1. M. Miyamoto, T. Nakatani, Y. Fujioka, K.Yogo gVerified synthesis of pure silica CHA-type zeolite in fluorite mediah, Microporous and Mesoporous Materials, 206, pp.67-74 (2015).
  2. D. S. Dao, H. Yamada, and K. Yogo, gResponse surface optimization of impregnation of blended amines into mesoporous silica for high-performance CO2 captureh, Energy & Fuels, 29, pp.985|992 (2015).
  3. H. Machida, H. Yamada, Y. Fujioka, and S. Yamamoto, gCO2 solubility measurements and modeling for tertiary diaminesh, Journal of Chemical & Engineering Data, 60, pp.814|820 (2015).
  4. S. Tanaka, T. Shimada, K. Fujita, Y. Miyake, K. Kida, K. Yogo, J. F. M. Denayer, M. Sugita and T. Takewaki, gSeeding-free aqueous synthesis of zeolitic imidazolate framework-8 membranes: How to trigger preferential heterogeneous nucleation and membrane growth in aqueous rapid reaction solutionh, Jourmal of membrane Science,472, pp.29-38 (2014).
  5. J. Fujiki and K. Yogo, Carbon dioxide adsorption on polyethyleneimine functionalized porous chitosan beads, Energy and Fuels, Vol.28CIssue 10Cpp.6467-6474 (2014).
  6. K. Goto, H. Yamada, and T. Higashii, gA simple method of evaluating alkanolamine absorbents for post-combustion CO2 captureh, Journal of Chemical Engineering of Japan, 47, pp.463|470 (2014).
  7. H. Yamada, Y. Matsuzaki, and K. Goto, gQuantitative spectroscopic study of equilibrium in CO2-loaded aqueous 2-(ethylamino)ethanol solutionsh, Industrial & Engineering Chemistry Research, 53, pp.1617|1623 (2014).
  8. H. Yamada, Duc S. Dao, F. A. Chowdhury, J. Fujiki, K. Goto, and K. Yogo, gDevelopment of amine-impregnated solid sorbents for CO2 captureh, Energy Procedia 63, pp.2346|2350 (2014).
  9. T. Watabe and K. Yogo, gEfficient CO2 adsorption on amine-impregnated mesoporous silica sorbents: Interpretation of moderate amine loadingh, Chemistry Letters, 43 pp.790-792 (2014).
  10. T. Watabe and K. Yogo, gSynthesis and CO2 adsorption properties of hydrophobic porous coordination polymer featuring [Zn9(MeBTZ)12]6+ building unitsh, Bull. Chem. Soc. Jpn. 87, pp.740-745 (2014).
  11. Y. Matsuzaki, H. Yamada, F. A. Chowdhury, T. Higashii, and M. Onoda gAb initio study of CO2 capture mechanisms in aqueous monoethanolamine: reaction pathways for the direct interconversion of carbamate and bicarbonateh, Journal of Physical Chemistry A, 117, pp.9274|9281 (2013).
  12. H. Yamada, Y. Matsuzaki, F. A. Chowdhury, and T. Higashii, gComputational investigation of carbon dioxide absorption in alkanolamine solutionsh, Journal of Molecular Modeling, 19, pp.4147|4153 (2013).
  13. K. Goto, S. Kazama, A. Furukawa, M. Serizawa, S. Aramaki, and K. Shoji, gEffect of CO2 purity on energy requirement of CO2 capture processesh, Energy Procedia, 37, pp.806-812 (2013)
  14. T. Watabe, Y. Nishizaka, S. Kazama and K. Yogo, gDevelopment of amine-modified solid sorbents for postcombustion CO2 captureh, Energy Procedia, 37, pp.199-204 (2013).
  15. K. Yogo, H. Takeyama and K. Nagata, gPore-fill-type palladium-porous alumina composite membrane for hydrogen separationh, Energy Procedia, 37, pp.1104-1108 (2013).
  16. I. Taniguchi, T. Kai, S. Duan and S. Kazama, gPAMAM dendrimer containing polymeric membrane for preferential CO2 separation over H2 - Interplay between CO2 separation properties and morphologyh, Energy Procedia, 37, pp.1067-1075 (2013).
  17. H. Yamada, F. A. Chowdhury, Y. Matsuzaki, K. Goto, T. Higashii and S. Kazama, gEffect of alcohol chain length on carbon dioxide absorption into aqueous solutions of alkanolaminesh, Energy Procedia, 37, pp.499-504 (2013).
  18. K. Goto, K. Yogo and T. Higashii, gA review of efficiency penalty in a coal-fired power plant with post-combustion CO2 captureh, Applied Energy, 111, pp.710-720 (2013).
  19. S. Duan, T. Kai, S. Kazama, I. Taniguchi and H. Jinnai, gEffect of phase-separated structure on CO2 separation performance of poly(amidoamine) dendrimer immobilized in a poly(ethylene glycol) networkh, Journal of Materials Chemistry A, 1(46), pp.14514-14523 (2013).
  20. J. Fujiki and K. Yogo, gPolyethyleneimine-functionalized biomass derived adsorbent beads for carbon dioxide capture at ambient conditionsh, Chemistry Letters, 42(12), pp.1484-1486 (2013).
  21. T. Watabe and K. Yogo, gIsotherms and isosteric heats of adsorption for CO2 in amine-functionalized mesoporous silicash, Separation and Purification Technology, 120, pp.20-23 (2013).
  22. D. S. Dao, H. Yamada and K. Yogo, gLarge-pore mesostructured silica impregnated with blended amines for CO2 captureh, Industrial & Engineering Chemistry Research, 52, pp.13810-13817 (2013).
  23. H. Yamada, F. A. Chowdhury, K. Goto and T. Higashii, gCO2 solubility and species distribution in aqueous solutions of 2-(Isopropylamino)ethanol and its structural isomersh, International Journal of Greenhouse Gas Control, 17, pp.99-105 (2013).
  24. S. Duan, I. Taniguchi, T. Kai and S. Kazama, gDevelopment of poly(amidoamine) dendrimer/polyvinyl alcohol hybrid membranes for CO2 capture at elevated pressuresh, Energy Procedia, 37, pp.924-931 (2013).
  25. T. Kai, I. Taniguchi, S. Duan, F. A. Chowdhury, T. Saito, K. Yamazaki, K. Ikeda, T. Ohara, S. Asano and S. Kazama, gMolecular gate membrane: poly(amidoamine) dendrimer/polymer hybrid membrane modules for CO2 captureh, Energy Procedia, 37, pp.961-968 (2013).
  26. S. Duan, T. Kai, I. Taniguchi and S. Kazama, gDevelopment of poly(amidoamine) dendrimer/poly(vinyl alcohol) hybrid membranes for CO2 separationh, Desalination and Water Treatment Journal, 51(25-27), pp.5337-5342 (2013).
  27. F. A. Chowdhury, H. Yamada, T. Higashii, K. Goto and M. Onoda, gCO2 capture by tertiary amine absorbents: A performance comparison studyh, Industrial & Engineering Chemistry Research, 52(24), pp.8323-8331 (2013).
  28. S. Duan, I. Taniguchi, T. Kai and S. Kazama, gPoly(amidoamine) dendrimer/poly(vinyl alcohol) hybrid membranes for CO2 captureh, Journal of Membrane Science, 423-424, pp107-112 (2012).
  29. M. Miyamoto, Y. Fujioka and K. Yogo, gPure silica CHA type Zeolite for CO2 separation using pressure swing adsorption at high pressureh, Journal of Materiasl Chemistry, 22 (38), pp.20186-20189 (2012).
  30. I. Taniguchi, Y. Ootera, F. A. Chowdhury, K. Tomizaki, T. Kai and S. Kazama, gPolymeric membranes composed of polystyrenes tethering amino acids for preferential CO2 separation over H2h, Polymer Bulletin, 69(4), pp.405-415 (2012).
  31. H. Yamada, T. Higashii, F. A. Chowdhury, K. Goto and S. Kazama, gExperimental study into carbon dioxide solubility and species distribution in aqueous alkanolamine solutionsh, WIT Trans. Ecol. Envir. 157, pp.515-523 (2012).
  32. M. Miyamoto, A. Takayama, S. Uemiya and K. Yogo, gStudy of gas adsorption properties of amidoamine-loaded mesoporous silica for examining Its Use in CO2 Separationh, Journal of Chemical Engineering of Japan, 45(6), pp395-400, (2012).
  33. K. Goto, F. A.Chowdhury, S. Kodama, H. Okabe and Y. Fujioka, gCO2 absorption characteristics of 2-Isopropylaminoethanol(IPAE) aqueous solutionh, ACS Symposium Series: gRecent Advances in Post-Combustion CO2 Capture Chemistryh, 1097, pp.317-331, (2012).
  34. K. Goto, S. Kodama, H. Okabe and Y. Fujioka, gEnergy performance of new amine-based solvents for CO2 capture from blast furnace gash, ACS Symposium Series: gRecent Advances in Post-Combustion CO2 Capture Chemistryh, 1097, pp.71-85, (2012).
  35. H. Yamada, Y. Matsuzaki, T. Higashii, and S. Kazama, gDensity functional theory study on carbon dioxide absorption into aqueous solutions of 2-amino-2-methyl-1-propanol using a continuum solvation modelh, Journal of Physical Chemistry A, 115, pp.3079|3086 (2011).
  36. H. Yamada, Y. Matsuzaki, H. Okabe, S. Shimizu, and Y. Fujioka, gQuantum chemical analysis of carbon dioxide absorption into aqueous solutions of moderately hindered aminesh, Energy Procedia 4, pp.133|139 (2011).
  37. K. Yogo, M. Miyamoto, A. Takayama and S. Uemiya, gGas permeation properties of amine loaded mesoporous silica membranes for CO2 separationh, Desalination and Water Treatment, 34, pp.266-271 (2011).
  38. K. Goto, H. Okabe, F. A. Chowdhury, S. Shimizu, Y. Fujioka and M. Onoda, gDevelopment of novel absorbents for CO2 capture from blast furnace gash, International Journal of Greenhouse Gas Control, 5, pp.1214-1219 (2011).
  39. K. Yogo, T. Watabe, Y. Fujioka, Y. Matsukuma and M. Minemoto, gDevelopment of an energy-saving CO2-PSA process using hydrophobic adsorbentsh, Energy Procedia, 4, pp.803-808 (2011).
  40. K. Goto, F. A. Chowdhury, H. Okabe, S. Shimizu and Y. Fujioka, gDevelopment of a low cost CO2 capture system with a novel absorbent under the COCS projecth, Energy Procedia, 4, pp.253-258 (2011).
  41. K. Nagata, K. Yogo, T. Watabe, Y. Fujioka and M. Miyamoto, gPreparation of pore-fill-type palladium-porous alumina composite membrane for hydrogen separationh, Chemistry Letters, 40, pp.19-21 (2011).
  42. H. Yamada, S. Shimizu, H. Okabe, Y. Matsuzaki, F. A. Chowdhury, and Y. Fujioka, gPrediction of the basicity of aqueous amine solutions and the species distribution in the amine-H2O-CO2 system using the COSMO-RS methodh, Industrial & Engineering Chemistry Research, 49, pp.2449|2455 (2010).
  43. K. Yogo, M. Miyamoto, Y. Fujioka and K. Nagata, gHydrogen separation membrane encapsulating Pd nanoparticles in a mesoporous silica layerh, Desalination and Water Treatment, 17, pp.233-241 (2010).
  44. T. Kai,@S. Kazama and@Y. Fujioka, gDevelopment of cesium-incorporated carbon membranes for CO2 separation under humid conditionsh, Journal of Membrane Science, 342, pp.14-21 (2009).
  45. K. Goto, H. Okabe, S. Shimizu, M. Onoda and Y. Fujioka, gEvaluation method of novel absorbents for CO2 captureh, Energy Procedia, 1, pp.1083-1089 (2009).
  46. K. Yogo, N. Hiyoshi and T. Yashima, gAdsorption of carbon dioxide on amine-modified MSU-H silica in the presence of water vaporh, Chemistry Letters, 37, pp.1266-1267 (2008).
  47. M. Miyamoto, K. Yogo, K. Nagata, T. Maruo, N. Nishiyama, Y. Egashira and K. Ueyama, gHighly permeable mesoporous silica membranes synthesized by vapor infiltration of Tetraethoxysilane into non-ionic alkylpoly(oxyethylene)surfactant filmh, Journal of Membrane Science, 325, pp.698-703 (2008).
  48. T. Kai, T. Kouketsu, S. Duan, S. Kazama and K. Yamada, gDevelopment of commercial-sized dendrimer composite membrane modules for CO2 removal from flue gash, Separation and Purification Technology, 63, pp.524-530 (2008).
  49. S. Uemiya, A. Tanigawa, T. Koike, Y. Sasaki, T. Ban, Y. Ohya, R.Yoshiie, M. Nishimura, N. Yamamoto, K. Yogo, and K. Yamada,"Microstructures formed by secondary growth of fired ZSM-5 seedcrystals," Journal of Porous Materials, 15, pp.405-410 (2008).
  50. S. Kodama, T. Nishimoto, N. Yamamoto, K. Yogo and K. Yamada, gDevelopment of a new pH-swing CO2 mineralization process with recyclable reaction solutionh Energy, 33, pp.278-285 (2008).
  51. S. Duan, F. A. Chowdhury, T. Kai, S. Kazama and Y. Fujioka, gPAMAM dendrimer composite membrane for CO2 separation: Addition of hyaluronic acid in gutter layer and application of novel hydroxyl PAMAM dendrimerh, Desalination, 234, pp.278-285 (2008).
  52. Y. Sakamoto, K. Nagata, K. Yogo and K. Yamada, gPreparation and CO2 separation properties of amine-modified mesoporous silica membranes, Microporous and Mesoporous Materials, 101, pp.303-311 (2007).
  53. T. Kouketsu, S. Duan, T. Kai, S. Kazama and K. Yamada, PAMAM dendrimer composite membrane for CO2 separation: Formation of a chitosan gutter layerh, Journal of Membrane Science, 287, pp.51-59 (2007).
  54. N. Hiyoshi, K. Yogo and T. Yashima, gAdsorption characteristics of carbon dioxide on organically functionalized SBA-15h, Microporous and Mesoporous Materials, 84, 357-365 (2005).
  55. N. Hiyoshi, K. Yogo and T. Yashima,@"Adsorption of carbon dioxide on aminosilane Modified Mesoporous Silica", Journal of the Japan Petroleum Institute, 48(1) 29-36 (2005).
  56. N. Hiyoshi, K. Yogo and T. Yashima, "Adsorption of carbon dioxide on modified SBA-15 in the presence of water vapor", Chemistry Letters, 33(5), pp.510-511 (2004).

˜_•¶”­•\(2004”N`)

ŠÂ‹«“K‰ž•¨Ž¿ŠwŒ¤‹†Žº

Œö‰và’c–@l@’n‹…ŠÂ‹«ŽY‹Æ‹ZpŒ¤‹†‹@\iRITEj

˜AŒgŒ¤‹†Žº

“Þ—Çæ’[‰ÈŠw‹Zp‘åŠw‰@‘åŠw@•¨Ž¿‘n¬‰ÈŠwŒ¤‹†‰È
£ƒy[ƒW‚Ì擪‚Ö