Korean Journal of Chemical Engineering, Vol.39, No.11, 2883-2895, 2022
A review of formic acid decomposition routes on transition metals for its potential use as a liquid H2 carrier
Formic acid (HCOOH) has emerged as a promising H2 energy carrier due to its reasonable gravimetric and volumetric H2 densities, low toxicity, low flammability, and ease of handling. Its possible productions from biogenic feedstocks also make it an attractive source to produce H2 on demand. The utilization of HCOOH as a liquid H2 carrier requires catalytic systems to selectively dehydrogenate HCOOH at low temperatures without forming CO products that can act as a poison in fuel cell applications. In this review, we summarize the recent progress in understanding HCOOH decomposition via dehydrogenation (to CO2/H2) and dehydration (to CO/H2O) pathways on transition metals, including Cu, Pt, Pd, and Au. The focus is on discussing the surface chemistry of HCOOH reactions on transition metals, including the types of bound intermediates and the identity and kinetic relevance of elementary steps. In doing so, we review current catalyst design strategies for HCOOH dehydrogenation to facilitate the future development of catalytic processes for H2 storage/utilization.
[References]
Borup R, Krause T, Brouwer J, J. Electrochem. Soc. , 30 , 79, 2021
Kawanami H, Himeda Y, Laurenczy G, Adv. Inorg. Chem. , 70 , 395, 2017
Mao WL, Mao HK, Proc. Natl. Acad. Sci. U. S. A. , 101 , 708, 2004
Colόn YJ, Fairen-Jimenez D, Wilmer CE, Snurr RQ, J. Phys. Chem. , 118 , 5383, 2014
Suh MP, Park HJ, Prasad TK, Lim DW, Chem. Rev. , 112 , 782, 2012
Murray LJ, Dincă M, Long JR, Chem. Soc. Rev. , 38 , 1294, 2009
Lim WX, Thornton AW, Hill AJ, Cox BJ, Hill JM, Hill MR, Langmuir , 29 , 8524, 2013
Viswanathan B, Energy Sources , 185, 2017
Andersson J, Grönkvist S, Int. J. Hydrog. Energy , 44 , 11901, 2019
Kim S, Chen J, Cheng T, Gindulyte A, He J, He S, Li Q, Shoemaker BA, Thiessen PA, Yu B, Zaslavsky L, Zhang J, Bolton EE, PubChem , 49 , 971, 2022
Guo J, Yin CK, Zhong DL, Wang YL, Qi T, Liu GH, Shen LT, Zhou QS, Peng ZH, Yao H, Li ZB, Chem. Sus. Chem. , 14 , 2655, 2021
Kothandaraman J, Kar S, Sen R, Goeppert A, Olah GA, Prakash GKS, J. Am. Chem. Soc. , 139 , 2549, 2017
Aziz M, Oda T, Kashiwagi T, Energy Procedia , 158 , 4086, 2019
Aziz M, Wijayanta AT, Nandiyanto ABD, Energies , 13 , 3062, 2020
Sanchez F, Motta D, Roldan A, Hammond C, Villa A, Dimitratos N, Top. Catal. , 61 , 254, 2018
Ahn Y, Byun J, Kim D, Kim BS, Lee CS, Han J, Green Chem. , 21 , 3442, 2019
Vermaak L, Neomagus HWJP, Bessarabov DG, Membranes , 11 , 670, 2021
Hoshi N, Kida K, Nakamura M, Nakada M, Osada K, J. Phys. Chem. B , 110 , 12480, 2006
Hu S, Munoz F, Noborikawa J, Haan J, Scudiero L, Ha S, Appl. Catal. B: Environ. , 180 , 758, 2016
Hu S, Scudiero L, Ha S, Electrochem. Commun. , 38 , 107, 2014
Yang J, Yang S, Chung Y, Kwon Y, Korean J. Chem. Eng. , 37 , 176, 2020
Rahbari A, Ramdin M, van de Broeke LJP, Vlugt TJH, Ind. Eng. Chem. Res. , 57 , 10663, 2018
Yoo JS, Abild-Pedersen F, Nørskov JK, Studt F, ACS Catal. , 4 , 1226, 2014
Bowker M, Rowbotham E, Leibsle FM, Haq S, Surf. Sci. , 349 , 97, 1996
Bowker M, Haq S, Holroyd R, Parlett PM, Poulston S, Richardson N, J. Chem. Soc.-Faraday Trans. , 92 , 4683, 1996
Shiozawa Y, Koitaya T, Mukai K, Yoshimoto S, Yoshinobu J, J. Chem. Phys. , 143 , 234707, 2015
Ying DHS, Madix RJ, J. Catal. , 61 , 48, 1980
Hayden BE, Prince K, Woodruff DP, Bradshaw AM, Surf. Sci. , 133 , 589, 1983
Dubois LH, Ellis TH, Zegarski BR, Kevan SD, Surf. Sci. , 172 , 385, 1986
Madix RJ, Telford SG, Surf. Sci. , 277 , 246, 1992
Yao Y, Zaera F, Surf. Sci. , 646 , 37, 2016
Li S, Scaranto J, Mavrikakis M, Top. Catal. , 59 , 1580, 2016
Chen BWJ, Mavrikakis M, ACS Catal. , 10 , 10812, 2020
Iglesia E, Boudart M, J. Phys. Chem. , 90 , 5272, 1986
Lin TC, Torre UDL, Hejazi A, Kwon S, Iglesia E, J. Catal. , 404 , 814, 2021
Iglesia E, Boudart M, J. Catal. , 81 , 214, 1983
Tang Y, Roberts CA, Perkins RT, Wachs IE, Surf. Sci. , 650 , 103, 2016
Jensen MB, Myler U, Thiel PA, Surf. Sci. Lett. , 290 , L655, 1993
Avery NR, Appl. Surf. Sci. , 11 , 774, 1982
Abbas N, Madix RJ, Appl. Surf. Sci. , 16 , 424, 1983
Scaranto J, Mavrikakis M, Surf. Sci. , 648 , 201, 2016
Herron JA, Scaranto J, Ferrin P, Li S, Mavrikakis M, ACS Catal. , 4 , 4434, 2014
Ojeda M, Iglesia E, Angew. Chem.-Int. Edit. , 48 , 4800, 2009
Columbia MR, Thiel PA, Surf. Sci. , 235 , 53, 1990
Becker E, Skoglundh M, Andersson M, Spetz AL, IEEE Sensors (2007).
Columbia MR, Crabtree AM, Thiel PA, J. Electroanal. Chem. , 345 , 93, 1993
Bhandari S, Rangarajan S, Maravelias CT, Dumesic JA, Mavrikakis M, ACS Catal. , 10 , 4112, 2020
Kim Y, Kim S, Ham HC, Kim DH, J. Catal. , 389 , 506, 2020
Li J, Chen W, Zhao H, Zheng X, Wu L, Pan H, Zhu J, Chen Y, Lu J, J. Catal. , 352 , 371, 2017
Jones S, Kolpin A, Tsang SCE, Catal. Struct. React. , 1 , 19, 2014
Kim Y, Lee H, Yang S, Lee J, Kim H, Hwang S, Jeon SW, Kim DH, J. Catal. , 404 , 324, 2021
Hu C, Pulleri JK, Ting SW, Chan KY, Int. J. Hydrog. Energy , 39 , 381, 2014
Bulut A, Yurderi M, Karatas Y, Zahmakiran M, Kivrak H, Gulcan M, Kaya M, Appl. Catal. B: Environ. , 164 , 324, 2015
Jorgensen SW, Madix RJ, J. Am. Chem. Soc. , 110 , 397, 1988
Davis JL, Barteau MA, Surf. Sci. , 256 , 50, 1991
Scaranto J, Mavrikakis M, Surf. Sci. , 650 , 111, 2016
Zhang R, Liu H, Wang B, Ling L, J. Phys. Chem. C , 116 , 22266, 2012
Li S, Rangarajan S, Scaranto J, Mavrikakis M, Surf. Sci. , 709 , 121846, 2021
Wang Y, Qi Y, Zhang D, Comput. Theor. Chem. , 1049 , 51, 2014
Jiang K, Xu K, Zou S, Cai WB, J. Am. Chem. Soc. , 136 , 4861, 2014
Zhu QL, Tsumori N, Xu Q, J. Am. Chem. Soc. , 137 , 11743, 2015
Song FZ, Zhu QL, Tsumori N, Xu Q, ACS Catal. , 5 , 5141, 2015
Ruthven DM, Upadhye RS, J. Catal. , 21 , 39, 1971
Kim Y, Kim DH, Appl. Catal. B: Environ. , 244 , 684, 2019
Zhou X, Huang Y, Xing W, Liu C, Liao J, Lu T, Chem. Commun. , 30 , 3540, 2008
Huang Y, Zhou X, Yin M, Liu C, Xing X, Chem. Mater. , 22 , 5122, 2010
Zhang S, Metin O, Su D, Sun S, Angew. Chem.-Int. Edit. , 52 , 3681, 2013
Mandal K, Bhattacharjee D, Dasgupta S, Int. J. Hydrog. Energy , 40 , 4786, 2015
Gazsi A, Bánsági T, Solymosi F, J. Phys. Chem. C , 115 , 15459, 2011
Singh S, Li S, Carrasquillo-Flores R, Alba-Rubio AC, Dumesic JA, Mavrikakis M, AIChE J. , 60 , 1303, 2014
Chen BWJ, Stamatakis M, Mavrikakis M, ACS Catal. , 9 , 9446, 2019
Deng QF, Zhang ZF, Cui FJ, Jia LH, Int. J. Hydrog. Energy , 42 , 14865, 2017
Bi QY, Lin JD, Liu YM, He HY, Huang FQ, Cao Y, Angew. Chem.-Int. Edit. , 55 , 11849, 2016
Bi QY, Lin JD, Liu YM, He HY, Huang FQ, Cao Y, J. Power Sources , 328 , 463, 2016
Xu LX, Yao F, Luo JL, Wan C, Ye MF, Cui P, An Y, RSC Adv. , 7 , 4746, 2017
Qin Y, Wang J, Meng F, Wang L, Zhang X, Chem. Commun. , 49 , 10028, 2013
Mars P, Scholten JJF, Zwietering P, Adv. Catal. , 14 , 35, 1963
Trillo JM, Munuera G, Criado JM, Catal. Rev.-Sci. Eng. , 7 , 51, 1972
Noto Y, Fukuda K, Onishi T, Tamaru K, Trans. Faraday Soc. , 63 , 3081, 1967
Fukuda K, Noto Y, Onishi T, Tamaru K, Trans. Faraday Soc. , 63 , 3072, 1967
Kwon S, Lin TC, Iglesia E, J. Phys. Chem. C , 124 , 20161, 2020
Rajadurai S, Catal. Rev.-Sci. Eng. , 36 , 385, 1994
Álvarez A, Bansode A, Urakawa A, Bavykina AV, Wezendonk TA, Makkee M, Gascon J, Kapteijn F, Chem. Rev. , 117 , 9804, 2017
Zhao G, Huang X, Wang X, Wang X, J. Mater. Chem. A , 5 , 21625, 2017
Whang HS, Lim J, Choi MS, Lee J, Lee H, BMC Chem. Eng. , 1 , 9, 2019
Sun R, Liao Y, Bai ST, Zheng M, Zhou C, Zhang T, Sels BF, Energy Environ. Sci. , 14 , 1247, 2021
Yan N, Philippot K, Curr. Opin. Chem. Eng. , 20 , 86, 2018
Onishi N, Iguchi M, Yang X, Kanega R, Kawanami H, Xu Q, Himeda Y, Adv. Energy Mater. , 9 , 1801275, 2019
Chen X, Liu Y, Wu J, Mol. Catal. , 483 , 110716, 2020
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