1.  Prasertsab, P.; Nunthakitgoson, W.; Pornsetmetakul,  P.; Chaipornchalerm, P.; Iamsaard, K.; Wattanakit, C.* Selective hydrogenation of 5-hydroxymethylfurfural to 2,5-bis(hydroxymethyl)tetrahydrofuran with NaBH4 over non-thermal plasma treated Ru supported on hierarchical MFI
    Catal. Today, 2024 DOI:https://doi.org/10.1016/j.cattod.2024.114785

  2. Klinyod, S.; Yodsin, N.; Nguyen, M.T.;  Pasom, Z.; Assavapanumat, S.; Ketkaew, M.; Kidkhunthod, P.; Yonezawa, T.; Namuangruk, S.; Wattanakit, C.* Unraveling the Electrocatalytic Activity in HMF Oxidation to FDCA by Fine-Tuning the Degree of NiOOH Phase Over Ni Nanoparticles Supported on Graphene Oxide
    Small, 2024 https://doi.org/10.1002/smll.202400779

  3. Xu, S.; Dugkhuntod, P.; Ding, S.; Zhang, Y.; Gosalvitr, P.; Chen, S.; Huang, J.; Klinyod, K.; Chansai, S.; Hardacre, C.; Wattanakit, C*.; Fan, X*. Product Selectivity Controlled by the Nano-Environment of Ru/ZSM-5 Catalysts in Nonthermal Plasma Catalytic CO2 Hydrogenation
    Appl. Catal. B, 2024. https://doi.org/10.1016/j.apcatb.2024.123826

  4. Suwankaisorn, B.; Aroonratsameruang, P.; Kuhn, A.; Wattanakit, C*. Enantioselective recognition, synthesis, and separation of pharmaceutical compounds at chiral metallic surfaces
    ChemMedChem, 2024 https://doi.org/10.1002/cmdc.202300557

  5. Iadrat, P.; Prasertsab, A.; Limlamthong, M.; Choi, J.; Park, H.; Wattanakit, C*.; C. K. Yip, A*. Modification of Zeolite Morphology via NH4F Etching for Catalytic Bioalcohol Conversion
    ChemCatChem, 2023. https://doi.org/10.1002/cctc.202301208

  6. Pornsetmetakul, P.; J. A. G. Coumans, F.; C. J. van de Poll, R.; Liutkova, A.; Suttipat, D.; Mezari, B.; Wattanakit, C*.; J.M. Hensen, E*. Post-synthesis metal (Sn, Zr, Hf) modification of BEA zeolite: Combined Lewis and Brønsted acidity for cascade catalysis 
    Chinese J. Catal., 2023 DOI: 10.1016/S1872-2067(23)64539-5

  7. Pornsetmetakul, P.;  Coumans, F.; Heinrichs, J.; Zhang, H.; Wattanakit, C; Hensen,E.* Accelerated Synthesis of Nanolayered MWW Zeolite by Interzeolite Transformation
    Chem. Eur. J. CHEM-EUR J, 2023

  8. Chaipornchalerm, P.; Nunthakitgoson, W.; Thepphankulngarm, N; Namuangruk, S; Wattanakit, C.* Rational Design of Ultrasmall PtZn Nanoparticles Supported on Zeolite Composites as Bifunctional Catalysts for n-Butane Dehydroisomerization 
    Ind. Eng. Chem. Res. 2023

  9. Pornsetmetakul, P.; Maineawklang, N.; Prasertsab, A.; Salakhum, S.; J.M. Hensen, E., Wattanakit, C* Mild Hydrogenation of 2-furoic acid by Pt Nanoparticles Dispersed in Hierarchical ZSM-5 Zeolite 

    Chem. Asian J., 2023. https://doi.org/10.1002/asia.202300733

  10.  Iadrat, P.; Jongthong, J.; Prasertsab, A.; Thanphrom, S.; Toewiwat, N.; Ittisanronnachai, S.;  Wongnate. T.; Wattanakit, C.* Nanocrystalline BEA-CNT Composites with High Metal Dispersion Obtained via Inter-Zeolite Transformation for Antibacterial Application

    ACS Appl. Mater. Interfaces 2023,

  11. Prasertsab, A.; Leangsiri, W.; Salakhum, S.; Yomthong, K.; Ittisanronnachai,S.; Watcharasing, S.; Kiattikomol, P.; Wattanakit, C.* Transformation of Production Sand Waste to FAU and LTA Zeolites for Selective Moisture Adsorption and Ethanol Conversion 
    Topics in Catalysis (2023)

  12. Somsri, Supattra.; Suwankaisorn, B.; Yomthong, K.; Srisuwanno, W.; Klinyod, S.; Kuhn, A.; Wattanakit, C.;* Highly enantioselective synthesis of pharmaceuticals at chiral-encoded metal surfaces 
    Chem. Eur. J. 2023

  13. Tantisriyanurak, S.; Klinyod, K.; Leangsiri, W.; Nunthakitgoson, W.; Soyphet, A.; Ketkaew, M.; Thivasasith, A.; Iadrat, P.; Rodaum, C.; Atithep, T.; Nguyen, M.; Yonezawa, T.; Wattanakit, C.;* Carbon Nanotubes Deposited on Mordenite Zeolite/NiAl-Layered Double Hydroxide Composites as Electrocatalysts for 2,5-Furandicarboxylic Acid Production from 5-Hydroxymethylfurfural
    ACS Appl. Nano Mater. 2023, 6, 10, 8784–8794

  14. Somsri, S.; Prasertsab, A.; Pornsetmetakul, P.; Maineawklang, N.; Nguyen, M.; Yonezawa, T.; Wattanakit, C.;* Synthesis of cyclodextrin-stabilized gold nanoparticles supported hierarchical zeolites for the facile production of furandicarboxylic acid (FDCA) from 5-hydroxymethylfurfural (HMF)
    Microporous and Mesoporous Mater., 2023, https://doi.org/10.1016/j.micromeso.2023.112559

  15. Pornsetmetakul, P.; Klinyod, S.; Rodaum, C.; Salakhum, S.; Iadrat, P.; J.M.Hensen, E*.; Wattanakit, C.;* Fine-tuning texture of highly acidic HZSM-5 zeolite for efficient ethanol dehydration 

    ChemCatChem., 2023 https://doi.org/10.1002/cctc.202201387

  16. Iadrat, P.; Yomthong, K.; Rodaum, C.; Pornsetmetakul, P.; Thivasasith, A.; Prasertsab, A.; Fan, X.; Sooknoi, T.; Wattanakit, C*. Effects of zeolite frameworks and hierarchical structures on catalytic bioethanol dehydration: In-situ DRIFTS and DFT studies

    Fuel., 2023. Doi: https://doi.org/10.1016/j.fuel.2022.127208

  17. Srisuwanno, W.; Saenluang, K.; Prasertsab, A.; Salakhum, S.; Kidkhuntod, P.; Namuangrak, S*.; Wattanakit, C*. 
    Isolated Hf-Isomorphously Substituted Zeolites for One-Pot HMF Synthesis from Glucose 
    Adv. Sustain. Syst., 2022, Doi: https://doi.org/10.1002/adsu.202200403

  18. Wattanakit, C.; Kuhn, A. book chaper in the title of Chiral Metal Electrodes for Enantioselective Analysis, Synthesis, and Separation was published by Sustainable and Functional Redox Chemistry 
    https://pubs.rsc.org/en/content/chapter/bk9781839162466-00274/978-1-83916-482-8

  19. Butcha, S.; Yu, J.; Pasom, Z.; Goudeau, B.; Wattanakit, C*.; Sojic, N*.; Kuhn, A*.
    Electrochemiluminescent enantioselective detection with chiral-imprinted mesoporous metal surfaces 
    Chem. Commun.2022https://doi.org/10.1039/D2CC02562K

  20. Salakhum, S.; Prasertsab, A.; Pornsetmetakul, P.; Saenluang, K.; Iadrat, P.; Chareonpanich, M.; Wattanakit, C.*
    Pt Nanoparticles on ZSM-5 Nanoparticles for Base-Free Oxidation of 5-Hydroxymethylfurfural to 2,5-Furandicarboxylic Acid
    ACS Appl. Nano Mater., 2021, 4, 12, 14047–14059.

  21. Rodaum, C.; Thivasasith, A.; Iadrat, P.; Kidkhunthod, P.; Pengpanich, S.; Wattanakit, C.*
    Ge‐Substituted Hierarchical Ferrierite for n‐pentane Cracking to Light Olefins: Mechanistic Investigations via In‐situ DRIFTS Studies and DFT Calculations 
    ChemCatChem., 2021, https://doi.org/10.1002/cctc.202101045

  22. Saenluang, K.; Srisuwanno, W.; Salakhum, S.; Rodaum, C.; Dugkhuntod, P.; Wattanakit, C.*
    Nanoporous Sn-Substituted ZSM-48 Nanostructures for Glucose Isomerization
    ACS Appl. Nano Mater., 2021, 4, 11, 11661–11673.

  23. Iadrat, P.; Wattanakit, C.* 
    Bioethanol Upgrading to Renewable Monomers Using Hierarchical Zeolites: Catalyst Preparation, Characterization, and Catalytic Studies           
    Catalysts, 2021, 11(10), 1162.

  24. Assavapanumat, S.; Butcha, S.;  Ittisanronnachai, S; Kuhn, A.; Wattanakit, C.*
    Heterogeneous Enantioselective Catalysis with Chiral Encoded Mesoporous Pt-Ir Films Supported on Ni Foam
    Chem. Asian J., 2021, 16(21), 3345-3353.

  25. Dugkhuntod, P.; Maineawklang, N.; Rodaum, C.; Pornsetmetakul, P.; Saenlung, K.; Salakhum, S.; Wattanakit, C.*
    Synthesis and Characterization of Sn, Ge, and Zr Isomorphous Substituted MFI Nanosheets for Glucose Isomerization to Fructose
    ChemPlusChem, 2021, 87(1).

  26. Salakhum, S.; Prasertsab, A.; Klinyod, S.; Saenlung, K.; Witoon, T.; Wattanakit, C.* 
    Sustainable transformation of natural silica-rich solid and waste to hierarchical zeolites for sugar conversion to hydroxymethylfurfural (HMF)
    Microporous and Mesoporous Mater., 2021, 111252.

  27. Rodaum, C.; Suttipat, D.; Morey, J.; Atithep, T.; Witoon, T.; Wattanakit, C.*

    Core‐Shell Faujasite@Aqueous Miscible Organic‐Layered Double Hydroxides Composites with Tunable Acid/Base Properties for One‐Pot Synthesis of Ethyl trans‐α‐Cyanocinnamate
    Adv. Mater. Interfaces, 2021, 8, 2002259

  28. Wetchasat, P.; Salakhum, S.*; Imyen, T.; Suttipat, D.; Wannapakdee, W.; Ketkaew, M.; Prasertsab, A.; Kidkhunthod, P.; Witoon, T.; Wattanakit, C.       
    One-Pot Synthesis of Ultra-Small Pt Dispersed on Hierarchical Zeolite Nanosheet Surfaces for Mild Hydrodeoxygenation of 4-Propylphenol
    Catalysts, 2021, 11, 333. 

  29. Butcha, S.; Assavapanumat, S.; Ittisanronnachai, S; Lapeyre, V.; Wattanakit, C.*; Kuhn, A.*
    Nanoengineered chiral Pt-Ir alloys for high-performance enantioselective electrosynthesis
    Nat. Commun., 2021, 121314.

  30. Iadrat, P.; Hori, N.; Atithep, T.; Wattanakit, C.*
    Effect of Pore Connectivity of Pore-Opened Hierarchical MOR Zeolites on Catalytic Behaviors and Coke Formation in Ethanol Dehydration
    ACS Appl. Mater. Interfaces, 2021, 13, 8294-8305.

  31. Nunthakitgoson, W.; Thivasasith, A.*; Maihom, T.; Wattanakit, C.

    Effects of single and double active sites of Cu oxide clusters over the MFI zeolite for direct conversion of methane to methanol: DFT calculations
    Phys. Chem. Chem. Phys., 2021, 23, 2500.

  32. Imyen, T.; Saenluang, K.; Dugkhuntod, P.; Wattanakit, C.*
    Investigation of ZSM-12 nanocrystals evolution derived from aluminosilicate nanobeads for sustainable production of ethyl levulinate from levulinic acid esterification with ethanol

    Microporous Mesoporous Mater., 2020 312, 110768.

  33. Saenluang, K.; Thivasasith, A.*; Dugkhuntod, P.; Pornsetmetakul, P.; Salakhum, S.; Namuangruk, S.; Wattanakit, C.
    In Situ Synthesis of Sn-Beta Zeolite Nanocrystals for Glucose to Hydroxymethylfurfural (HMF)
    Catalysts, 2020, 10, 1249.

  34. Suttipat, D.; Saenluang, K.; Wannapakdee, W.; Dugkhuntod, P.; Ketkaew, M.; Pornsetmetakul, P.; Wattanakit, C.*
    Fine-tuning the surface acidity of hierarchical zeolite composites for methanol-to-olefins (MTO) reaction
    Fuel., 2020, 286, 119306.

  35. Ketkaew, M.; Klinyod, S.; Saenluang, K.; Rodaum, C.; Thivasasith, A.; Kidkhunthod, P.; Wattanakit, C.*

    Fine-tuning the chemical state and acidity of ceria incorporated in hierarchical zeolites for ethanol dehydration
    Chem. Commun., 2020, 56, 11394-11397.

  36. Suttipat, D.; Butcha,  S.; Assavapanumat, S.; Maihom, T.; Gupta, B.; Perro, A.; Sojic, N.; Kuhn, A.*; Wattanakit, C.*
    Chiral Macroporous MOF Surfaces for Electroassisted Enantioselective Adsorption and Separation
    ACS Appl. Mater. Inter., 2020, 12, 36548–36557.

  37. Modified acid-base ZSM-5 derived from core-shell ZSM-5@aqueous miscible organic-layered double hydroxides for catalytic cracking of n-pentane to light olefins
    ChemCatChem, 2020,12, 4288 – 4296.

  38. Imyen, T.; Wannapakdee, W.; Ittisanronnachai, S.; Witoon, T.; Wattanakit, C.*
  39. , 4, 1126-1134.

  40. Ketkaew, M.; Suttipat, D.; Kidkhunthod, P.; Witoon, T.; Wattanakit, C.*
    Nanoceria-modified platinum supported on hierarchical zeolites for selective alcohol oxidation
    RSC Adv., 2019, 9, 36027-36033.

  41. Assavapanumat, S.; Ketkaew, M.; Garrigue, P.; Lapeyre, V.; Reculusa, S.; Wattanakit,  C.*; Kuhn, A.*
    Hierarchical multiporous nickel for oxygen evolution reaction in alkaline media
    ChemCatChem, 2019, 11, 1-11.

  42. Thivasasith, A.; Maihom, T.; Pengpanich, S.; Wattanakit, C.*
    Nanocavity effects of various zeolite frameworks on n-pentane cracking to light olefins: Combination studies of DFT calculations and experiments
    Phys. Chem. Chem. Phys., 2019, 21, 22215-22223.

  43. Assavapanumat, S.; Gupta, B.; Salinas, G.; Goudeau, B.; Wattanakit, C.*; Kuhn, A.*
    Chiral platinum–polypyrrole hybrid films as efficient enantioselective actuators
    Chem. Commun., 2019, 55, 10956-10959.

  44. Suttipat, D.; Yutthalekha, T.; Wannapakdee, W.; Dugkhuntod, P.; Wetchasat, P.; Kidkhunthod, P.;
    Wattanakit, C.*
    Tunable Acid‐Base Bifunction of Hierarchical Aluminum‐Rich Zeolites for the  One‐Pot Tandem Deacetalization‐Henry Reaction
    ChemPlusChem, 2019, 84, 1–6.

  45. Imyen, T.; Wannapakdee, W.; Limtrakul, J.; Wattanakit, C.*
    Role of Hierarchical Micro-Mesoporous Structure of ZSM-5 Derived from an Embedded Nanocarbon Cluster Synthesis Approach in Isomerization of Alkenes, Catalytic Cracking and Hydrocracking of Alkanes.
    Fuel, 2019, 254, 115593–115605.

  46. Dugkhuntod, P.; Imyen, T.*; Wannapakdee, W.; Yutthalekha.; Salakhum, S.; Wattanakit, C.
    Synthesis of Hierarchical ZSM-12 Nanolayers for Levulinic Acid Esterification with Ethanol to Ethyl Levulinate.
    RSC Adv. 2019, 9, 18087–18097.

  47. Wannapakdee, W.; Meng, L.; van Hoof, Arno J. F.; Bolshakov, A.; Wattanakit, C.; Hensen, E. J. M.
    The Important Role of Rubidium Hydroxide in the Synthesis of Hierarchical ZSM‐5 Zeolite Using Cetyltrimethylammonium as Structure‐Directing Agent.
    Eur. J. Inorg. Chem. 2019, 2493–2497.

  48. Numpilai, T.; Wattanakit, C.; Chareonpanich, M.; Limtrakul, J.; Witoon, T.
    Optimization of synthesis condition for CO2 hydrogenation to light olefins over In2O3 admixed with SAPO-34.
    Energy Conversion and Management2019, 180, 511-523.

  49. Salakhum, S.; Yutthalekha, T.; Shetsiri, S.; Witoon, T.; Wattanakit, C.*
    Bifunctional and Bimetallic Pt–Ru/HZSM-5 Nanoparticles for the Mild Hydrodeoxygenation of Lignin-Derived 4-Propylphenol.
    ACS Appl. Nano Mater. 2019, 2, 1053-1062.

  50. Wannapakdee, W.; Yutthalekha, T.; Dugkhuntod, P.; Rodponthukwaji, K.; Thivasasith, A.; Nokbin, S.; Witoon, T.; Pengpanich, S.; Wattanakit, C.*
    Dehydrogenation of propane to propylene using promoter-free hierarchical Pt/silicalite-1 nanosheets.
    Catalysts, 2019, 9, 174.

  51. Assavapanumat, S.; Yutthalekha, T.; Garrigue, P.; Goudeau, B.; Lapeyre, V.; Perro, A.; Sojic, N.; Wattanakit, C.*; Kuhn, A.*
    Potential Induced Fine‐tuning the Enantioaffinity of Chiral Metal Phases. 
    Angew .Chem. Int.Ed. 2019, 58, 3471–3475.

  52. Shetsiri, S.; Thivasasith, A.; Wannapakdee, W.; Saenluang, K.; Wetchasat, P.; Salakhum, S.; Nokbin, S.; Limtrakul, J.; Wattanakit, C.*
    Sustainable production of ethylene from bioethanol over hierarchical ZSM-5 nanosheets.
    Sustainable Energy & Fuels, 2019, 3, 115-126.

  53. Thivasasith, A.; Maihom, M.; Pengpanich, S.; Limtrakul, J.; Wattanakit, C.*
    Insights into the reaction mechanism of n-hexane dehydroaromatization to benzene over gallium embedded HZSM-5: effect of H2 incorporated on active sites. 
    Phys. Chem. Chem. Phys., 2019, 21, 5359-5367.

  54. Wannapakdee, W.; Suttipat, D.; Dugkhuntod, P.; Yutthalekha, T.; Thivasasith, A.; Kidkhunthod, P.; Nokbin, S.; Pengpanich, S.; Limtrakul, J.; Wattanakit, C.*
    Aromatization of C5 hydrocarbons over Ga-modified hierarchical HZSM-5 nanosheets. 
    Fuel, 2019, 236, 1243-1253.

  55. Suttipat, D.; Wannapakdee, W.; Yutthalekha, T.; Ittisanronnachai, S.; Ungpittagul, T.; Phomphrai, K.; Bureekaew, S.; Wattanakit, C.*
    Hierarchical FAU/ZIF‑8 hybrid materials as highly efficient acid-base catalysts for aldol condensation. 
    ACS Applied Materials & Interfaces, 2018, 10, 16358-16366.

  56. Prasertsab, A.; Maihom, M*.; Probst, M.; Wattanakit, C.; Limtrakul, J.
    Furfural to Furfuryl Alcohol: Computational Study of the Hydrogen Transfer on Lewis Acidic BEA Zeolites and Effects of Cation Exchange and Tetravalent Metal Substitution.
    Inorganic Chemistry, 2018, 57, 6599-6605.

  57. Salakhum, S.; Yutthalekha, T.; Chareonpanich, M.; Limtrakul J.; Wattanakit, C.*
    Synthesis of hierarchical faujasite nanosheets from corn cob ash-derived nanosilica as efficient catalysts for hydrogenation of lignin-derived alkylphenols. 
    Microporous and Mesoporous Materials, 2018, 258, 141-150.

  58. Wattanakit, C*.; Yutthalekha, T.; Assavapanumat, S.; Lapeyre, V.; Kuhn, A.*
    Pulsed electroconversion for highly selective enantiomer synthesis.
    Nature Communications, 2017, 8, 2087.

  59. Yutthalekha, T.; Suttipat, D.; Salakhum, S.; Thivasasith, A.; Nokbin, S.; Limtrakul J.; Wattanakit, C.*
    Aldol condensation of biomass-derived platform molecules over amine-grafted hierarchical FAU-type zeolite nanosheets featuring basic sites.
    Chemical Communications, 2017, 53, 12185—12188 (Back cover page).

  60. Wattanakit, C.*
    Chiral metals as electrodes. 
    Current Opinion in Electrochemistry, 2017, 7:54–60.

  61. Rodponthukwaji, K.; Wattanakit, C.*; Yutthalekha, T.;  Assavapanumat, S.; Warakulwit, C.; Wannapakdee, W.; Limtrakul, J.
    Catalytic upgrading of carboxylic acids as bio-oil models over hierarchical ZSM-5 obtained via an organosilane approach.
    RSC Advances, 2017, 7, 35581-35589.

  62. Yutthalekha, T.; Wattanakit, C.; Warakulwit, C.; Wannapakdee, W.; Rodponthukwaji, K.; Witoon, T.; Limtrakul, J.* 
    Hierarchical FAU-type zeolite nanosheets as green and sustainable catalysts for Benzylation of Toluene.
    Journal of Cleaner Production, 2017, 142 (3), 1244-1251.

  63. Yutthalekha, T.; Wattanakit, C.; Lapeyre, V.; Nokbin, S.; Warakulwit, C.; Limtrakul, J.; Kuhn, A.*
    Asymmetric synthesis using chiral encoded metal.
    Nature Communications, 2016, 7, 12678.

  64. Warakulwit, C.; Yadnum, S.; Boonyuen, C.; Wattanakit, C.; Karajic, A.; Garrigue, P.; Mano, N.; Bradshaw, D.; Limtrakul, J.; Kuhn, A.
    Elaboration of metal organic framework hybrid materials with hierarchical porosity by electrochemical deposition-​dissolution.
    CrystEngComm, 2016, 18, 5095-5100.

  65. Wannapakdee, W.; Wattanakit, C.*; Paluka, V.; Yutthalekha, T.; Limtrakul, J.
    One-​pot synthesis of novel hierarchical bifunctional Ga​/HZSM-​5 nanosheets for propane aromatization.
    RSC Advances, 2016, 6, 2875-2881.

  66. Wuamprakhon, P.; Wattanakit, C.; Warakulwit, C.; Yutthalekha, T.; Wannapakdee, W.; Ittisanronnachai, S.; Limtrakul, J. 
    Direct synthesis of hierarchical ferrierite nanosheet assemblies via an organosilane template approach and determination of their catalytic activity.
    Microporous and Mesoporous Materials, 2016, 219, 1–9.

  67. Wattanakit, C.; Bon Saint Côme, Y.; Lapeyre, V.; Bopp. A., P.; Heim, M.; Yadnum, S.; Nokbin, C.; Warakulwit, C.; Limtrakul, J.; Kuhn, A.
    Enantioselective recognition at mesoporous chiral metal surfaces.
    Nature Communications, 2014, 5:3325.

  68. Heim, M.; Wattanakit, C.; Reculusa, S.; Warakulwit, C.; Limtrakul, J.; Ravaine, S.; Kuhn, A. 
    Hierarchical Macro-​mesoporous Pt Deposits on Gold Microwires for Efficient Methanol Oxidation.
    Electroanalysis, 2013, 25 (4), 888-894.

  69. Wattanakit, C.; Warakulwit, C.; Pantu, P.; Sunpetch, B.; Charoenpanich, M.; Limtrakul, J.
    The versatile synthesis method for hierarchical micro- and mesoporous zeolite: an embedded nanocarbon cluster approach.
    The Canadian Journal of Chemical Engineering, 2012, 90 (4), 873-880.

  70. Wattanakit, C.; Nokbin, S.; Boekfa, B.; Pantu, P.; Limtrakul, J.
    Skeletal Isomerization of 1-​Butene over Ferrierite Zeolite: A Quantum Chemical Analysis of Structures and Reaction Mechanisms.
    The Journal of Physical Chemistry C, 2012, 116 (9), 5654-5663.

  71. Maity, N.; Wattanakit, C.; Muratsugu, S.; Ishiguro, N.; Yang, Y.; Ohkoshi, S.-i.; Tada, M.
    Sulfoxidation on a SiO2-​supported Ru complex using O2​/aldehyde system.
    Dalton Transactions, 
    2012, 41 (15), 4558-4565.

 

Collaborative publishing

  1. Nunthakitgoson, W.; Rodaum, C.; Pornsetmetakul, P.; Wattanakit, C.; Wattana, P.; Thivasasith, A*. Transformation of CO2 to Carbon Nanotubes by Catalytic Chemical Vapor Deposition using a Metal-Supported Hierarchical Zeolite Template
    ChemPlucChem.,2023 https://doi.org/10.1002/cplu.202300345

  2. Dolsiririttigul, N., Numpilai, T., Wattanakit, C. Seubsai, A., Faungnawakij, K., Cheng, C. K., Vo, D.-V. N., Nijpanich, S., Chanlek, N., Witoon, W. 
    Structure-Activity Relationships of Pt-WOx/Al2O3 Prepared with Different W Contents and Pretreatment Conditions for Glycerol Conversion to 1,3-Propanediol.
    Topics in Catalysis, 2022.

  3. Nguyen, M. T.; Muramatsu, T.; Kheawhom, S.; Wattanakit, C.; Yonezawa, T.
    Impact of Morphology and Transition Metal Doping of Vanadate Nanowires without Surface Modification on the Performance of Aqueous Zinc-Ion Batteries.
    Bulletin of the Chemical Society of Japan, 2022, 95 (5), 728-734.

  4. Jaroenpanon, K.; Tiyatha, W.; Chukeaw, T.; Sringam, S.; Witoon, T.; Wattanakit, C.; Chareonpanich, M.; Faungnawakij, K.; Seubsai, A. Synthesis of Na2WO4-MnxOy supported on SiO2 or La2O3 as fiber catalysts by electrospinning for oxidative coupling of methane.
    Arabian Journal of Chemistry, 2022, 15 (2), 103577.

  5. Sim, W. J.; Nguyen, M. T.; Huang, Z.; Kheawhom, S.; Wattanakit, C.; Yonezawa, T.
    Efficient iron–cobalt oxide bifunctional electrode catalysts in rechargeable high current density zinc–air batteries.
    Nanoscale, 2022, 14 (22), 8012-8022.

  6. Numpilai, T.; Kahadit, S.; Witoon, T.; Ayodele, B. V.; Cheng, C. K.; Siri-Nguan, N.; Sornchamni, T.; Wattanakit, C.; Chareonpanich, M.; Limtrakul, J.
    CO2 Hydrogenation to Light Olefins Over In2O3/SAPO-34 and Fe-Co/K-Al2O3 Composite Catalyst.
    Topics in Catalysis, 2021, 64 (5), 316-327.

  7. Chen, H.; Shao, Y.; Mu, Y.; Xiang, H.; Zhang, R.; Chang, Y.; Hardacre, C.; Wattanakit, C.; Jiao, Y.; Fan, X.
    Structured silicalite-1 encapsulated Ni catalyst supported on SiC foam for dry reforming of methane.
    AIChE Journal, 2021, 67 (4), e17126.

  8. Sittiwong, J.; Boonmark, S.; Nunthakitgoson, W.; Maihom, T.; Wattanakit, C.; Limtrakul, J.
    Density Functional Investigation of the Conversion of Furfural to Furfuryl Alcohol by Reaction with i-Propanol over UiO-66 Metal–Organic Framework.
    Inorganic Chemistry, 2021, 60 (7), 4860-4868. 

  9. Wannapakdee, W.; Meng, L.; van Hoof, A. J. F.; Bolshakov, A.; Wattanakit, C.; Hensen, E. J. M.
    The Important Role of Rubidium Hydroxide in the Synthesis of Hierarchical ZSM-5 Zeolite Using Cetyltrimethylammonium as Structure-Directing Agent.
    European Journal of Inorganic Chemistry, 2019, 2019 (20), 2493-2497

 

 

 

 

 

 

 

 

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