PUBLICATIONS

Book Chapters

UP ^

  1. Advances in CO2 Conversion and Utilization, Yun Hang Hu, Editor. ACS Symposium Series (1056), Washington DC, USA (2010). ISBN 978-0-8412-2596-1. Chapter 15 H. Pfeiffer, Advances on alkaline ceramics as possible CO2 captors, pp 233-253.

  2. Lithium: Technology, Performance and Safety, Francisco L. Tabarés editor, Nova Science Publishers, (2013) ISBN: 978-1-62417-634-0. Chapter 6; T. L. Ávalos-Rendón, M. T. Flores-Martínez, L. Martínez-dlCruz, J. Ortiz-Landeros, R. Rodríguez-Mosqueda and H. Pfeiffer, Lithium ceramics as an alternative for the CO2 capture. Analysis of different physicochemical factors controlling this process, pp 171-192.

  3. CO2 Sequestration and Valorization, C. R. Vaz Morgado and V. P. P. Esteves editors, InTech Publishers, (2014) ISBN 980-953-307-1114-5. Chapter 14; M. J. Ramírez-Moreno, I. C. Romero-Ibarra, J. Ortiz-Landeros and H. Pfeiffer, Alkaline and alkaline-earth ceramic oxides for CO2 capture, separation and subsequent catalytic chemical conversion, pp 403-441.

    • 3.1 Chapter reedited and published: Advanced Biofuels. Using Catalytic Routes for the Conversion of Biomass Platform Molecules, J. C. Serrano-Ruiz editor, APP Apple Academic Press, CRC Press, Taylor & Francis Group, (2015) ISBN 978-1-77188-132-6. Chapter 10; M. J. Ramírez-Moreno, I. C. Romero-Ibarra, J. Ortiz-Landeros and H. Pfeiffer, Alkaline and alkaline-earth ceramic oxides for CO2 capture, separation and subsequent catalytic chemical conversion, pp 253-300.
  4. Carbon Dioxide Capture: Processes, Technology and Environmental Implications, Jonathan Albo editor, Nova Science Publishers, (2016) ISBN: 978-1-63485-321-7. Chapter 6; B. Alcántar-Vázquez and H. Pfeiffer, Advances on CO2 capture, separation and utilization through different physicochemical mechanisms using alkaline ceramics, app 123-147.

  5. Pre-combustion carbon dioxide capture materials, Inorganic Materials Series, Qiang Wang editor, Royal Society of Chemistry, (2018) ISBN: 978-1-78801-108-2. Chapter 4; E. Vera, H. A. Lara-García and H. Pfeiffer, Alkaline ceramic-based high-temperature CO2 CO2 sorbents, pp 238-280.



Papers

UP ^

  1. H. Pfeiffer, P. Bosch, S. Bulbulian, Synthesis of lithium silicates. Journal of Nuclear Materials, 257 (1998) 309-317.

  2. H. Pfeiffer, P. Bosch, S. Bulbulian, Sol-gel synthesis of Li2ZrSi6O15 powders. Journal of Materials Chemistry, 10 (2000) 1255-1258.

  3. H. Pfeiffer, P. Bosch, J. A. Odriozola, A. Lopez, J. A. Ascencio, S. Bulbulian, Sol-gel synthesis of Li-ZrSiO4. Journal of Materials Research, 15 (2000) 1490-1495.

  4. H. Pfeiffer, J. Sánchez-Sánchez, L. J. Álvarez, Lithium and tritium diffusion in lithium oxide (Li2O), a molecular dynamics simulation. Journal of Nuclear Materials, 280 (2000) 295-303.

  5. A. A. Morales, H. Pfeiffer, A. Delfin, S. Bulbulian, Phase transformations on lithium silicates under irradiation. Materials Letters, 50 (2001) 36-40.

  6. H. Pfeiffer, P. Bosch, B. Lopez, J. Jimenez-Becerril, S. Bulbulian, Radiation damage and tritium release from Li-Zr-Si oxides. Solid State Science, 4 (2002) 535-540.

  7. H. Pfeiffer, P. Bosch, S. Bulbulian, Zr-alkoxide chain effect on the sol-gel synthesis of lithium metazirconate, Li2ZrO3. Materials Chemistry and Physics, 78 (2002) 558-561.

  8. H. Pfeiffer, K. M. Knowles, Effects of vanadium and manganese concentrations on the composition, structure and electrical properties of ZnO-rich MnO<2-V2O5-ZnO varistors. Journal of the European Ceramic Society, 24 (2004) 1199-1203.

  9. H. Pfeiffer, K. M. Knowles, Reaction mechanisms and kinetics of the synthesis and decomposition of lithium metazirconate through solid-state reaction. Journal of the European Ceramic Society, 24 (2004) 2433-2443.

  10. H. Pfeiffer, F. Tancret, M. P. Bichat, L. Monconduit, F. Favier, T. Brousse, Air stable copper phosphide (Cu3P): a possible negative electrode material for lithium batteries. Electrochemistry Communications, 6 (2004) 263-267.

  11. M. P. Bichat, T. Politova, H. Pfeiffer, F. Tancret, L. Monconduit, T. Brousse, F. Favier, Cu3P as anode material for lithium ion battery: powder morphology and electrochemical performances. Journal of Power Sources, 136 (2004) 80-87.

  12. H. Pfeiffer, P. Bosch, Thermal stability and high-temperature carbon dioxide sorption on hexa-lithium zirconate (Li6Zr2O7). Chemistry of Materials, 17 (2005) 1704-1710.

  13. H. Pfeiffer, F. Tancret, T. Brousse, Synthesis, characterization and thermal stability of Ni3P coatings on nickel. Materials Chemistry and Physics, 92 (2005) 534-539.

  14. H. Pfeiffer, F. Tancret, T. Brousse, Synthesis, characterization and electrochemical properties of copper phosphide thick films prepared by solid-state reaction at low temperature: A probable anode for lithium ion batteries. Electrochimica Acta, 50 (2005) 4763-4770.

  15. D. Cruz, S. Bulbulian, E. Lima, H. Pfeiffer, Kinetic analysis of the thermal stability of lithium silicates (Li4SiO4 and Li2SiO3). Journal of Solid State Chemistry, 179 (2006) 909-916.

  16. D. Cruz, H. Pfeiffer, S. Bulbulian, Synthesis of Li2MO3 (M = Ti or Zr) by the combustion method. Solid State Sciences, 8 (2006) 470-475.

  17. H. A. Mosqueda, C. Vazquez, P. Bosch, H. Pfeiffer, Chemical sorption of carbon dioxide (CO2) on lithium oxide (Li2O). Chemistry of Materials, 18 (2006) 2307-2310.

  18. H. Pfeiffer, E. Lima, P. Bosch, Lithium-sodium metazirconate solid solutions, Li2-xNaxZrO3 (0 ≤ x ≤ 2), a hierarchical architecture. Chemistry of Materials, 18 (2006) 2642-2647.

  19. S. Martinez-Gallegos, H. Pfeiffer, E. Lima, M. Espinosa, P. Bosch, S. Bulbulian, Cr (VI) immobilization in mixed (Mg, Al) oxides. Microporous and Mesoporous Materials, 94 (2006) 234-242.

  20. H. Pfeiffer, C. Vazquez, V. H. Lara, P. Bosch, Thermal behavior and CO2 absorption of the Li2-xNaxZrO3 solid solutions. Chemistry of Materials, 19 (2007) 922-926.

  21. J. Ortiz-Landeros, M. E. Contreras-Garcia, H. Pfeiffer, Tailored macroporous ZrO2-Al2O3 mixed oxides by template-assisted method: Novel materials for catalytic applications. Advances in Technology of Materials and Materials Processing Journal, 9 (2007) 119-124.

  22. M. J. Venegas, E. Fregoso-Israel, R. Escamilla, H. Pfeiffer, Kinetic and reaction mechanism of the CO2 sorption on Li4SiO4, study of the particle size effect. Industrial & Engineering Chemistry Research, 46 (2007) 2407-2412.

  23. A. Sampieri, G. Fetter, H. Pfeiffer, P. Bosch, Carbonate phobic (Zn, Mn) Al hydrotalcite-like compounds. Solid State Sciences, 9 (2007) 394-403.

  24. M. Y. Veliz-Enriquez, G. Gonzalez, H. Pfeiffer, Synthesis and CO2 capture evaluation of Li2-xKxZrO3 solid solutions and crystal structure of a new lithium-potassium zirconate phase. Journal of Solid State Chemistry, 180 (2007) 2485-2492.

  25. F. Méndez-Martínez, M. J. Venegas, H. Pfeiffer, Microstructural development of ZnO pellets doped with different vanadium oxides (V2O5 and V2O3). International Journal of Applied Ceramic Technology, 4 (2007) 564-570.

  26. E. Lima, A. Guzmán-Vargas, J. Méndez-Vivar, H. Pfeiffer, J. Fraissard, Fe-ZSM-5 catalysts: Preparation in organic media, Fe-particle morphology and NOx reduction activity. Catalysis Letters, 120 (2008) 244-251.

  27. A. Sandoval-Diaz, H. Pfeiffer, Effects of potassium doping on the composition, structure and carbon dioxide chemisorption of Na2ZrO3. Revista Mexicana de Física, 54 (2008) 65-68.

  28. I. Alcérreca-Corte, E. Fregoso-Israel, H. Pfeiffer, CO2 absorption on Na2ZrO3: A kinetic analysis of the chemisorption and diffusion processes. Journal of Physical Chemistry C, 112 (2008) 6520-6525.

  29. G. Mondragon-Gutiérrez, D. Cruz, H. Pfeiffer, S. Bulbulian, Low temperature synthesis of Li2SiO3: Effect on its morphological and textural properties. Research Letters in Materials Science, 2 (2008) 1-4.

  30. M. T. Rodriguez, H. Pfeiffer, Sodium metasilicate (Na2SiO3): A thermo-kinetic analysis of its CO2 chemical sorption. Thermochimica Acta, 473 (2008) 92-95.

  31. L. M. Palacios-Romero, H. Pfeiffer, Lithium cuprate (Li2CuO2): A new possible ceramic material for CO2 chemisorption. Chemistry Letters, 37 (2008) 862-863.

  32. V. L. Mejía-Trejo, E. Fregoso-Israel, H. Pfeiffer, Textural, structural and CO2 chemisorption effects produced on the lithium orthosilicate by its doping with sodium (Li4-xNaxSiO4). Chemistry of Materials, 20 (2008) 7171-7176.

  33. L. M. Palacios-Romero, E. Lima, H. Pfeiffer, Structural analysis and CO2 chemisorption study on non-stoichiometric lithium cuprates (Li2+xCuO2+x/2). Journal of Physical Chemistry A, 113 (2009) 193-198.

  34. J. Ortiz-Landeros, M. E. Contreras-Garcia, H. Pfeiffer, Synthesis of macroporous ZrO2-Al2O3 mixed oxides with mesopores walls, using polystyrene spheres as template. Journal of Porous Materials, 16 (2009) 473-479.

  35. T. Ávalos-Rendón, J. Casa-Madrid, H. Pfeiffer, Thermochemical capture of carbon dioxide on lithium aluminates (LiAlO2 and Li5AlO4): A new option for the CO2 absorption. Journal of Physical Chemistry A, 113 (2009) 6919-6923.

  36. S. López-Ayala, M. E. Rincón, H. Pfeiffer, Influence of copper on the microstructure of sol-gel titanium oxide nanotubes array. Journal of Materials Science, 44 (2009) 4162-4168.

  37. E. Andrade, S. Alfaro, M. A. Valenzuela, C. Solis, E. P. Zaval, M. F. Rocha, J. Cruz, H. Pfeiffer, P. Bosch, C. Contreras, J. Baptiste, Iba of zeolites exchanged with lithium for CO2 retention. Application of Accelerators in Research and Industry, 1099 (2009) 339-342.

  38. H. Pfeiffer, E. Lima, V. H. Lara, J. S. Valente, Thermokinetic study of the rehydration process of a calcined MgAl-layered double hydroxide. Langmuir, 26 (2010) 4074-4079.

  39. R. Cisneros, H. Pfeiffer, C. Wang, Oxygen absorption in free-standing porous silicon: A structural, optical and kinetic analysis. Nanoscale Research Letters, 5 (2010) 686-691.

  40. F. Méndez-Martínez, F. González, E. Lima, P. Bosch, H. Pfeiffer, Znx-1CuxMn2O4 spinels; synthesis, structural characterization and electrical evaluation. Journal of the Mexican Chemical Society, 54 (2010) 2-6.

  41. R. Rodríguez-Mosqueda, H. Pfeiffer, Thermokinetic analysis of the CO2 chemisorption on Li4SiO4 by using different gas flow rates and particle sizes. Journal of Physical Chemistry A, 114 (2010) 4535-4541.

  42. H. Pfeiffer, L. Martínez-dlCruz, E. Lima, J. Flores, M. Vera, J. S. Valente, Influence of Mg/Al ratio on the thermokinetic rehydration of calcined Mg-Al layered double hydroxides. Journal of Physical Chemistry C, 114 (2010) 8485–8492.

  43. L. Martínez-dlCruz, H. Pfeiffer, Towards understanding the effect of water sorption on lithium zirconate (Li2ZrO3) during its carbonation process at low temperatures. Journal of Physical Chemistry C, 114 (2010) 9453-9458.

  44. L. Martínez-dlCruz, H. Pfeiffer, Effect of the oxygen addition on the thermokinetic properties of CO2 chemisorption on Li2ZrO3. Industrial & Engineering Chemistry Research, 49 (2010) 9038-9042.

  45. J. Ortiz-Landeros, L. Martínez-dlCruz, C. Gómez-Yáñez, H. Pfeiffer, Towards understanding the thermoanalysis of water sorption on lithium orthosilicate (Li4SiO4). Thermochimica Acta, 515 (2011) 73-78.

  46. D. A. Torres-Rodriguez, H. Pfeiffer, Thermokinetic analysis of the MgO surface carbonation process in presence of water vapor. Thermochimica Acta, 516 (2011) 74-78.

  47. T. Ávalos-Rendón, J. Ortíz-Landeros, G. Fetter, V. H. Lara, P. Bosch, H. Pfeiffer, Structure, thermal stability and catalytic performance of MgO-ZrO2 composites. Journal of Structural Chemistry, 52 (2011) 340-349.

  48. J. S. Valente, H. Pfeiffer, E. Lima, J. Prince, J. Flores, Cyanoethylation of alcohols by activated MgAl Layered Double Hydroxides: Influence of rehydration conditions and Mg/Al molar ratio on Brönsted basicity. Journal of Catalysis, 279 (2011) 196-204.

  49. T. Ávalos-Rendón, H. Pfeiffer, Evidence of CO2 chemisorption at high temperature in lithium gallate (Li5GaO4). Chemistry Letters, 40 (2011) 504-505.

  50. J. Ortiz-Landeros, M. E. Contreras-García, C. Gómez-Yáñez, H. Pfeiffer, Surfactant-assisted hydrothermal crystallization of nanostructured lithium metasilicate (Li2SiO3) hollow spheres: I) Synthesis, structural and microstructural characterization. Journal of Solid State Chemistry, 184 (2011) 1304-1311.

  51. J. Ortiz-Landeros, C. Gómez-Yáñez, H. Pfeiffer, Surfactant-assisted hydrothermal crystallization of nanostructured lithium metasilicate (Li2SiO3) hollow spheres: II) Textural analysis and CO2-H2O sorption evaluation. Journal of Solid State Chemistry, 184 (2011) 2257-2262.

  52. H. Pfeiffer, Thermal analysis of the Mg(OH)2 dehydroxylation process at high pressures. Thermochimica Acta, 525 (2011) 180-182.

  53. H. Pfeiffer, T. Ávalos-Rendón, E. Lima, J. S. Valente, Thermochemical and cyclability analyses of the CO2 absorption process on a Ca/Al layered double hydroxide. Journal of Environmental Engineering, 137 (2011) 1058-1065.

  54. D. A. Torres-Rodriguez, E. Lima, J. S. Valente, H. Pfeiffer, CO2 capture at low temperatures (30-80 ºC) and in the presence of water vapor over a thermally activated Mg-Al layered double hydroxide. Journal of Physical Chemistry A, 115 (2011) 12243-12250.

  55. G. G. Santillán-Reyes, H. Pfeiffer, Analysis of the CO2 capture in sodium zirconate (Na2ZrO3). Effect of the water vapor addition. International Journal of Greenhouse Gas Control, 5 (2011) 1624-1629.

  56. H. A. Mosqueda, H. Pfeiffer, Kinetic analysis of the thermal decomposition of Li4Ti5O12 pellets. Processing and Application of Ceramics, 5 (2011) 199-203.

  57. S. Loera, E. Lima, H. Pfeiffer, V. H. Lara, Synthesis of aluminosilicates under high pressure and using sulfur as directing agent. Central European Journal of Chemistry, 10 (2012) 105-112.

  58. A. Roman-Tejeda, H. Pfeiffer, α → γ Lithium borate phase transition produced during the CO2 chemisorption process. Journal of Thermal Analysis and Calorimetry, 110 (2012) 807-811.

  59. J. Ortiz-Landeros, T. Ávalos-Rendón, C. Gómez-Yáñez, H. Pfeiffer, Analysis and perspectives concerning CO2 chemisorption on lithium ceramics using thermal analysis. Journal of Thermal Analysis and Calorimetry, 108 (2012) 647-655.

  60. T. Ávalos-Rendón, V. H. Lara, H. Pfeiffer, CO2 chemisorption and cyclability analyses of lithium aluminate polymorphs (- and -Li5AlO4). Industrial & Engineering Chemistry Research, 51 (2012) 2622-2630.

  61. J. Ortiz-Landeros, C. Gómez-Yáñez, L. M. Palacios-Romero, E. Lima, H. Pfeiffer, Structural and thermochemical chemisorption of CO2 on Li4+x(Si1-xAlx)O4 and Li4-x(Si1-xVx)O4 solid solutions. Journal of Physical Chemistry A, 116 (2012) 3163-3171.

  62. L. Martínez-dlCruz, H. Pfeiffer, Microstructural thermal evolution of the Na2CO3 phase produced during a Na2ZrO3-CO2 chemisorption process. Journal of Physical Chemistry C, 116 (2012) 9675-9680.

  63. T. Ávalos-Rendón, H. Pfeiffer, High C2 chemisorption in α-Li5AlO4 at low temperatures (30-80 °C): Effect of the water vapor addition. Energy & Fuels, 26 (2012) 3110-3114.

  64. A. Sampieri, J. Vázquez-Arenas, I. González, G. Fetter, H. Pfeiffer, M. E. Villafuerte, P. Bosch, Electrochemical behavior of (Zn, Mn)-Al nitrated hydrotalcites. Journal of New Materials for Electrochemical Systems, 15 (2012) 301-306.

  65. J. E. Moreno-Marcelino, F. Granados-Correa, H. Pfeiffer, S. Bulbulian, Synthesis of MgO, ZnO and Al2O3 by solid and solution combustion processes and study of their performances in Co2+ uptake. Journal of Ceramics-Silikaty, 56 (2012) 254-260.

  66. J. Ortiz-Landeros, C. Gómez-Yáñez, R. López-Juárez, I. Dávalos-Velasco, H. Pfeiffer, Synthesis of advanced ceramics by hydrothermal crystallization and modified related methods. Journal of Advanced Ceramics, 1 (2012) 204-220.

  67. A. Sánchez-Rueda, H. Pfeiffer, Thermogravimetric analysis of the water vapor addition during the CaO carbonation process at moderate temperatures (40-70 °C). Journal of Thermal Analysis and Calorimetry, 111 (2013) 1385-1390.

  68. Z. I. Bedolla-Valdez, S. Ramirez-Solis, J. Prince, E. Lima, H. Pfeiffer, J. S. Valente, Dynamic water vapor sorption on Mg(Ga3+)O mixed oxides; Analysis of the LDH thermal regeneration process. Thermochimica Acta, 553 (2013) 49-53.

  69. F. Durán-Muñoz, I. C. Romero-Ibarra, H. Pfeiffer, Analysis of the CO2 chemisorption reaction mechanism in lithium oxosilicate (Li8SiO6): A new option for high-temperature CO2 capture. Journal of Materials Chemistry A, 1 (2013) 3919-3925.

  70. J. Ortiz-Landeros, I. C. Romero-Ibarra, C. Gómez-Yáñez, E. Lima, H. Pfeiffer, Li4+x(Si1-xAlx)O4 solid solution mechanosynthesis and kinetic analysis of the CO2 chemisorption process. Journal of Physical Chemistry C, 117 (2013) 6303-6311.

  71. R. Rodríguez-Mosqueda, H. Pfeiffer, High CO2 capture in sodium metasilicate (Na2SiO3) at low temperatures (30-60 °C), through the CO2-H2O chemisorption process. Journal of Physical Chemistry C, 117 (2013) 13452-13461.

  72. L. Martínez-dlCruz, H. Pfeiffer, Cyclic CO2 chemisorption-desorption of Na2ZrO3. Structural, microstructural and kinetic variations produced as a function of temperature. Journal of Solid State Chemistry, 204 (2013) 298-304.

  73. Y. Duan, H. Pfeiffer, B. Li, I. C. Romero-Ibarra, D. C. Sorescu, D. R. Luebke, J. W. Halley, CO2 capture properties of lithium silicates with different ratios of Li2O/SiO2: an ab initio thermodynamic and experimental approach. Physical Chemistry Chemical Physics, 15 (2013) 13538-13558.

  74. I. C. Romero-Ibarra, J. Ortiz-Landeros, H. Pfeiffer, Microstructural and CO2 chemisorption analyses of Li4SiO4: effect of surface modification by the ball milling process. Thermochimica Acta, 567 (2013) 118-124.

  75. B. Alcántar-Vázquez, C. Diaz, I. C. Romero-Ibarra, E. Lima, H. Pfeiffer, Structural and CO2 chemisorption analyses on Na2(Zr1-xAlx)O3 solid solutions. Journal of Physical Chemistry C, 117 (2013) 16483-16491.

  76. A. A. Morales, R. Schouwenaars, H. Pfeiffer, R. M. Ramírez-Zamora, Inactivation of Ascaris eggs in water using hydrogen peroxide and a Fenton type nanocatalyst (FeOx/C) synthesized by a novel hybrid production process. Journal of Water and Health, 11 (2013) 419-429.

  77. P. Sánchez-Camacho, I. C. Romero-Ibarra, H. Pfeiffer, Thermokinetic and microstructural analyses of the CO2 chemisorption on K2CO3-Na2ZrO3. Journal of CO2 Utilization, 3-4 (2013) 14-20.

  78. N. Santiago-Torres, I. C. Romero-Ibarra, H. Pfeiffer, Sodium zirconate (Na2ZrO3) as a catalyst in a soybean oil transesterification reaction for biodiesel production. Fuel Processing Technology, 120 (2014) 34-39.

  79. I. C. Romero-Ibarra, F. Durán-Muñoz, H. Pfeiffer, Influence of the K-, Na- and K-Na-carbonate additions during the CO2 chemisorption on lithium oxosilicate (Li8SiO6). Greenhouse Gases: Science and Technology, 4 (2014) 145-154.

  80. P. Rangel-Rivera, G. Rangel-Porras, H. Pfeiffer, E. Lima-Muñoz, Thermoanalytical study of acid-treated clay containing amino acid immobilized on its surface. Journal of Thermal Analysis and Calorimetry, 115 (2014) 1359-1369.

  81. E. Lima, H. Pfeiffer, J. Flores, Some consequences of the fluorination of brucite-like layers in layered double hydroxides: adsorption. Applied Clay Science, 88-89 (2014) 26-32.

  82. J. M. Ramírez-Moreno, I. C. Romero-Ibarra, M. A. Hernández-Pérez, H. Pfeiffer, CO2 adsorption at elevated pressure and temperature on Mg-Al layered double hydroxide, Industrial & Engineering Chemistry Research, 53 (2014) 8087-8094.

  83. H. Lara, I. C. Romero-Ibarra, H. Pfeiffer, Hierarchical Na-doped cubic ZrO2 synthesis by a simple hydrothermal route and its application in biodiesel production, Journal of Solid State Chemistry, 218 (2014) 213-220.

  84. A. Perez-Verdejo, A. Sampieri, H. Pfeiffer, M. Ruiz-Reyes, J. D. Santamaria, G. Fetter, Nanoporous composites prepared by a combination of SBA-15 with Mg-Al mixed oxides. Water vapor sorption properties, Beilstein Journal of Nanotechnology, 5 (2014) 1226-1234.

  85. P. Sánchez-Camacho, I. C. Romero-Ibarra, Y. Duan, H. Pfeiffer, Thermodynamic and kinetic analyses of the CO2 chemisorption mechanism on Na2TiO3; Experimental and Theoretical Evidences, Journal of Physical Chemistry C, 118 (2014) 19822-19832.

  86. B. Alcántar-Vázquez, J. F. Gómez-García, G. Tavizon, I. A. Ibarra, C. Diaz, E. Lima, H. Pfeiffer, Structural and ionic conduction analyses of the Na2(Zr1−xAlx)O3-x/2 solid solution, during the CO2 chemisorption process, Journal of Physical Chemistry C, 118 (2014) 26212-26218.

  87. G. Rangel-Porras, P. Rangel-Rivera, H. Pfeiffer, P. Gonzalez-Muñoz, Changes in the characteristics of acid-treated clay after the inclusion of proteins, Surface and Interface Analysis, 47 (2015) 135-141.

  88. M. B. Durán-Guevara, J. Ortiz-Landeros, H. Pfeiffer, M. I. Espitia-Cabrera, M. E. Contreras-García, Potassium-based sorbents using mesostructured gamma-alumina supports for low temperature CO2 capture, Ceramics International, 41 (2015) 3036-3044.

  89. P. R. Díaz-Herrera, M. J. Ramírez-Moreno, H. Pfeiffer, The effects of high-pressure on the chemisorption process of CO2 on lithium oxosilicate (Li8SiO6), Chemical Engineering Journal, 264 (2015) 10-15.

  90. H. Valencia-Sanchez, H. Pfeiffer, D. Acosta, A. Negrón-Mendoza, G. Tavizon, Synthesis and characterization of K2[LnTa3O10]nH2O, Ln= La, Pr, Nd; Cation-deficient layered perovskite tantalates for water photolysis, Canadian Journal of Chemistry, 93 (2015) 550-557.

  91. B. Alcántar-Vazquez, E. Vera, F. Buitron, H. Lara-Garcia, H. Pfeiffer, Evidences of CO oxidation-chemisorption process on sodium zirconate (Na2ZrO3), Chemistry Letters, 44 (2015) 480-482.

  92. M. R. Gonzalez, J. H. Gonzalez-Estefan, H. A. Lara-Garcia, P. Sanchez-Camacho, E. I. Basaldella H. Pfeiffer, I. A. Ibarra, Separation of CO2 from CH4 and CO2 capture in the presence of water vapour in NOTT-400, New Journal of Chemistry, 39 (2015) 2400-20403.

  93. E. Vera, B. Alcántar-Vazquez, H. Pfeiffer, CO2 chemisorption and evidence of the CO oxidation-chemisorption mechanisms on sodium cobaltate, Chemical Engineering Journal, 271 (2015) 106-113.

  94. Y. Duan, J. Lekse, X. Wang, B. Li, B. Alcántar-Vazquez, H. Pfeiffer, J. W. Halley, Electronic structural, phonon dynamic properties and CO2 capture capabilities of Na2-xMxZrO3 (M = Li, K, x = 0.0, 0.5, 1.0, 1.5, 2.0): First- principles density functional theory investigations and experimental validations, Physical Review Applied, 3 (2015) 044013.

  95. H. Lara-Garcia, B. Alcántar-Vázquez, Y. Duan, H. Pfeiffer, Water steam effect during the high CO2 chemisorption in lithium cuprate (Li2CuO2) at moderate temperatures: Experimental and theoretical evidences, RSC Advances, 5 (2015) 34157-34165.

  96. H. Valencia-Sanchez, H. Pfeiffer, D. Acosta, A. Negron-Mendoza, G. Tavizon, Synthesis and characterization of K2Ln2/3Ta2O7•nH2O, (Ln= La, Pr, Nd), layered tantalates photocatalysts for water splitting, Journal of the Mexican Chemical Society, 59 (2015) 83-92.

  97. B. Alcántar-Vázquez, P. Diaz-Herrera, A. Barrera-Gonzalez, Y. Duan, H. Pfeiffer, Analysis of the CO2-H2O chemisorption in lithium silicates at low temperatures (30-80 °C), Industrial & Engineering Chemistry Research, 54 (2015) 6884-6892.

  98. M. T. Flores-Martínez, H. Pfeiffer, CO2 chemisorption and cyclability analyses in -Li5AlO4: Effects of Na2CO3 and K2CO3 addition, Greenhouse Gas Science and Technology, 5 (2015) 802-811.

  99. I. A. Figueroa, M. A. Suarez, M. Velasco-Castro, H. Pfeiffer, B. Alcántar-Vázquez, G. González, I. Alfonso, G. A. Lara-Rodríguez, Development of pure Mg open-cell foams as structured CO2 captor, Thermochimica Acta, 621 (2015) 74-80.

  100. E. Vera, B. Alcántar-Vazquez, Y. Duan, H. Pfeiffer, Bifunctional application of sodium cobaltate as a catalytic and captor through CO oxidation and subsequent CO2 chemisorption process, RSC Advances, 6 (2016) 2162-2170.

  101. J. Ortiz-Landeros, R. López-Juárez, I.C. Romero-Ibarra, H. Pfeiffer, H. Balmori, C. Gómez-Yáñez, Li2SiO3 fast microwave-assisted hydrothermal synthesis and evaluation of its water vapor and CO2 absorption properties, Particuology, 24 (2016) 129-137.

  102. H. Lara-Garcia, B. Alcántar-Vázquez, Y. Duan, H. Pfeiffer, CO chemical capture on lithium cuprate, through a consecutive CO oxidation and chemisorption bifunctional process, Journal of Physical Chemistry C, 120 (2016) 3798-3806.

  103. D. A. Torres-Rodriguez, I. C. Romero-Ibarra, I. A. Ibarra, H. Pfeiffer, Biodiesel production from soybean and jatropha oils using cesium impregnated sodium zirconate as a heterogeneous base catalyst, Renewable Energy, 93 (2016) 323-331.

  104. J. A. Mendoza-Nieto, E. Vera, H. Pfeiffer, Methane reforming process by means of a carbonated-Na2ZrO3 catalyst, Chemistry Letters, 45 (2016) 685-687.

  105. M. J. Ramírez-Moreno, I. C. Romero-Ibarra, M. González-de Gortari, Á. Hernández-Pérez, H. Pfeiffer, CO2 adsorption at high pressures in MCM-41 and derived alkali-containing samples: The role of the textural properties and chemical affinity, Journal of Porous Materials, 23 (2016) 1155-1162.

  106. H. Lara-Garcia, J. M. Ramírez-Moreno, J. Ortiz-Landeros, H. Pfeiffer, CO2 chemisorption in Li2CuO2 microstructurally modified by ball milling: study performed with different physicochemical CO2 capture conditions, RSC Advances, 6 (2016) 57880-57888.

  107. J. A. Mendoza-Nieto, H. Pfeiffer, Thermogravimetric study of sequential carbonation and decarbonation processes over Na2ZrO3 at low temperatures (30-80 °C): relative humidity effect, RSC Advances, 6 (2016) 66579-66588.

  108. I. A. Ibarra, V. Jancik, E. González-Zamora, A. Martínez, H. Pfeiffer, J. Balmaseda, R. Peralta, A. Campos-Reales-Pineda, J. R. Alvarez, D. Martínez-Otero, A. Zarate, CO2 capture enhancement in InOF-1 via a bottleneck effect of confined ethanol, Chemical Communications, 52 (2016) 10273-10276.

  109. B. Alcántar-Vázquez, Y. Duan, H. Pfeiffer, CO oxidation and subsequent CO2 chemisorption on alkaline zirconates: Li2ZrO3 and Na2ZrO3, Industrial & Engineering Chemistry Research, 55 (2016) 9880-9886.

  110. E. M. Briz-López, M. J. Ramírez-Moreno, I. C. Romero-Ibarra, C. Gómez-Yáñez, H. Pfeiffer, J. Ortiz-Landeros, First assessment of Li2O-Bi2O3 ceramic oxides for high temperature carbon dioxide capture, Journal of Energy Chemistry, 25 (2016) 754-760.

  111. A. Cruz-Hernandez, B. Alcántar-Vázquez, J. Arenas, H. Pfeiffer, Structural and microstructural analysis of different CaO-NiO composites and their application as CO2 or CO-O2 captors, Reaction Kinetics, Mechanisms and Catalysis, 119 (2016) 445-455.

  112. F. Gómez-García, H. Pfeiffer, Structural and CO2 capture analyses on the Li1+xFeO2 (0 ≤ x ≤ 0.3) system: Effect of different physicochemical conditions, RSC Advances, 6 (2016) 112040-112049.

  113. H. Lara-Garcia, H. Pfeiffer, High and efficient Li2CuO2–CO2 chemisorption using different partial pressures and enhancement produced by the oxygen addition, Chemical Engineering Journal, 313 (2017) 1288-1294.

  114. H. Lara-García, P. Sánchez-Camacho, Y. Duan, J. Ortiz-Landeros, H. Pfeiffer, Analysis of the CO2 chemisorption in Li5FeO4, a new high temperature CO2 captor material. Effect of the CO2 and O2 partial pressures, Journal of Physical Chemistry C, 121 (2017) 3455-3462.

  115. Ovalle-Encinia O., Mendoza-Nieto J. A., Ortiz-Landeros J., Pfeiffer H., Ce0.8Sm0.15Sr0.05O2 as possible oxidation catalyst and assessment of the CaO addition in the coupled CO oxidation-CO2 capture process, Industrial & Engineering Chemistry Research, 56 (2017) 6124-6130.

  116. H. Lara-García, E. Vera E., J. A. Mendoza-Nieto, J. F. Gómez-García, Y. Duan, Pfeiffer H., Bifunctional application of lithium ferrites (LiO5FeO5 and LiFeO2) during carbon monoxide (CO) oxidation and chemisorption processes. A catalytic, thermogravimetric and theoretical analysis, Chemical Engineering Journal, 327 (2017) 783-791.

  117. P. Sánchez-Camacho, F. Gómez-García, H. Pfeiffer, Thermokinetic and conductivity analyses of the high CO2 chemisorption on Li5AlO4 and alkaline carbonate impregnated Li5AlO4 samples: Effects produced by the use of CO2 partial pressures and oxygen addition, Journal of Energy Chemistry, 26 (2017) 919-926.

  118. A. Cruz-Hernández, J. A. Mendoza-Nieto, H. Pfeiffer, NiO-CaO materials as promising catalysts for hydrogen production through carbón dioxide capture and subsequent dry methane reforming, Journal of Energy Chemistry, 26 (2017) 942-947.

  119. P. Olavarria, E. Vera, E. J. Lima, H. Pfeiffer, Synthesis and evaluation as CO2 chemisorbent of the Li5(Al1-xFex)O4 solid solution materials; effect of oxygen addition, Journal of Energy Chemistry, 26 (2017) 948-955.

  120. J. A. Mendoza-Nieto, S. Tehuacanero-Cuapa, J. Arenas-Alatorre, H. Pfeiffer, Nickel-doped sodium zirconate catalysts for carbon dioxide storage and hydrogen production through dry methane reforming process, Applied Catalysis B: Environmental, 224 (2018) 80-87.

  121. O. Ovalle-Encinia, H. Pfeiffer, J. Ortiz-Landeros, Ce0.85Sm0.15O2-Sm0.6Sr0.4Al0.3Fe0.7O3 composite for the preparation of dense ceramic-carbonate membranes for CO2 separation, Journal of Membrane Science, 547 (2018) 11-18.

  122. I. Ham-Liu, H. Pfeiffer, J. A. Mendoza-Nieto, CO2 Chemisorption Enhancement Produced by K2CO3- and Na2CO3-addition on Li2CuO2, Journal of CO2 Utilization, 23 (2018) 143-151.

  123. Yañez-Aulestia A., Gómez-García J. F., Mendoza-Nieto J. A., Duan Y., Pfeiffer H., Themocatalytic analysis of CO2-CO selective chemisorption mechanism on lithium cuprate (Li2CuO2) and oxygen addition effect, Thermochimica Acta 660 (2018) 144-151.

  124. D. González-Varela, B. Alcántar-Vázquez, H. Pfeiffer, Structural evolution and reaction mechanism of lithium nickelate (LiNiO2) during the carbonation reaction, Journal of Materiomics, 4 (2018) 56-61

  125. E. Vera, J. F. Gómez-García, H. Pfeiffer, Enhanced CO2 chemisorption at high temperatures via oxygen addition using (Fe, Cu or Ni)-containing sodium cobaltates as solid sorbents, Journal of CO2 Utilization, 25 (2018) 147-157

  126. M. Velasco-Castro, J. I. Figueroa, H. Pfeiffer, J. F. Gómez-García, Enhanced CO2 capture capacity on open-cell Mg foams via humid impregnation with lithium at low temperatures, Thermochimica Acta, 664 (2018) 73-80

  127. O. Ovalle-Encinia, H. Pfeiffer, J. Ortiz-Landeros, CO2 separation improvement produced on a ceramic–carbonate dense membrane superficially modified with Au-Pd. Industrial & Engineering Chemistry Research, 57 (2018) 9261-9268

  128. J. A. Mendoza-Nieto, Y. Duan, H. Pfeiffer, Alkaline zirconates as effective materials for hydrogen production through consecutive carbon dioxide capture and conversion in methane dry reforming, Applied Catalysis B: Environmental, 238 (2018) 576-585

  129. J. F. Gómez-García, H. Pfeiffer, Effect of chemical composition and crystal phase of (Li,Na)FeO2 ferrites on CO2 capture properties at high temperatures, Journal of Physical Chemistry C, 122 (2018) 21162-21171

  130. A. Yañez-Aulestia, O. Ovalle-Encinia, H. Pfeiffer, Evaluation of Fe-containing Li2CuO2 on the CO2 capture performed at different physicochemical conditions, Environmental Science and Pollution Research, (2018) DOI: 10.1007/s11356-018-2444-x

  131. E. Vera, Y. Duan, H. Pfeiffer, CO2-H2O capture and cyclability on sodium cobaltate at low temperatures (30-80 ºC); experimental and theoretical analysis, Energy Technology, 7 (2019) 1800527

  132. M. González-Torres, J. Cerna-Cortez, R. B. Muñoz-Soto, A. Ríos-Pérez, H. Pfeiffer, G. Leyva-Gómez, J. Zuñiga-Ramos, A. L. Rivera, Synthesis of gamma radiation-induced PEGylated cisplatin for cancer treatment, RSC Advances, 8 (2018) 34718-34725

  133. N. Gómez-Garduño, H. Pfeiffer, Thermokinetic evaluation of iron addition on lithium metazirconate (Fe-Li2ZrO3) for enhancing carbon dioxide capture at high temperatures, Thermochimica Acta, 673 (2019) 129-137

  134. H. A. Lara-García, O. Ovalle-Encinia, J. Ortiz-Landeros, E. J. Lima, H. Pfeiffer, Synthesis of Li4+xSi1-xFexO4 solid solution by dry ball milling and its highly efficient CO2 chemisorption in a wide temperature range and low CO2 concentrations, Journal of Materials Chemistry A, 7 (2019) 4153-4164

  135. O. Ovalle-Encinia, P. Sanchez-Camacho, D. González-Varela, H. Pfeiffer, Development of new bifunctional dense ceramic-carbonate membrane reactors for gas mixtures separation, through CO oxidation and subsequent CO2 permeation, ACS Applied Energy Materials, 2 (2019) 1380-1387

  136. Y. Zhang, Y. Gao, H. Pfeiffer, B. Louis, L. Sun, D. O’Hare, Q. Wang, Recent advances in lithium containing ceramics based sorbents for high-temperature CO2 capture, Journal of Materials Chemistry A, 7 (2019) 7962-8005

  137. H. A. Lara-Garcia, W. Gao, A. Gómez-Cortés, G. Díaz, H. Pfeiffer, Q. Wang, High and efficient CO2 capture in molten nitrates modified Mg-Al palmitate layered double oxides at high pressures and elucidation of carbonation mechanisms by in situ DRIFT spectroscopy analysis, Industrial & Engineering Chemistry Research, 58 (2019) 5501-5509

  138. C. Hernández-Fontes, J. A. Mendoza-Nieto, H. A. Lara-Garcia, H. Pfeiffer, Pentalithium ferrite (Li5FeO4) as highly active material for hydrogen production in the chemical looping partial oxidation of methane, Topics in Catalysis, 62 (2019) 884-893

  139. H. A. Lara-Garcia, J. A. Mendoza-Nieto, H. Pfeiffer, L. Torrente-Murciano, COx-free hydrogen production from ammonia on novel cobalt catalysts supported on 1D titanate nanotubes, International Journal of Hydrogen Energy, 44 (2019) 30062-30074

  140. O. Ovalle-Encinia, H. Pfeiffer, J. A. Fabián-Anguiano, J. Ortiz-Landeros, Nanosized lithium aluminate (γ-LiAlO2) synthesized by EDTA-citrate complexing method, using different thermal conditions, Journal of the Mexican Chemical Society, 63 (2019) 229-244

  141. CO2-CO capture and kinetic analyses of sodium cobaltate under various partial pressures. E. Vera, S. García, M. M. Maroto-Valer, H. Pfeiffer. Adsorption, 26 (2020) 781-792.
  142. Two-dimensional MnFeCo layered double oxide as catalyst for enhanced selective catalytic reduction of NOx with NH3 at low temperature (25–150° C). X. Zhou, F. Yu, R. Sun, J. Tian, Q. Wang, B. Dai, J. Dan, H. Pfeiffer. Applied Catalysis A, 592 (2020) 117432.
  143. First discernments for NO storage and reduction (NSR) on lithium cuprate (Li2CuO2) at moderate temperatures (100 ≤ T ≤ 400 °C). A. Yáñez-Aulestia, H. Pfeiffer. Applied Catalysis B, 275 (2020) 119119.
  144. Co⁠3O⁠4 nanostructures and Co⁠3O⁠4 supported on halloysite nanotubes: New highly active and thermally stable feasible catalysts for CO oxidation. L. C. Daza-Gómez, V.F. Ruiz-Ruiz, J. A. Mendoza-Nieto, H. Pfeiffer, D. Díaz. Applied Clay Science, 190 (2020) 105590.
  145. High and efficient carbon dioxide chemisorption on a new high lithium-content ceramic; hexalithium cobaltate (Li6CoO4). E. Bernabé-Pablo, F. Plascencia-Hernández, A. Yañez-Aulestia, H. Pfeiffer. Chemical Engineering Journal, 384 (2020) 123291.
  146. Enhanced selective catalytic reduction of NO with CO over Cu/C nanoparticles synthetized from a Cu-benzene-1,3,5-tricarboxylate metal organic framework by a continuous spray drying process. X. Zhou, X. Zhai, G. Ge, J. Dan, K. Pan, J. Tian, R. Sun, B. Dai, H. Pfeiffer, F. Yu. Chemical Engineering Journal, 388 (2020) 124270.
  147. First insights for hydrogen production using an alkaline ceramic through the water-gas shift reaction. O. Hernández-Rivas, A. Martínez, H. Pfeiffer, J. A. Mendoza-Nieto. Chemical Engineering Journal, 392 (2020) 123740.
  148. Developing new alkaline ceramics as possible CO2 chemisorbents at high temperatures: the lithium and sodium yttriates (LiYO2 and NaYO2) cases. E. Bernabé-Pablo, Y. Duan, H. Pfeiffer. Chemical Engineering Journal, 396 (2020) 125277.
  149. Development of nano-hydroxyapatite doped with silver as effective catalysts for carbon monoxide oxidation. H. Martínez-Hernández, J. A. Mendoza-Nieto, H. Pfeiffer, J. Ortiz-Landeros, L. Tellez-Jurado. Chemical Engineering Journal, 401 (2020) 125992.
  150. Unraveling the effects on lithium-ion cathode performance by cation doping M-Li2CuO2 solid solution samples (M = Mn, Fe and Ni). M. A. Martínez-Cruz, A. Yáñez-Aulestia, G. Ramos-Sánchez, M. Oliver-Tolentino, M. Vera, H. Pfeiffer, D. Ramírez-Rosales, I. González. Dalton Transactions, 49 (2020) 4549-4558.
  151. The role of nickel addition on the CO2 chemisorption enhancement in Ni-containing Li2CuO2: Analysis of the cyclability and different CO2 partial pressure performance. A. Yañez-Aulestia, H. Pfeiffer. Fuel, 277 (2020) 118185.
  152. New evidences in CO oxidation and selective chemisorption of carbon oxides on different alkaline ferrite crystal phases (NaFeO2 and LiFeO2). J.F. Gómez-García, J. A. Mendoza-Nieto, A. Yañez-Aulestia, F. Plascencia-Hernández, H. Pfeiffer. Fuel Processing Technology, 204 (2020) 106404.
  153. New catalytic and sorption bifunctional Li6CoO4 material for carbon monoxide oxidation and subsequent chemisorption. Y. Wan, F. Plascencia, E. Bernabé-Pablo, F. Yu, H. Pfeiffer. Industrial & Engineering Chemistry Research, 59 (2020) 10823–10831.
  154. Evaluation of the Me-Li2CuO2 solid solutions (Where, Me = Ni, Fe and Mn) during the CO2 and CO chemisorption. A. Yañez-Aulestia, M. Martínez-Cruz, H. Pfeiffer. Journal of Physical Chemistry C, 124 (2020) 16019−16031.
  155. Enhancing the CO2 chemisorption on lithium cuprate (Li2CuO2) at moderate temperatures and different pressure conditions by the alkaline nitrates addition. A. Yañez-Aulestia, Q. Wang, H. Pfeiffer. Physical Chemistry Chemical Physics, 22 (2020) 2803-2813.
  156. High-temperature CO2 perm-selectivity of yttrium-doped SDC ceramic-carbonates dual-phase membranes. D. González-Varela, O. Ovalle-Encinia, J. F. Gómez-García, G. Tavizon, H. Pfeiffer, Reaction Chemistry & Engineering, 6 (2021) 321-334.
  157. Understanding the CO2 chemical reaction path on Li6ZnO4, a new possible high temperature CO2 captor. X. Zhou, F. Plascencia-Hernandez, F. Yu, H. Pfeiffer, Chemical Engineering Journal, 417 (2021) 129205.
  158. Mixed ionic-electronic conducting composite-based ceramic-carbonate dense membranes for CO2/O2 counter-permeation and CO oxidation. O. Ovalle-Encinia, P. Sánchez-Camacho, D. González-Varela, H. Pfeiffer, Chemical Engineering Science, 246 (2021) 117000.
  159. Lithium cuprate, a multifunctional material for NO selective catalytic reduction by CO, with subsequent carbon oxides capture at moderate temperatures. A. Yañez-Aulestia, Y. Duan, Q. Wang, H. Pfeiffer, Reaction Chemistry & Engineering, 6 (2021) 2400-2410.
  160. 3D porous Ca-modified Mg-Zr mixed metal oxide for fluoride adsorption. X. Wang, H. Pfeiffer, J. Wei, J. Dan, J. Wang, J. Zhang, Chemical Engineering Journal, 428 (2022) 131371.
  161. Unraveling the CO and CO2 reactivity on Li2MnO3: Sorption and catalytic analyses. C. Hernandez-Fontes, H. Pfeiffer, Chemical Engineering Journal, 428 (2022) 131998.
  162. Experimental and theoretical analysis revealing the underlying chemistry accounting for the heterogeneous transesterification reaction in Na2SiO3 and Li2SiO3 catalysts. C. Cuautli-Mejía, G. E. Mijangos, I. C. Romero-Ibarra, J. Vazquez-Arenas, C. E. Santolalla-Vargas, V. Santes, A. A. Castañeda-Galván, H. Pfeiffer, Renewable Energy, 184 (2022) 845-856.
  163. A new kinetic model for CO2 capture on sodium zirconate (Na2ZrO3): An analysis under different flow rates. J. A. Mendoza-Nieto, H. Martínez-Hernández, H. Pfeiffer, J. F. Gomez-Garcia, Journal of CO2 Utilization, 56 (2022) 101862.
  164. Highly efficient CO2 permeation using a new dense dual-phase ceramic membrane prepared with Ce0.8Sm0.2O2-δ-Pr0.6Sr0.4FeO3-δ as precursors. Y. M. Morales-Loredo, D. González-Varela, H. Pfeiffer, Bulletin of Materials Science, 45 (2022) 19.
  165. LaNiO3 perovskite synthesis through the EDTA-citrate complexing method and its application to CO oxidation. D. González-Varela, D. G. Araiza, G. Díaz, H. Pfeiffer, Catalysts MDPI, 12 (2022) 57.
  166. Introduction to CO2 capture, utilization and storage (CCUS). Q. Wang, H. Pfeiffer, R. Amal, D. O’Hare, Reaction Chemistry & Engineering, 7 (2022) 487-489.
  167. Enhanced CO capture properties of Li2MnO3 via inducing layered to spinel transition by cation doping with Fe, Co, Ni and Cu. C. Hernández-Fontes, H. Pfeiffer, Reaction Chemistry & Engineering, 7 (2022) 1573-1588.
  168. Enhanced CO2 capture over Li-containing β-NaFeO2 materials: Effect of lithium nitrate addition. D. G. Araiza, F. Plascencia-Hernández, H. Pfeiffer, Fuel, 324 (2022) 124605.
  169. Improving the structural reversibility of LiNiO2 by incorporation of Cu, an electrochemical and in-situ XRD study. M. A. Martínez-Cruz, G. Ramos-Sánchez, M. Oliver-Tolentino, H. Pfeiffer, I. González, Journal of Alloys and Compounds, 923 (2022) 166328.
  170. Investigation of H2 production via an integrated pathway of consecutive CO oxidation and dry methane reforming in the presence of Co3O4@HNTs catalyst. L. C. Daza-Gómez, V. F. Ruiz-Ruiz, J. A. Mendoza-Nieto, H. Pfeiffer, G. Rodríguez-Gattorno, D. Díaz, Applied Nanoscience, 12 (2022) 2459-2476.
  171. Effect of sodium ortho and pyrosilicate (Na4SiO4-Na6Si2O7) mixture during the CO2 chemical capture performance. F. Plascencia Hernández, D. G. Araiza, H. Pfeiffer, Industrial & Engineering Chemistry Research, 61 (2022) 11012-11024.
  172. Fabrication and characterization of bioinspired nanohydroxyapatite scaffolds with different porosities. A. M. Castillo-Paz, D. F. Cañon-Davila, S. M. Londoño-Restrepo, D. Jiménez-Mendoza, H Pfeiffer, R. Ramírez-Bon, M. E. Rodriguez-Garcia, Ceramics International, 48 (2022) 32173-32184.
  173. Insight into CO selective chemisorption from syngas mixtures through Li2MnO3; A new H2 enrichment material. C. Hernández-Fontes, D. G. Araiza, G. Díaz, H. Pfeiffer, Reaction Chemistry & Engineering, 8 (2023) 229-243.
  174. Fluoride ions adsorption from water by CaCO3 enhanced Mn-Fe mixed metal oxides. X. Wang, H. Pfeiffer, J. Wei, J. Wang, J. Zhang, Frontiers of Chemistry Science & Engineering, (2023). DOI: https://doi.org/10.1007/s11705-022-2193-8.
  175. Structural analysis of non-stoichiometric lithium cuprates, Li2+2xCu1-2xO2-x; Effects of lithium content and thermal treatments. L. M. Palacios-Romero, G. González, O. Ovalle-Encinia, E. Lima, E. Ramírez-Meneses, H. Pfeiffer, Journal of Applied Research and Technology, (2023). Accepted paper.
  176. Intensified bio-oil steam reforming for high-purity hydrogen production: numerical simulation and sorption kinetics. I. Iliuta, A. Desgagnés, A. Yáñez-Aulestia, H. Pfeiffer, M. C. Iliuta, International Journal of Hydrogen Energy, (2023). DOI: https://doi.org/10.1016/j.ijhydene.2022.11.182.
  177. State of the art and perspectives of the CO2 chemisorption in ceramics with its simultaneous or subsequent chemical transformation. D. González-Varela, C. Hernández-Fontes, N. Wang, H. Pfeiffer, Carbon Capture Science & Technology, (2023). DOI: https://doi.org/10.1016/j.ccst.2023.100101.


National Patents

UP ^

    • Nuevos materiales cerámicos para la absorción de gases de tipo ácido y su procedimiento de síntesis.L. M. Palacios-Romero y H. Pfeiffer, Titulo de patente: 338495. Clasificación: Int.Cl.8: C12F3/oo, 8 de Abril de 2016.
  • Dispositivo para la sinterización de espumas y materiales metálicos compactos usando el proceso de metalurgia de polvos. I. A. Figueroa Vargas, S. Báez Pimiento, J. H. Cadena Franco, I. Alfonso López y H. Pfeiffer. Titulo de patente: 348315, 24 de Septiembre de 2017.

  • Cerámicos de litio y manganeso para la oxidación y captura selectiva de monóxido de carbono. C. Hernández Fontes y H. Pfeiffer, Folio de recepción: MX/E/2021/036778 (solicitud: 81321). 26 de Mayo de 2021.

  • Procesos de captura química y reducción catalítica selectiva de óxidos de nitrógeno mediante el uso de cerámicos del tipo zirconatos de litio y/o sodio. C. D. Castrejón Barrera, C. Hernández Fontes, O. F. Plascencia Hernández, A. M. Martínez Vázquez y H. Pfeiffer, Folio de recepción: MX/E/2022/074273 (solicitud: 125247). 12 de Octubre de 2022.

    • Contact:

    Instituto de Investigaciones en Materiales
    Universidad Nacional Autónoma de México
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    Phone: +52 (55) 5622 4627
    E-mail:pfeiffer@materiales.unam.mx