화학공학소재연구정보센터
로그인 로그아웃 연락처 사이트맵
Journal of Industrial and Engineering Chemistry, Vol.117, 371-385, January, 2023
DOI10.1016/j.jiec.2022.10.025  Export Citation
Thermal transformation of copper incorporated hydrotalcite-derived oxides and their catalytic activity for ethanol dehydrogenation
Artit Ausavasukhi, Nattanitcha Krukrathok, and Pancheewa Singthaisong
  • Department of Applied Chemistry, Faculty of Sciences and Liberal Arts, Rajamangala University of Technology Isan, Nakhon Ratchasima 30000, Thailand
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Thermal transformation of copper incorporated hydrotalcite-derived oxides is investigated in ethanol dehydrogenation. Among the copper supported catalyst c-10Cu/HT600 prepared by impregnation of thermally treated hydrotalcite at 600 ℃ with Cu(NO3)2 solution followed by a calcination provides a high catalytic activity, selectivity and stability. XRD, DR-UV, TGA, H2-TPR, CO2-TPD, TEM and XPS techniques reveal that the nature of the copper species depended on the thermal treatment process and support. Such treatment at high temperatures yields a homogeneous dispersion mixed metal oxide. After copper incorporation generated CuAl2O4 spinel structure linked to the copper oxide species can suppress copper agglomeration leading to the catalytic stability. Moreover, the c-10Cu/HT600 catalyst can provide a high activity and high selectivity to acetaldehyde even at low reaction temperatures (200 ℃). However, the copper species may agglomerate to form relatively larger clusters upon increasing metal loading leading to the deactivation.
Keywords:Copper species;Thermal treatment;Ethanol dehydrogenation;Spinel structure;Hydrotalcite-derived oxides
  1. Liu Q, Zhou H, Jia Z, ACS Omega, 7, 4577 (2022)
  2. Kumar A, Ind. Eng. Chem. Res., 60, 16561 (2021)
  3. Dahan HO, Landau MV, Herskowitz M, J. Ind. Eng. Chem., 95, 156 (2021)
  4. Mokhtar M, Basahel SN, Ali TT, J. Ind. Eng. Chem., 20(1), 46 (2014)
  5. Ausavasukhi A, Suwannaran S, Limtrakul J, Sooknoi T, Appl. Catal. A: Gen., 345, 89 (2008)
  6. Ausavasukhi A, Sooknoi T, Appl. Catal. A: Gen., 361, 93 (2009)
  7. Takei T, Iguchi N, Haruta M, New J. Chem., 35, 2227 (2011)
  8. Rodrigues CP, da Costa Zonetti P, Appel LG, Chem. Cent. J., 11(30) (2017)
  9. de Lima AFF, Moreira CR, Alves OC, de Avillez RR, Zotin FMZ, Appel LG, Appl. Catal. A: Gen., 611, 117949 (2021)
  10. Sarve DT, Singh SK, Ekhe JD, Inorg. Chem. Commun., 139, 109397 (2022)
  11. Aghbashlo M, Rastegari H, Ghaziaskar HS, Hosseinzadeh-Bandbafha H, Nadian MH, Shafizadeh A, et al., Fuel, 308, 121918 (2022)
  12. Sato AG, Volanti DP, de Freitas IC, Longo E, Bueno JMC, Catal. Commun., 26, 122 (2012)
  13. Preedavijitkul S, Autthanit C, Praserthdam P, Jongsomjit B, J. Environ. Chem. Eng., 10(3), 107542 (2022)
  14. Santacesaria E, Carotenuto G, Tesser R, Di Serio M, Chem. Eng. J., 179, 209 (2012)
  15. Yotkkham N, Choojun K, Promchana P, Fan X, Sooknoi T, Appl. Catal. A: Gen., 632, 118502 (2022)
  16. Wang Z, Yin M, Pang J, Li X, Xing Y, Su Y, et al., J. Energy Chem., 72, 306 (2022)
  17. Szabó B, Novodárszki G, May Z, Valyon J, Hancsók J, Barthos R, Molecul. Catal., 491, 110984 (2020)
  18. Wang K, Peng X, Wang C, Gao W, Liu N, Guo X, et al., Catal. Sci. Technol., 12(7), 2210 (2022)
  19. Pinthong P, Praserthdam P, Jongsomjit B, J. Zhejiang Univers.-SCI. A, 21, 218 (2020)
  20. Mukda N, Autthanit C, Praserthdam P, Jongsomjit B, Bull. Chem. React. Eng. Catal., 15, 714 (2020)
  21. Pinthong P, Praserthdam P, Jongsomjit B, J. Oleo Sci., 68, 679 (2019)
  22. Garbarino G, Riani P, García MV, Finocchio E, Escribano VS, Busca G, Catal. Today, 354, 167 (2020)
  23. Pampararo G, Garbarino G, Riani P, Garcíae MV, Escribanoe VS, Busca G, Appl. Catal. A: Gen., 602, 117710 (2020)
  24. Rosset M, Perez-Lopez OW, Mechan. Catalys., 123, 689 (2018)
  25. Quesada J, Faba L, Díaz E, Ordóñez S, ChemCatChem, 10, 3583 (2018)
  26. Campisano ISP, Rodella CB, Sousa ZSB, Henriques CA, da Silva VT, Catal. Today, 306, 111 (2018)
  27. Ob-eye J, Praserthdam P, Jongsomjit B, Catalysts, 9, 66 (2019)
  28. Freitas IC, Damyanova S, Oliveira DC, Marques CMP, Bueno JMC, J. Mol. Catal. A-Chem., 381, 26 (2014)
  29. Tayrabekova S, Mäki-Arvela P, Peurla M, Paturi P, Eränen K, Ergazieva GE, et al., Comptes Rendus Chimie, 21, 194 (2018)
  30. Neramittagapong, Attaphaiboon W, Neramittagapong S, Chiang Mai J. Sci., 35(1), 171 (2008)
  31. Guan Y, Hensen EJM, Appl. Catal. A: Gen., 361, 49 (2009)
  32. Wang C, Garbarino G, Allard LF, Wilson F, Busca G, Flytzani-Stephanopoulos M, ACS Catal., 6(1), 210 (2016)
  33. Autthanit C, Praserthdam P, Jongsomjit B, J. Environ. Chem. Eng., 6, 6516 (2018)
  34. Ochoa JV, Farci E, Cavani F, Sinisi F, Artiglia L, Agnoli S, et al., ACS Appl. Nano Mater., 2, 3434 (2019)
  35. Abdulrazzaq HT, Chokanlu AR, Frederick BG, Schwartz TJ, ACS Catal., 10, 6318 (2020)
  36. Sinfelt JH, Carter JL, Yates DJC, J. Catal., 24(2), 283 (1972)
  37. De Waele J, Galvita VV, Poelman H, Gabrovska M, Nikolova D, Damyanova S, et al., Appl. Catal. A: Gen., 591, 117401 (2020)
  38. Sen B, Kuyuldar E, Savk A, Calimli H, Duman S, Sen F, Int. J. Hydrog. Energy, 44(21), 10744 (2019)
  39. Sun G, Zhao ZJ, Mu R, Zha S, Li L, Chen S, et al., Nat. Commun., 9, 4454 (2018)
  40. Roma MNSC, Cunha DS, Cruz GM, Cobo AJG, Braz. J. Chem. Eng., 17, 937 (2000)
  41. Conesa JM, Morales MV, López-Olmos C, Rodríguez-Ramos I, Guerrero-Ruiz A, Appl. Catal. A: Gen., 576, 54 (2019)
  42. Huang L, Tang F, Liu P, Xiong W, Jia S, Hao F, et al., Fuel, 327, 125115 (2022)
  43. Vaccari A, Catal. Today, 41, 53 (1998)
  44. Kovanda F, Kolousek D, Cilova Z, Hulinsky V, Appl. Clay Sci., 28, 101 (2005)
  45. Wiyantoko B, Kurniawati P, Purbaningtias TE, Fatimah I, Procedia Chem., 17, 21 (2015)
  46. Basag S, Kocoł K, Piwowarska Z, Rutkowska M, Baran R, Chmielarz L, React. Kinet. Mechanis. Catal., 121, 225 (2017)
  47. Lucrédio AF, Bellido JDA, Assaf EM, Appl. Catal. A: Gen., 388, 77 (2010)
  48. Perez-Ramirez J, Abello S, van der Pers NM, Chem.-Eur. J., 13, 870 (2007)
  49. Mokhtar M, Inayat A, Ofili J, Schwieger W, Appl. Clay Sci., 50, 176 (2010)
  50. Miyata S, Clay Clay Min., 28(1), 50 (1980)
  51. Puttaswamy NS, Kamath PV, J. Mater. Chem., 7(9), 1941 (1997)
  52. Rocha J, Del Arco M, Rives V, Ulibarri MA, J. Mater. Chem., 9(10), 2499 (1999)
  53. Hibino T, Tsunashima A, Clay Clay Min., 45(6), 842 (1997)
  54. Chmielarz L, Rutkowska M, Kus´trowski P, Drozdek M, Piwowarska Z, Dudek B, Dziembaj R, Michalik M, J. Therm. Anal. Calorim., 105, 161 (2011)
  55. Hidalgo JM, Tisler Z, Kubicka D, Raabova K, Bulanek R, J. Mol. Catal. A-Chem., 420, 178 (2016)
  56. Crivello M, Perez C, Herrero E, Ghione G, Casuscelli S, Rodriguez-Castellon E, Catal. Today, 107-108, 215 (2007)
  57. Yaseneva P, An N, Finn M, Tidemann N, Jose N, Voutchkova-Kostal A, et al., Chem. Eng. J., 360, 190 (2019)
  58. Ayask HK, Khaki JV, Sabzevar MH, Grain JU, Nanostruct. Mater., 48(1), 37 (2015)
  59. Chavez KL, Hess DW, J. Electrochem. Soc., 148(11), G640 (2001)
  60. Bridier B, López N, Pérez-Ramírez J, J. Catal., 269, 80 (2010)
  61. Zhu S, Gao X, Zhu Y, Fan W, Wang J, Li Y, Catal. Sci. Technol., 5, 1169 (2015)
  62. Sagar GV, Rao PVR, Srikanth CS, Chary KVR, J. Phys. Chem. B, 110, 13881 (2006)
  63. Kannapu HPR, Suh YW, Narani A, Vaddeboina V, Burri DR, Seetha RRK, RSC Adv., 7, 35346 (2017)
  64. Govender A, Mahomed AS, Friedrich HB, Catalyst, 8(10), 474 (2018)
  65. Poreddy R, Engelbrekt C, Riisager A, Catal. Sci. Technol., 5, 2467 (2015)
  66. Liu Y, Guo L, Zhao D, Li X, Gao Z, Ding T, et al., RSC Adv., 7, 27405 (2017)
  67. Ramasamy KK, Gray M, Job H, Smith C, Wang Y, Catal. Today, 269, 82 (2016)
  68. Debek R, Motak M, Duraczyska D, Launay F, Galvez ME, Grzybek T, et al., Catal. Sci. Technol., 6, 6705 (2016)
  69. Ramos R, Grigoropoulos A, Perret N, Zanella M, Katsoulidis AP, Manning TD, et al., Green Chem., 19, 1701 (2017)
  70. Khoja AH, Anwar M, Shakir S, Mehran MT, Mazhar A, Javed A, et al., Res. Chem. Intermed., 46, 3817 (2020)
  71. Huang L, Zhu Y, Huo C, Zheng H, Feng G, Zhang C, et al., J. Mol. Catal. A-Chem., 288, 109 (2008)
  72. Gadge ST, Mishra A, Gajengi AL, Shahi NV, Bhanage BM, RSC Adv., 4, 50271 (2014)
  73. Sriharan N, Senthil TS, Kang M, Ganesan NM, Appl. Phys. A-Mater. Sci. Process., 125, 118 (2019)
  74. Zhao D, Tu CM, Hu XJ, Zhang N, RSC Adv., 60, 37596 (2017)
  75. Sun J, Wang D, Zhang Y, Sheng C, Dargusch M, Wang G, et al., J. Alloy. Compd., 753, 543 (2018)
  76. Liu Y, Qing S, Hou X, Feng G, Zhang R, Wang X, et al., J. Mater. Appl., 7(2), 82 (2018)
  77. Sheng C, Sun J, Wang DP, Zhang YH, Li LJ, Chen XR, et al., J. Mater. Sci., 53, 4612 (2018)
  78. Kim SB, Cho YH, Jo MS, Jung JG, Lee YK, Lee JM, Sci. Rep., 9, 17812 (2019)
  79. Brik MG, Suchocki A, Kamin´ska A, Inorg. Chem., 53, 5088 (2014)
  80. Ramasamy KK, Gray M, Job H, Santosa D, Li XS, Devaraj A, et al., Top. Catal., 59, 46 (2016)
  81. Ndou AS, Plint N, Coville NJ, Appl. Catal. A: Gen., 251, 337 (2003)
  82. Kozlowski JT, Davis RJ, ACS Catal., 3, 1588 (2013)
  83. León M, Díaz E, Vega A, Ordónez S, Auroux A, Appl. Catal. B: Environ., 102, 590 (2011)
  84. Nakajima T, Appl. Catal., 52, 237 (1989)
  85. Carotenuto G, Tesser R, Di Serio M, Santacesaria E, Catal. Today, 203, 202 (2013)
  86. de Morais Batista AH, Ramos FSO, Braga TP, Lima CL, de Sousa FF, Barros EBD, et al., Appl. Catal. A: Gen., 382, 148 (2010)
  87. Chua YT, Stair PC, J. Catal., 213, 39 (2003)
  88. Imtiaz Q, Armutlulu A, Donat F, Naeem MA, Müller CR, ACS Sustainable Chem. Eng., 9, 5972 (2021)
  89. Cassinelli WH, Martins L, Passos AR, Pulcinelli SH, Rochet A, Briois V, et al., ChemCatChem, 7, 1668 (2015)
  90. Petrolini DD, Cassinelli WH, Pereira CA, Urquieta-Gonz´alez EA, Santilli CV, Martins L, RSC Adv., 9, 3294 (2019)