),pp. 9001-9009 | 6 |
26 | Effects of Ir-doping on the transition from oxidative coupling to partial oxidation of methane in La2O3-CeO2 nanofiber catalysts: Spatial concentration and temperature profiles | Noon D., Zohour B., Bae A., Seubsai A., Senkan S. | 2017 | RSC Advances 7(43),pp. 26783-26789 | 6 |
27 | Optimization of metal atomic ratio of Pd x Ru y Ni z on carbon support for ethanol oxidation | Charoen K., Warakulwit C., Prapainainar C., Seubsai A., Chareonpanich M., Prapainainar P. | 2017 | Applied Surface Science 421,pp. 2-17 | 5 |
28 | Thermally Robust Porous Bimetallic (NixPt1- x) Alloy Mesocrystals within Carbon Framework: High-Performance Catalysts for Oxygen Reduction and Hydrogenation Reactions | Sohn H., Sohn H., Xiao Q., Xiao Q., Seubsai A., Ye Y., Lee J., Lee J., Han H., Park S., Chen G., Lu Y. | 2019 | ACS Applied Materials and Interfaces 11(24),pp. 21435-21444 | 5 |
29 | Removal of Heavy Metal Ions Using Modified Celluloses Prepared from Pineapple Leaf Fiber | Daochalermwong A., Chanka N., Songsrirote K., Dittanet P., Niamnuy C., Seubsai A. | 2020 | ACS Applied Materials and Interfaces
| 5 |
30 | Synthesis of light hydrocarbons via oxidative coupling of methane over silica-supported Na2WO4-Tio2 catalyst | Seubsai A., Tiencharoenwong P., Kidamorn P., Niamnuy C. | 2019 | Engineering Journal 23(5),pp. 169-182 | 4 |
31 | Screening of single and binary catalysts for oxidative coupling of methane to value-added chemicals | Chukeaw T., Sringam S., Chareonpanich M., Seubsai A. | 2019 | Molecular Catalysis 470,pp. 40-47 | 4 |
32 | Spatial profiles in RuO2-CuO-NaCl/SiO2 packed-bed propylene epoxidation reactors | Zohour B., Noon D., Seubsai A., Senkan S. | 2014 | Industrial and Engineering Chemistry Research 53(14),pp. 6243-6248 | 4 |
33 | Chromium-ruthenium oxides supported on gamma-alumina as an alternative catalyst for partial combustion of methane | Chomboon T., Kumsung W., Chareonpanich M., Senkan S., Seubsai A. | 2019 | Catalysts 9(4) | 3 |
34 | Production of glycerol carbonate from glycerol over modified sodium-aluminate-doped calcium oxide catalysts | Chotchuang A., Kunsuk P., Phanpitakkul A., Chanklang S., Chareonpanich M., Seubsai A. | 2020 | Catalysis Today
| 2 |
35 | Synthesis of Value-Added Chemicals via Oxidative Coupling of Methanes over Na2WO4-TiO2-MnOx/SiO2Catalysts with Alkali or Alkali Earth Oxide Additives | Kidamorn P., Tiyatha W., Chukeaw T., Niamnuy C., Chareonpanich M., Sohn H., Seubsai A. | 2020 | ACS Omega 5(23),pp. 13612-13620 | 2 |
36 | Investigation of metal oxide additives onto Na2WO4-Ti/SiO2 catalysts for oxidative coupling of methane to value-added chemicals | Sringam S., Kidamorn P., Chukeaw T., Chareonpanich M., Seubsai A. | 2020 | Catalysis Today
| 1 |
37 | Co2 capture in the form of thermally stable solid compounds using ammoniated brine | Palitsakun S., Seubsai A., Sudsakorn K. | 2019 | Songklanakarin Journal of Science and Technology 41(5),pp. 984-991 | 1 |
38 | Transesterification of Jatropha oil to biodiesel using SrO catalysts modified with CaO from waste eggshell | Palitsakun S., Koonkuer K., Topool B., Seubsai A., Sudsakorn K. | 2021 | Catalysis Communications 149 | 1 |
39 | Novel hybrid conductor of irregularly patterned graphene mesh and silver nanowire networks | Sohn H., Shin W.H., Seok D., Lee T., Park C., Oh J.M., Kim S.Y., Seubsai A. | 2020 | Micromachines 11(6),pp. 1-13 | 1 |
40 | Sustainable utilization of waste glycerol for 1,3-propanediol production over Pt/WOx/Al2O3 catalysts: Effects of catalyst pore sizes and optimization of synthesis conditions | Numpilai T., Cheng C.K., Seubsai A., Faungnawakij K., Faungnawakij K., Limtrakul J., Witoon T., Witoon T. | 2020 | Environmental Pollution
| 0 |
41 | Modification of pineapple leaf fibers with aminosilanes as adsorbents for H2S removal | Chanka N., Mondach W., Dittanet P., Roddecha S., Niamnuy C., Prapainainar P., Seubsai A. | 2020 | Chemosphere
| 0 |
42 | Synthesis of value-added hydrocarbons via oxidative coupling of methane over MnTiO3-Na2WO4/SBA-15 catalysts | Chukeaw T., Tiyatha W., Jaroenpanon K., Witoon T., Kongkachuichay P., Chareonpanich M., Faungnawakij K., Yigit N., Rupprechter G., Seubsai A. | 2021 | Process Safety and Environmental Protection 148,pp. 1110-1122 | 0 |
43 | Optimization of operating conditions of bio-hydrogenated diesel production from fatty acid | Boonrod B., Rochpuang C., Paisan T., Prapainainar C., Seubsai A., Hongloi N., Prapainainar P. | 2020 | Chemical Engineering Transactions 78,pp. 397-402 | 0 |
44 | Synthesis of Dimethyl Ether via CO2 Hydrogenation: Effect of the Drying Technique of Alumina on Properties and Performance of Alumina-Supported Copper Catalysts | Niamnuy C., Prapaitrakul P., Panchan N., Seubsai A., Witoon T., Devahastin S., Devahastin S., Chareonpanich M. | 2020 | ACS Omega 5(5),pp. 2334-2344 | 0 |
45 | Rational synthesis, characterization, and reaction screening of alkali-modified hopcalite: Employing a total oxidation catalyst for a partial oxidation process | Kahn M., Seubsai A., Senkan S. | 2009 | AIChE Annual Meeting, Conference Proceedings
| 0 |