Catalysis and Membranes Research Laboratory
Rownaghi Group
Publications

Publications

Patents:

  1. Rownaghi, A., Li, X. Rezaei, F. Zeolitic 3D scaffolds with tailored surface topography for methanol conversion with light olefins selectivity (US Patent Application 2019/0001311 A1).
  2. Rezaei, F. Rownaghi, A., Lawson, S., Additively-manufactured structure for reactionary processes (US Patent US20200398456A1).
  3. Rownaghi, A., Nair, S. drese, J.H., Eum, K., Lively, R.P., Tamhankar, Y., yang, S. Rashidi, F., Application, methods and systems for fabricating thin nanoporous membranes (US Patent Application 2017/62/504,016).
  4. Rownaghi, A., Nair, S. Jones, C., Rashidi, F., System, devices and methods for molecular separation (US Patent Application 2017/15/688,231).
  5. Rownaghi, A. Growth of thin, localized metal-organic framework membranes on hollow fibers by fluidic techniques involving vapor, solid, or liquid reactant phases (US Patent Application 2017).
  6. Rownaghi, A. Aminosilane-grafted zr/ti/si composite hollow fiber as a heterogeneous catalysts and continuous flow reactor (US Patent Application 2016).
  7. Nair, S., Eum, K.,Jones, C.,Rownaghi, A. High efficiency, high performance metal-organic framework (MOF) membranes in hollow fibers and tubular modules (US Patent 9994501).
  8. Rownaghi, A. and Koros, W.J. A novel technique to produce silica hollow fibers adsorbent for CO2 capture application (US Patent Application 2014).
  9. Rownaghi, A. and Yap Y. An improved process to produce high surface area VPO catalyst (Europe Patent 2212022).
  10. Rownaghi, A. and Yap Y. Process to produce high surface area nanoparticle vanadium phosphorus oxide catalyst and product derives thereof (US Patent 20100311574).
  11. Rownaghi, A. and Yap Y. A process for synthesizing precursors of vanadium phosphate oxide and activated catalysts derives thereof (Japan Patent Application 2010533019).

Refereed Journal Publications:

  1. He, Y., Cheshomi, N., Itta, A., Lawson, S., Rezaei F., Rownaghi, AA., (2021) Nitrophenol Hydrogenation in a Continuous-Flow Polymeric Hollow Fiber Catalytic Membrane Microreactor. Chemical Engineering Journal[DOI link]
  2. Lawson, S., Li, X., Thakkar, H., Rownaghi, AA., Rezaei F. (2021) Recent Advances in 3D Printing of Structured Materials for Adsorption and Catalysis Applications.Chemical Reviews [DOI link]Invited Paper
  3. Majedi Far, H., Lawson, S., Al-Naddaf, Q., Rezaei, F., N. Sotiriou-Leventis, Rownaghi, A. (2021) Advanced Pore Characterization and Adsorption of Light Gases over Aerogel-Derived Activated Carbon. Microporous and Mesoporous Materials[DOI link]
  4. Alsalbokh, M., Fakeri, N., Rownaghi, A., Ludlow, D., Rezaei, F. (2021) Aminosilane-Grafted Bismuth-Alumina Adsorbents: Role of Amine Loading and Bismuth Content in Iodine Immobilization from Aqueous Solutions. Chemical Engineering Journal[DOI link]
  5. Magzoub, F., Lawson, Rezaei F., Rownaghi, AA (2021) Directly Printed Oxide/ZSM-5 Bifunctional Catalysts for Methanol Conversion to Dimethyl Ether with Exceptional Stability, Conversion, and Selectivity. Energy & Fuel [DOI link]Invited Paper
  6. Alwakwak, A., He, Y-X.,Almuslem, A., Arun, K.I., Rezaei, F., Rownaghi, A. (2020) A Metal- and Solvent-Free Synthesis of aminoalcohols under Continuous Flow Conditions. Reaction Chemistry & Engineering[DOI link]Journal Cover
  7. Lawson, S., Farsad , A., Rezaei, F., Ludlow, D., Rownaghi, A. (2020) Direct Ink Writing of Metal Oxide/H-ZSM-5 Catalysts for n-Hexane Cracking: A new Method of Additive Manufacturing with High Metal Oxide Loading. ACS Applied Materials & Interfaces[DOI link]
  8. Newport, K., Rezaei F., Rownaghi, AA (2021) Fluorinated polyimide membranes for energy intensive separation. ACS Omega[DOI link]Invited Paper
  9. Lawson, S., Farsad , A., Schueddig , K., Newport, K., Lowrey., E., Polo-Garzon, F., Rezaei F., Rownaghi, AA (2020) A Novel Method of 3D Printing High-loaded Oxide/H-ZSM-5 Catalyst Monoliths for Carbon Dioxide Reduction in Tandem with Propane Dehydrogenation. Advanced Sustainable Systems[DOI link]
  10. Lawson, S., Alwakwak, A., Rownaghi, A., Rezaei, F. (2020) Gel-Print-Grow: A New Way of 3D Printing Metal-Organic Frameworks. ACS Applied Materials & Interfaces[DOI link]
  11. Farsad , A., Lawson, S., Rezaei F., Rownaghi, AA (2020) Oxidative Dehydrogenation of Propane over 3D Printed Mixed Metal Oxides/H-ZSM-5 Monolithic Catalysts Using CO2 as an Oxidant. Catalysis Today[DOI link]Invited Paper
  12. Lewson,S., Newport, K., Al-Naddaf, Q., Mukaba, M.J-L., Ameh, A-E., Eze, C-P, Rownaghi, A., Petrik, L.F., Rezaei, F. (2020) Production of Binderless Zeolite Monoliths by 3D Printing Sacrificial Biopolymers. Chemical Engineering Journal[DOI link]
  13. Al-Naddaf, Q., Majedi Far, H., Cheshomi, N., Rownaghi, A., Rezaei, F. (2020) Exceptionally High Gravimetric Methane Storage in Aerogel-Derived Carbons. Ind. Eng. Chem. Res., [DOI link]
  14. Magzoub, F., Li, X., Lawson, S., Rezaei F., Rownaghi, AA. (2020) 3D-Printed HZSM-5 and 3D-HZM5@SAPO-34 Structured Monoliths with Controlled Acidity and Porosity for Conversion of Methanol to Dimethyl Either. Fuel[DOI link]
  15. Al-Naddaf, Q., Lawson, S., Rownaghi, A., Rezaei, F. (2020) Analysis of Dynamic CO2 Capture over 13X Zeolite Monoliths in the Presence of SOx, NOx and Humidity. AIChE Journal [DOI link]
  16. Lewson,S., Newport, K., Schuedding, K., Rownaghi, AA., Rezaei F. (2020) Optimizing Ibuprofen Concentration for Rapid Pharmokinetics on Biocompatable Zinc-Based MOF-74 and UTSA-74. Materials Science & Engineering C ,[DOI link]
  17. Lewson,S., Adebayo, B., Al-Naddaf, Q., Robinson, C., Rownaghi, A., Rezaei, F. (2020) The Effects of Cell Density and Intrinsic Porosity on Structural Properties and Adsorption Kinetics in 3D-Printed Zeolite Monoliths. Chemical Engineering Science,[DOI link]
  18. Adebayo, B., Lewson,S., Rownaghi, A., Rezaei, F., (2020) Analysis of Equilibrium and Dynamic Adsorption of Benzene Vapor over Unimodal and Bimodal Silica-Based Mixed-Metal Oxides. Chemical Engineering Journal[DOI link]
  19. Adebayo, B., Newport, K., Yu, H., Rownaghi, A., Liang, X., Rezaei, F. (2020) Atomic Layer Deposited Ni/ZrO2-SiO2 for Combined Capture and Oxidation of VOCs. ACS Applied Materials & Interfaces[DOI link]
  20. Al-Mamoori, Lawson, S., A., Rownaghi, A., Rezaei, F. (2020) Oxidative Dehydrogenation of Ethane to Ethylene in an Integrated CO2 Capture-Utilization Process. Applied Catalysis B: Environmental[DOI link]
  21. Adebayo, B., Krishnamurthy, A., Rownaghi, A., Rezaei, F. (2020) Toluene Abatement by Simultaneous Adsorption and Oxidation over Mixed-Metal Oxides. Ind. Eng. Chem. Res.,[DOI link]
  22. Magzoub, F., Li, X., Lawson, S., Rezaei F., Rownaghi, AA. (2020) 3D-Printed HZSM-5 and 3D-HZM5@SAPO-34 Structured Monoliths with Controlled Acidity and Porosity for Conversion of Methanol to Dimethyl Either. Fuel[DOI link]
  23. Al-Darwish, J., Senter, M., Lewson,S., Rezaei, F., Rownaghi, A. (2020) Ceria Nanostructured Catalysts for Conversion of Methanol and Carbon Dioxide to Dimethyl Carbonate . Catalysis Today[DOI link]
  24. Lewson,S., Snarzyk, M., Hanify, D., Rownaghi, A., Rezaei, F. (2020) Development of 3D-Printed Polymer-MOF Monoliths for CO2 Adsorption. Ind. Eng. Chem. Res.,[DOI link]
  25. Adebayo, B.O., Lawson, S., Rownaghi, AA., Rezaei F. (2020) Analysis of Equilibrium and Dynamic Adsorption of Benzene Vapor over Unimodal and Bimodal Silica-Based Mixed-Metal Oxides . Chemical Engineering Journal[DOI link]
  26. Gelles, T., Krishnamurthy, A., Adebayo,, B., Rownaghi, A., Rezaei, F. (2020) Abatement of Gaseous Volatile Organic Compounds: A Materials Perspective. Catalysis Today[DOI link]
  27. Lewson,S., Adebayo, B., Al-Naddaf, Q., Robinson, C., Rownaghi, A., Rezaei, F. (2020) The Effects of Cell Density and Intrinsic Porosity on Structural Properties and Adsorption Kinetics in 3D-Printed Zeolite Monoliths. Chemical Engineering Science[DOI link]
  28. Al-Naddaf, Q., Rownaghi, A., Rezaei, F. (2019) Multicomponent adsorptive separation of CO2, CO, CH4, N2, and H2 over core-shell zeolite-5A@MOF-74 composite adsorbents. Chemical Engineering Journal[DOI link]
  29. Al-Naddaf, Q., Lewson,S., Rownaghi, A., Rezaei, F.(2020) MAnalysis of Dynamic CO2 Capture over 13X Zeolite Monoliths in the Presence of SOx, NOx and Humidity. AIChE Journal[DOI link]
  30. Lewson,S., Newport, K., Schuedding, K., Rownaghi, A., Rezaei, F. (2020) Optimizing Ibuprofen Concentration for Rapid Pharmokinetics on Biocompatable Zinc-Based MOF-74 and UTSA-74. Energy and Fuels[DOI link]
  31. Jawad, A., Rezaei, F., Rownaghi, A. (2020) Highly Efficient Pt/Mo-Fe/Ni-Based Al2O3-CeO2 Catalysts for Dry Reforming of Methane. Catalysis Today[DOI link]
  32. Krishnamurthy, A., Adebayo, B., Gelles, T., Rownaghi, A., Rezaei, F. (2020) Abatement of Gaseous Volatile Organic Compounds: A Process Perspective. Catalysis Today[DOI link]
  33. Al-Naddaf, Q., Rownaghi, A., Rezaei, F. (2019) Multicomponent adsorptive separation of CO2, CO, CH4, N2, and H2 over core-shell zeolite-5A@MOF-74 composite adsorbents. Chemical Engineering Journal[DOI link]
  34. Gelles, T., Rownaghi, A., Rezaei, F. (2019) Diffusion Kinetics of CO2, CH4, and their Binary Mixtures in Porous Organic Cage CC3. The Journal of Physical Chemistry C[DOI link]
  35. AL-Mamoori, A., Alsalbokh, M., Lawson, S., Rownaghi, A., Rezaei, F. (2019) Development of Bismuth-Mordenite Adsorbents for Iodine Capture from Off-Gas Streams. Chemical Engineering Journal[DOI link]
  36. Krishnamurthy, A., Salunkhe, B., Zore, A., Rownaghi, A., Schuman, T., Rezaei, F. (2019) Amine-Based Latex Coatings for Indoor Air CO2 Control in Commercial Buildings. ACS applied materials & interfaces[DOI link]
  37. Lewson,S., Griffin, C., Rapp, K., Rownaghi, A., Rezaei, F. (2019) Amine-Functionalized MIL-101 Monoliths for CO2 Removal from Enclosed Environments. Energy and Fuels[DOI link]
  38. Magzoub, F., Li, X., Al-Darwish, Jawad, Rezaei, F., Rownaghi, A. (2019) 3D-Printed ZSM-5 Monoliths with Metal Dopants for Methanol Conversion in the Presence and Absence of Carbon Dioxide. Applied Catalysis B: Environmental[DOI link]
  39. Rashidi, F., Leisen, J., Kim, S-J., Rownaghi A.A., Jones C.W., Nair S. (2019) All-Nanoporous Hybrid Membranes: Redefining Upper Limits on Molecular Separation Properties. Angewandte Chemie[DOI link]
  40. Al-Mamoori, A., Lewson,S., Rownaghi, A. Rezaei, F. (2019) Improving Adsorptive Performance of CaO for High Temperature CO2 Capture through Fe and Ga Doping. Energy and Fuels[DOI link]
  41. Li, X., Rezaei, F., Rownaghi, A. (2019) Methanol-to-olefin conversion on 3D-printed ZSM-5 monolith catalysts: Effects of metal doping, mesoporosity and acid strength. Microporous and Mesoporous Materials[DOI link]
  42. He, Y-X, Itta, A., Alwakwak, A-A., Huang, M., Rezaei, F., Rownaghi, A. (2018) Aminosilane-grafted SiO2-ZrO2 Polymer Hollow Fibers as Bifunctional Microfluidic Reactor for Tandem Reaction of Glucose and Fructose to 5-Hydroxymethylfurfural. ACS Sustainable Chemistry & Engineering[DOI link]
  43. Thakkar,H., AL-Naddaf, Q., legion, N., Hovis, M., Krishnamurthy, A., Rownaghi,A.A., Rezaei,F. (2018)Adsorption of Ethane and Ethylene over 3D-Printed Ethane-Selective Monoliths. ACS Sustainable Chemistry & Engineering[DOI link]
  44. Krishnamurthy, A., Thakkar,H., Rownaghi, A. Rezaei, F. (2018)Adsorptive Removal of Formaldehyde from Air using Mixed-Metal Oxides. Industrial & Engineering Chemistry Research[DOI link]
  45. Li, X., Rezaei, F., Rownaghi, A. (2018) 3D-printed zeolite monoliths with hierarchical porosity for selective methanol to light olefins reaction. Reaction Chemistry & Engineering[DOI link]
  46. Al-Mamoori, A., Rownaghi, A. Rezaei, F. (2018) Combined Capture and Utilization of CO2 for Syngas Production over Dual-Function Materials. ACS Sustainable Chemistry & Engineering[DOI link]
  47. Li, X., Alwakwak, A., Rezaei, F., Rownaghi, A. (2018) Synthesis of Cr, Cu, Ni and Y-doped 3D-printed ZSM-5 Monoliths and their Catalytic Performance for n-Hexane Cracking. ACS Applied Energy Materials[DOI link]
  48. Li, X., Rezaei, F., Ludlow, D., Rownaghi, A. (2018) Synthesis of SAPO-34@ZSM-5 and SAPO-34@Silicalite-1 Core-Shell Zeolite Composites for Ethanol Dehydration. Industrial & Engineering Chemistry Research[DOI link]
  49. Lewson,S., AL-Naddaf, Q., Krishnamurthy,A., Amour, M.S., Griffin, C., Rownaghi,A.A., Knox, J.C., Rezaei, F. (2018) UTSA-16 Growth within 3D-Printed Co-Kaolin Monoliths with High Selectivity for CO2/CH4, CO2/N2, and CO2/H2 Separation. ACS Applied Materials & Interfaces [DOI link]
  50. Thakkar,H., Lawson, S., Rownaghi,A.A., Rezaei,F. (2018)Development of 3D-Printed Polymer-Zeolite Composite Monoliths for Gas Separation.Chemical Engineering Journal[DOI link]
  51. Lewson,S., Rownaghi A.A., Rezaei, F. (2018) Development of Carbon Hollow Fiber-Supported Metal-Organic Framework Composites for Gas Adsorption. Energy Technology[DOI link]
  52. Li, X., Li, W., Rezaei, F., Rownaghi, A. (2018) Catalytic cracking of n-hexane for producing light olefins on 3D-printed monoliths of MFI and FAU zeolites. Chemical Engineering Jurnal[DOI link]
  53. Atanga, M, Rezaei, F., Jawad, A., and Rownaghi, A. (2018) Oxidative Dehydrogenation of Propane to Propylene with Carbon Dioxide. Applied Catalysis B: Environmental[DOI link]
  54. Thakkar H.V., Eastman, S., Al-Naddaf, Q., Rownaghi, A., and Rezaei, F. (2017) 3D-Printed MOF Monoliths for Gas Adsorption Processes. ACS Applied Materials & Interfaces[DOI link]
  55. Jawad, A.,Rezaei, F., and Rownaghi, A. (2017) Polymeric porous hollow fiber as bifunctional catalyst for CO2 conversion to cyclic carbonates. Journal of CO2 Utilization[DOI link]
  56. He, Y-X, Rezaei, F., Kapila, S., and Rownaghi, A. (2017) Engineering porous polymer hollow fiber microfluidic reactors for sustainable C-H functionalization. ACS Applied Materials & Interfaces[DOI link]
  57. Rownaghi, A., Bhandari, D., Burgess, S.K., Mikkilineni, D. (2017) Effects of coating solvent and thermal treatment on transport and morphological characteristics of PDMS/Torlon composite hollow fiber membrane. Journal of Applied Polymer Science [DOI link]
  58. Al-mamoori, A., Thakkar H.V., Li X., Rownaghi, A.,and Rezaei, F. (2017) Development of Potassium-and Sodium-Promoted CaO Adsorbents for CO2 Capture at High Temperatures. Industrial & Engineering Chemistry Research[DOI link]
  59. Thakkar H.V., Issa, A., Rownaghi, A., and Rezaei, F. (2017) CO2 capture from air using amine functionalized kaolin-based zeolites. Chemical Engineering & Technology[DOI link]
  60. Kant, A., He Y-X, Jawad A., Li X., Rezaei F., Smith, J.D., and Rownaghi A.A. (2017) Hydrogenolysis of glycerol over Ni, Cu, Zn, and Zr supported on H-beta. Chemical Engineering Journal[DOI link]
  61. Lewson,S., Hajari, A., Rownaghi A.A., Rezaei, F. (2017) MOF Immobilization on the Surface of Polymer-Cordierite Composite Monoliths through in-situ Crystal Growth. Separation and Purification Technology[DOI link]
  62. Hajari, A., Hartvigsen, J.L., Rownaghi, A., and Rezaei, F. (2017) Combined Flue Gas Cleanup Process for Simultaneous Removal of SOx, NOx, and CO2-A Techno-Economic Analysis.Energy&Fuels[DOI link]
  63. Thakkar H.V., Eastman, S., Al-mamoori, A., Hajari, A., Rownaghi, A., and Rezaei, F. (2017) Formulation of Aminosilica Adsorbents into 3D-Printed Monoliths and Evaluation of their CO2 Capture Performance. ACS Applied Materials & Interfaces[DOI link]
  64. Al-mamoori, A., Krishnamurthy, A., Rownaghi, A.,and Rezaei, F. (2017) Carbon Capture and Utilization Update. Energy Technology[DOI link]
  65. Thakkar H.V., Eastman, S., Hajari, A., Rownaghi, A., Knox, J.C. and Rezaei, F. (2016) 3D-Printed Zeolite Monoliths for CO2 Removal from Enclosed Environments. ACS Applied Materials & Interfaces[DOI link]
  66. He Y-X, Jawad A., Li X., Atanga M.A., Rezaei F., Rownaghi A.A. (2016) Direct Aldol and Nitroaldol Condensation in an Aminosilane-Grafted Si/Zr/Ti Composite Hollow Fiber as a Heterogeneous Catalyst and Continuous Flow Reactor. Journal of Catalysis[DOI link]
  67. Rezaei, F., Lewson, S, Hosseini, H, Thakkar H.V.,Hajari, A., Monjezi, S., Rownaghi A.A. (2016) MOF-74 and UTSA-16 Film Growth on Monolithic Structures and their CO2 Adsorption Performance. Chemical Engineering Journal[DOI link]
  68. Eum K., Ma C., Rownaghi A.A., Jones C.W., Nair S. (2016) ZIF-8 Membranes via Interfacial Microfluidic Processing in Polymeric Hollow Fibers: Efficient Propylene Separation at Elevated Pressures. ACS Applied Materials & Interfaces[DOI link]
  69. Brennan P.J., Thakkar H.V., Li X., Rownaghi A.A., Koros, W.J., Rezaei F. (2016) Role of Post-Functionalization Conditions on CO2 Adsorption Properties of Aminosilane-Grafted Zirconia/Titania/Silica-Poly(amide-imide) Composite Hollow Fiber Sorbents. Energy Technology[DOI link]
  70. Eum K., Rownaghi A.A., Choi D., Bhave R.R, Jones C.W., Nair S. (2016) Fluidic Processing of High-Performance ZIF-8 Membranes on Polymeric Hollow Fibers: Mechanistic Insights and Microstructure Control. Advanced Functional Materials[DOI link]
  71. Rownaghi A.A., Kant A., Li X., Thakkar H.V., Hajari, A., He Y-X, Brennan P.J, , Koros, W.J., Rezaei F. (2016) Aminosilane-Grafted Zirconia-Titiania-Silica Nanoparticles/Torlon Hollow Fiber Composites for CO2 Capture. ChemSusChem[DOI link]
  72. Li X., Kant A., He Y-X, Thakkar H.V., Atanga M.A., Rezaei F., Ludlow D.K., Rownaghi A.A. (2016) Light olefins from renewable resources: Selective catalytic dehydration of bioethanol to propylene over zeolite and transition metal oxide catalysts. Catalysis Today[DOI link]
  73. Rownaghi A.A., Rezaei F., Labreche Y., Brennan P.J., Johnson J.R., Li F.S., Koros W.J. (2015) In-situ formation of monodispersed mesoporous silica nanoparticles in Torlon hollow fiber sorbents for CO2 capture. ChemSusChem 8: 3439-3450.[DOI link]
  74. Glaser P., Bhandari D., Narang K., McCloskey P., Singh S., Ananthasayanam B., Howson P., Lee J., Wroczynski R., Stewart F., Christopher J., Orme K., McNally J., Rownaghi A., Lu L., Koros W.J. (2015) Bench Scale Thin Film Composite Hollow Fiber Membranes for Post-Combustion Carbon Dioxide Capture. General Electric Company[DOI link]
  75. Rezaei F., Rownaghi A.A., Monjezi, S. Lively, R.P. Jones, C.W. (2015) SOx/NOx Removal from Flue Gas Streams by Solid Adsorbents: A Review of Current Challenges and Future Directions. Energy & Fuels[DOI link]
  76. Rownaghi A.A., Koros, W.J. (2015) Composite Hollow Fiber Membranes for Post Combustion CO2 Capture. Journal of Membrane Science [DOI link]
  77. Rownaghi A.A., Koros, W.J. (2015) Thermochemical Post-treatment Effects on Morphology and Performance of PDMS/Torlon Composite Hollow Fiber (HF) Membrane. Journal of Membrane Science
  78. Rownaghi A.A., Huhnke R. L. (2013) Steam reforming of tar from a biomass gasification process production H2 rich over CaO/MgO/NiO catalysts. ACS Sustainable Chemistry & Engineering 1: 80-86.
  79. Zhu M., Rownaghi A.A., Hedlund J. (2013) Synthesis of Mesoporous ZSM-5 Zeolite Crystals by Conventional Hydrothermal Treatment. RSC Advances 3: 15596-15599.
  80. Shi, D., Faria J.A., Rownaghi A.A., Huhnke R.L., Resasco D.E., (2013) Fischer-Tropsch Synthesis Catalyzed by Solid Nanoparticles at the Water/Oil Interface in an Emulsion System. Energy & Fuels 27: 6118-6124.
  81. Li, F.S., Qiu, W., Lively, R.P., Lee, J.S., Rownaghi, A.A., Koros, W.J. (2013) Polyethyleneimine-Functionalized Polyamide Imide (Torlon) Hollow-Fiber Sorbents for Post-Combustion CO2 Capture. ChemSusChem 6: 1216-1223.
  82. Rownaghi A.A., Rezaei, F., Hedlund J. (2012) Catalytic cracking of n-hexane: influence of pore characteristics and particle size on catalytic performance of uniform ZSM-5 single crystals. Chemical Engineering Journal 191: 528-533.
  83. Rownaghi A.A., Rezaei, F., Stante M., Hedlund J. (2012) Selective catalyst for conversion of methanol to dimethyl ether. Applied Catalysis B: Environmental 119-120: 56-61.
  84. Rownaghi A.A., Rezaei, F., Hedlund J. (2012) Uniform mesoporous ZSM-5 single crystal catalyst with high resistance to coke formation for methanol deoxygenation. Microporous and Mesoporous Materials 15: 26-33.
  85. Haggstrom C., Öhrman O., Rownaghi A.A., Hedlund J., Gebart R. (2012) Catalytic methanol synthesis via black liquor gasification. Fuel Processing Technology 94:10-15.
  86. Rownaghi A.A., Hedlund J. (2011) Methanol to gasoline-range hydrocarbons: Influence of uniform nanoparticle size versus mesoporosity on catalytic performance and product distribution of ZSM-5. Industrial & Engineering Chemistry Research 50:11872-11878.
  87. Rownaghi A.A., Rezaei, F., Hedlund J. (2011) Yield of gasoline-range hydrocarbons as a function of uniform ZSM-5 crystal. Catalysis Communication 14: 37-41.
  88. Rownaghi A.A., Taufiq Yap Y. H., Rezaei, F. (2010) Innovative process for the synthesis of vanadyl pyrophosphate as a highly selective catalyst for n-butane oxidation. Chemical Engineering Journal 165:328-335.
  89. Rownaghi A.A., Taufiq Yap Y. H., Rezaei, F. (2010) Novel Synthesis Techniques for Preparation of Ultrahigh Crystalline Vanadyl Pyrophosphate as a Highly Selective Catalyst for n-Butane Oxidation. Industrial & Engineering Chemistry Research 49: 2135-2143.
  90. Rownaghi A.A., Taufiq Yap Y. H., Rezaei, F. (2009) Solvothermal synthesis of vanadium phosphate catalysts for n-butane oxidation. Chemical Engineering Journal 155: 514-522.
  91. Rownaghi A.A., Taufiq Yap Y. H. and Tang W. J. (2009) Influence of the ethylene glycol, water treatment and microwave irradiation on the characteristics and performance of VPO catalysts for n-butane oxidation to maleic anhydride. Catalysis Letter 130: 593-603.
  92. Rownaghi A.A., Taufiq Yap Y. H. (2009) High surface area vanadium phosphate catalysts for n-butane oxidation. Industrial & Engineering Chemistry Research 48: 7517-7528.
  93. Rownaghi A.A., Taufiq Yap Y. H. (2009) Influence of rare-earth and bimetallic promoters on various VPO catalysts for partial oxidation of n-butane. Catalysis Letter 130: 504-516.
  94. Taufiq Yap Y. H., Rownaghi A.A., Hussein, M.Z., Irmawati, R. (2007) Preparation of vanadium phosphate catalysts from VOPO4•2H2O: Effect microwave irradiation on morphology and catalytic property. Catalysis Letter 119: 64-71.
  95. Yavari, I., Rownaghi A.A. and Moradi, L. (2006) Conversion of thiols to disulfides using a hexamethylenetetramine-bromine complex. J. Phosphorus, Sulfur and Silicon and the Related Elements 181: 2659-2662.