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Anum Zafar, Karolina Matuszek, Douglas R. MacFarlane, Xinyi Zhang. Recent progress and future perspectives of ionic liquid-based carbon dioxide capture and conversion. Green Energy&Environment, 2025, 10(6): 1097-1129. doi: 10.1016/j.gee.2024.10.002
Citation: Anum Zafar, Karolina Matuszek, Douglas R. MacFarlane, Xinyi Zhang. Recent progress and future perspectives of ionic liquid-based carbon dioxide capture and conversion. Green Energy&Environment, 2025, 10(6): 1097-1129. doi: 10.1016/j.gee.2024.10.002
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Recent progress and future perspectives of ionic liquid-based carbon dioxide capture and conversion

doi: 10.1016/j.gee.2024.10.002

  • a. Hubei Key Laboratory of Micro-Nanoelectronic Materials and Devices, School of Microelectronics, Hubei University, Wuhan, 430062, China;

  • b. Foshan Xianhu Laboratory of the Advanced Energy Science and Technology Guangdong Laboratory, Foshan, 528216, China;

  • c. School of Chemistry, Monash University, Victoria, 3800, Australia

Funds:

This work was supported by the National Natural Science Foundation of China (21972027) and the Foshan Xianhu Laboratory (41220103, 41210501, XHD2021-001, XHD2022-001, 492305, 472303).

  • Received date 17 June 2024, Accepted date 08 October 2024, RevRecd date 10 September 2024, Available online 01 July 2025, Publish date 15 October 2024,
    Abstract
  • Carbon dioxide accounts for about 80 percent of greenhouse emissions and the increasing CO2 emission has been identified as a critical environmental issue. On the other hand, CO2 is a potentially renewable resource of a single carbon molecule, and new technologies to utilize CO2 in producing net-zero fuels and chemicals are of global interest. Great efforts have been made in the development of new materials and processes for CO2 capture and utilization (CCU). Among them, ionic liquids (ILs) have attracted much attention due to their unique characteristics such as high CO2 solubility, high ionic conductivity, negligible volatility, non-flammability, wide electrochemical window, and high thermal stability, as well as good solvation ability. This review summarizes the most recent efforts devoted to IL-based absorption, catalysts, and CO2 capture and utilization processes. We discuss the factors that affect the interaction between ILs and CO2, impacting on the viscosity and CO2 solubility and preview the coupling of CO2 capture with electrochemical conversion of CO2. Finally, we provide an overview on the advantages and disadvantages of the IL-based process for practical applications.

     

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  • [1]
    J.-H. Oh, J.-S. Kug, S.-I. An, F.-F. Jin, M.J. Mcphaden, J. Shin, Nat. Clim. Change 14 (2024) 260-266.
    [2]
    The Cenozoic CO2 Proxy Integration Project (CenCO2PIP) Consortium, Science 382 (2023) eadi5177.
    [3]
    I.M. Otto, J.F. Donges, R. Cremades, A. Bhowmik, R.J. Hewitt, W. Lucht, J. Rockstrom, F. Allerberger, M. Mccaffrey, S.S.P. Doe, Proce. Nati. Acad. Sci.117 (2020) 2354-2365.
    [4]
    P. Yin, Y. Gao, R. Chen, W. Liu, C. He, J. Hao, M. Zhou, H. Kan, Nat. Commun. 14 (2023) 8236-8236.
    [5]
    A. Goldstein, W.R. Turner, S.A. Spawn, K.J. Anderson-Teixeira, S. Cook-Patton, J. Fargione, H.K. Gibbs, B. Griscom, J.H. Hewson, J.F. Howard, J.C. Ledezma, S. Page, L.P. Koh, J. Rockstrom, J. Sanderman, D.G. Hole, Nat. Clim. Change 10 (2020) 287-295.
    [6]
    G. Nemet, J. Greene, F. Muller-Hansen, J.C. Minx, Commun. Earth Environ. 4(2023) 397.
    [7]
    J. Sun, M. Zhao, L. Huang, T. Zhang, Q. Wang, Curr. Opin. Green Sustain. Chem. 40 (2023) 100752.
    [8]
    E.T.C. Vogt, B.M. Weckhuysen, Nature 629 (2024) 295-306.
    [9]
    S. E. Zanco, J.-F. Perez-Calvo, A. Gasos, B. Cordiano, V. Becattini, M. Mazzotti, ACS Eng. Au 1 (2021) 50-72.
    [10]
    M. Li, E. Irtem, H.-P. Iglesias Van Montfort, M. Abdinejad, T. Burdyny, Nat. Commun. 13 (2022) 5398.
    [11]
    S.B. Peh, D. Zhao, Science 369 (2020) 372-373.
    [12]
    A.A. Orlov, A. Valtz, C. Coquelet, X. Rozanska, E. Wimmer, G. Marcou, D. Horvath, B. Poulain, A. Varnek, F. De Meyer, Commun. Chem. 5 (2022) 37.
    [13]
    A. Gautam, M.K. Mondal, Fuel 334 (2023) 126616.
    [14]
    G. Choudhary, J. Dhariwal, M. Saha, S. Trivedi, M.K. Banjare, R. Kanaoujiya, K. Behera, Envior. Sci. Pollut. R. 31 (2024) 10296-10316.
    [15]
    S. Kar, M. Rauch, G. Leitus, Y. Ben-David, D. Milstein, Nat. Catal. 4 (2021) 193-201.
    [16]
    N. Noorani, A. Mehrdad, Sci. Reps. 13 (2023) 3227.
    [17]
    G. Kaur, H. Kumar, M. Singla, J. Mol. Liq. 351 (2022) 118556.
    [18]
    J. Wang, R. Wang, Molecules 29 (2024) 3279.
    [19]
    N. Hussain Solangi, F. Hussin, A. Anjum, N. Sabzoi, S. Ali Mazari, N.M. Mubarak, M. Kheireddine Aroua, M.T.H. Siddiqui, S. Saeed Qureshi, J. Mol. Liq. 374 (2023) 121266.
    [20]
    A. Dubey, A. Arora, J. Clean. Prod. 373 (2022) 133932.
    [21]
    V.M. Shama, A.R. Swami, R. Aniruddha, I. Sreedhar, B.M. Reddy, J. CO2 Util. 48 (2021) 101507.
    [22]
    V.J. Aimikhe, W.C. Okologume, in Encyclopedia of Renewable Energy, Sustainability and the Environment (First Edition), ed. Rahimpour, M. R., Elsevier, Oxford, 2024, pp. 535-546.
    [23]
    D.A. Ayetoro, N.A. Nwogwu, K.E. Igwe, E.A. Elimian, H. Demissie, T.F. Ajibade, A. Yusuf, K.H. Lasisi, P. Kumar, B. Adelodun, F.O. Ajibade, in Handbook of Ionic Liquids, 2024, pp. 235-253.
    [24]
    H. Demissie, F.O. Ajibade, J.J.R. Kinhoun, E. Mulu, T.F. Ajibade, E.A. Elimian, B. Adelodun, P. Kumar, O.A. Ajala, in Handbook of Ionic Liquids, 2024, pp. 161-177.
    [25]
    Macfarlane, D.R, M. Kar, J.M. Pringle, in Fundamentals of Ionic Liquids, 2017, pp. 1-25.
    [26]
    A. Osman, A.K. Ziyada, A.M. Khan, F. Rajab, RSC Adv. 14 (2024) 3985-3995.
    [27]
    O. Yuksel Orhan, J. Mol. Liq. 333 (2021) 115981.
    [28]
    Himani, A. Pratap Singh Raman, M. Babu Singh, P. Jain, P. Chaudhary, I. Bahadur, K. Lal, V. Kumar, P. Singh, J. Mol. Liq. 364 (2022) 119989.
    [29]
    J. Du, W. Yang, L. Xu, L. Bei, S. Lei, W. Li, H. Liu, B. Wang, L. Sun, Chem. Eng. J. 488 (2024) 150954.
    [30]
    Y. Zheng, S. Zhang, Y. Liu, C. Wang, B. Lv, G. Jing, Z. Zhou, Sep. Purif. Technol. 313 (2023) 123486.
    [31]
    J. Eichenlaub, K. Baran, M. Smiechowski, A. Kloskowski, Sep. Purif. Technol. 313 (2023) 123464.
    [32]
    X. Liu, K.E. O’harra, J.E. Bara, C.H. Turner, Phys. Chem. Chem. Phys. 22 (2020) 20618-20633.
    [33]
    N. Henni, A. Henni, H. Ibrahim, Fluid Phase Equilib. 565 (2023) 113619-113619.
    [34]
    W. A. Parada, D. V. Vasilyev, K. J. J. Mayrhofer, I. Katsounaros, ACS Appl. Mater. Interf. 14 (2022) 14193-14201.
    [35]
    E.A. Shelepova, N.N. Medvedev, J. Mol. Liq. 368 (2022) 120740.
    [36]
    A.H. Tiwikrama, M. Taha, M.J. Lee, J. Taiwan Inst. Chem. Eng. 112 (2020) 152-161.
    [37]
    Q. Sohaib, M.A. Kazemi, C. Charmette, J. Cartier, M. Younas, A. Azarafza, M. Rezakazemi, J. Sanchez-Marcano, Fluid Phase Equilib. 563 (2023) 113581.
    [38]
    A. Zare, P. Darvishi, A. Lashanizadegan, M.M. Zerafat, Can. J. Chem. Eng. 101 (2023) 3925-3936.
    [39]
    R. Wang, C. Qi, Z. Jian, H. Zhao, P. Zhang, S. An, Q. Li, L. Wang, Fuel 359 (2024) 130382.
    [40]
    H. Li, B. Yang, H. Kong, J. Zhao, Q. Cai, J. CO2 Util. 79 (2024) 102640.
    [41]
    Y. Yu, X. Yang, C. Zhang, J. Chen, W. Lin, J. Meng, Sep. Purif. Technol. 331 (2024) 125591-125591.
    [42]
    Y.-L. Wan, J. Zhang, L. Wang, Y.-Z. Lei, L.-L. Wen, J. Colloid Interface Sci. 653 (2024) 844-856.
    [43]
    K. Qu, Z. Yuan, Y. Wang, Z. Song, X. Gong, Y. Zhao, Q. Mu, Q. Zhan, W. Xu, L. Wang, ChemPhysMater. 1 (2022) 294-309.
    [44]
    B. Yoon, G. A. Voth, J. Am. Chem. Soc. 145 (2023) 15663-15667.
    [45]
    X. Liu, Y. Wang, M. He, Process Saf. Environ. Prot. 185 (2024) 1319-1335.
    [46]
    Q. Sun, J. Xiong, H. Gao, W. Olson, Z. Liang, Chem. Eng. Sci. 283 (2024) 119380.
    [47]
    H. Zhao, G.A. Baker, Green Chem. Lett. Rev. 16 (2023).
    [48]
    W. Li, Z. Li, In Encyclopedia of Ionic Liquids, Springer Nature Singapore, Singapore, 1 edn., (2022). pp 946-982.
    [49]
    S. Jiang, Y. Hu, Z. Liu, C. Ren, in Encyclopedia of Ionic Liquids, ed. Zhang, S., Springer Nature Singapore, Singapore, 2022, pp. 1351-1361.
    [50]
    F. Yang, B. Wang, Y. Jiao, H. Tan, X. Wang, J. Chem. Thermodyn. 181 (2023) 107038.
    [51]
    Z. Zhai, T.M. Koller, J. Mol. Liq. 377 (2023) 121491.
    [52]
    C.D.L. Taylor, A. Klemm, L. Al-Mahbobi, B.J. Bradford, B. Gurkan, E.B. Pentzer, ACS Sustain. Chem. Eng. 12 (2024) 7882-7893.
    [53]
    A. Aljasmi, A.S. Aljimaz, K.H.a.E. Alkhaldi, M.S. Altuwaim, Chem. Thermodyn. Therm. Anal. 8 (2022) 100099.
    [54]
    A.C.S. Madugula, C. Jeffryes, J. Henry, J. Gossage, T.J. Benson, Comp. Chem. Engin. 183 (2024) 108599.
    [55]
    C. Wang, Y. Wang, J. Liu, M. Wang, Z. Gan, H. He, Chem. Eng. J. 440 (2022) 135918.
    [56]
    A.R. Shaikh, S. Posada-Perez, A. Brotons-Rufes, J.J. Pajski, Vajiha, G. Kumar, A. Mateen, A. Poater, M. Sola, M. Chawla, L. Cavallo, J. Mol. Liq. 367 (2022) 120558.
    [57]
    J. Jia, H. Song, P. Jia, Process Saf. Environ. 182 (2024) 210-221.
    [58]
    J. Yin, J. Zhang, C. Wang, N. Lv, W. Jiang, H. Liu, H. Li, W. Zhu, H. Li, H. Ji, J. Mol. Liq. 344 (2021) 117676.
    [59]
    F. Chamani, B. Tanhaei, M.P. Chenar, Chemosphere 351 (2024) 141179-141179.
    [60]
    X. Sun, S. Zeng, G. Li, Y. Bai, M. Shang, J. Zhang, X. Zhang, AlChE J. 70 (2024).
    [61]
    E. Duarte, F. Bernard, L.M. Dos Santos, B.B. Polesso, R. Duczinski, V. Forneck, J. Geshev, S. Einloft, Heliyon 10 (2024) e29657.
    [62]
    Y. Suzuki, D. Kodama, H. Mori, N. Kuroki, F. Alam Chowdhury, H. Yamada, Ind. Eng. Chem. Res. 61 (2022) 16584-16592.
    [63]
    R. Rezaeinejad, A.a.M. Sharif, F. Shaahmadi, Korean J. Chem. Eng. 40 (2023) 925-934.
    [64]
    B. Kazmi, J. Haider, S.A. Ammar Taqvi, M.A. Qyyum, S.I. Ali, Z.U. Hussain Awan, H. Lim, M. Naqvi, S.R. Naqvi, Energy 239 (2022) 122425.
    [65]
    M. Farsi, E. Soroush, in Advances in Carbon Capture, eds. Rahimpour, M. R.; Farsi, M.; Makarem, M. A., Woodhead Publishing, US, 1 edn., 2020, ch. 4, pp. 89-105.
    [66]
    A.K. Ziyada, A. Osman, A.A. Elbashir, A.M. Khan, C.D. Wilfred, Korean J. Chem. Eng. (2024) 1-13.
    [67]
    P.a.S. Cavazos, M.L. Diaz-Ramirez, E. Hunter-Sellars, S.R. Mcintyre, E. Lima, I.A. Ibarra, D.R. Williams, RSC adv. 11 (2021) 13304-13310.
    [68]
    M. B. Wenny, M. V. Walter, A. H. Slavney, J. A. Mason, J. Phy. Chem. B 127 (2023) 2028-2033.
    [69]
    Y. Suzuki, M. Watanabe, D. Kodama, T. Makino, M. Kanakubo, M. Sasaki, J. Chem. Eng. Data 69 (2024) 1013-1025.
    [70]
    E. Davarpanah, S. Hernandez, G. Latini, C.F. Pirri, S. Bocchini, Adv. Sust. Syst. 4 (2020) 1900067.
    [71]
    R. Biswas, J. Mol. Model. 28 (2022) 231.
    [72]
    H. Fu, X. Wang, H. Sang, R. Fan, Y. Han, J. Zhang, Z. Liu, J. Mol. Liq. 304 (2020) 112805.
    [73]
    A. Puga, M. Yousefe, K. Glinska, R. Garcia-Valls, M. Giamberini, Sep. Purif. Technol. 354 (2024) 128443.
    [74]
    I. Das, K. Rama Swami, R.L. Gardas, J. Mol. Liq. 371 (2023) 121114.
    [75]
    T. Chen, T. Chen, X. Wu, Y. Xu, J. Mol. Liq. 362 (2022) 119743..
    [76]
    E. Quaye, A. Henni, E. Shirif. Molecules 29 (2024) 27842024.
    [77]
    X. Zhu, M. Song, B. Ling, S. Wang, X. Luo, J. Solution Chem. 49 (2020) 257-271.
    [78]
    L. Wei, R. Guo, Y. Tang, J. Zhu, M. Liu, J. Chen, Y. Xu, Sep. Purif. Technol. 239 (2020) 116531.
    [79]
    I. Das, K.R. Swami, R.L. Gardas, Chem. Thermodyn. Therm. Anal. 15 (2024) 100138.
    [80]
    N. Wang, C. Ma, H. Yu, X. Ji, J. Mol. Liq. 331 (2021) 115760.
    [81]
    S. Wen, H. Wu, X. Zhang, T. Wang, W. Xu, Y. Wu, Chem. Eng. Sci. 284 (2024) 119530.
    [82]
    T. Chen, Y. Zhang, Y. Xu, ACS Sustain. Chem. Eng. 10 (2022) 10699-10711.
    [83]
    X.-Y. Luo, X.-Y. Chen, R.-X. Qiu, B.-Y. Pei, Y. Wei, M. Hu, J.-Q. Lin, J.-Y. Zhang, G.-G. Luo, Dalton Trans. 48 (2019) 2300-2307.
    [84]
    S. Sardar, A. Mumtaz, M. Taneez, M. Yasinzai, M.I. Irshad, J.M. Leveque, Fluid Phase Equilib. 510 (2020) 112484.
    [85]
    F. Liu, Y. Shen, L. Shen, C. Sun, L. Chen, Q. Wang, S. Li, W. Li, Environ. Sci. Technol. 54 (2020) 3520-3529.
    [86]
    T. Song, W. Chen, Y. Zhang, G. Situ, F. Liu, Y. Shen, W. Kong, X. Zhong, Y. Huang, S. Li, L. Yang, S. Zhang, S. Li, W. Li, Sep. Purif. Technol. 330 (2024) 125538.
    [87]
    B. Lu, Y. Zeng, M. Chen, S. Zhang, D. Yang, Atmosphere 15 (2024).
    [88]
    J. Yang, D. Gao, H. Zhang, Q. Yi, Fuel 366 (2024) 131351.
    [89]
    X. Huang, Fuel 329 (2022) 125444.
    [90]
    X. Suo, Y. Fu, C.-L. Do-Thanh, L.-Q. Qiu, D.-E. Jiang, S. M. Mahurin, Z. Yang, S. Dai, J. Am. Chem. Soc. 144 (2022) 21658-21663.
    [91]
    N. Ghasem, in Advances in Carbon Capture, eds. Rahimpour, M. R.; Farsi, M.; Makarem, M. A., Woodhead Publishing, 2020, pp. 479-501.
    [92]
    A. Yokozeki, M. B. Shiflett, C. P. Junk, L. M. Grieco, T. Foo, J. Phys. Chem. B 112 (2008) 16654-16663.
    [93]
    M. Farooqh, J. Ali, M. Praveen, A. Ghouse, F. Fatima, Int. J. BioMed. Res.1 (2021).
    [94]
    N.A. Noorhisham, D. Amri, A.H. Mohamed, N. Yahaya, N.M. Ahmad, S. Mohamad, S. Kamaruzaman, H. Osman, J. Mol. Liq. 326 (2021) 115340.
    [95]
    C. Li, T. Zhao, A. Yang, F. Liu, ACS Omega 6 (2021) 34027-34034.
    [96]
    X. Zhu, Z. Chen, H. Ai, J. Mol. Model. 26 (2020) 1-12.
    [97]
    N. Amiri, H. Benyounes, Z. Lounis, W. Shen, Chem. Eng. Res. Des. 169 (2021) 239-249.
    [98]
    Y. Wang, S. Huang, X. Liu, M. He, J. Mol. Liq. 378 (2023) 121587.
    [99]
    J. L. J. Ling, H.S. Park, H.E. Lee, B.S. Solanki, S.H. Lee, J. Clean. Prod. 458 (2024) 142516.
    [100]
    Y. Huang, Z. Chen, J.M. Crosthwaite, S.N.V.K. Aki, J.F. Brennecke, J. Chem. Thermodyn. 161 (2021) 106560.
    [101]
    Y. Chen, H. Liang, Z. Bi, Z. Li, H. Sun, J. Wang, J. Han, Thermochim. Acta 723 (2023) 179471.
    [102]
    T. Qureshi, M. Khraisheh, F. Almomani, Sustainability 15 (2023) 3370.
    [103]
    H. Takana, N. Hara, T. Makino, M. Kanakubo, J. Electrost. 114 (2021) 103634.
    [104]
    K. Yagihara, H. Ohno, A. Guzman-Urbina, J. Ni, Y. Fukushima, Energy 250 (2022) 123775.
    [105]
    S. Nawaz Khan, F. Abbas, F.M. Enujekwu, S. Ullah, M. Ali Assiri, A.G. Al-Sehemi, J. Mol. Liq. 394 (2024) 123725.
    [106]
    D. Hospital-Benito, J. Lemus, R. Santiago, J. Palomar, J. CO2 Util. 35 (2020) 185-193.
    [107]
    F. Ochedi, J. Yu, H. Yu, Y. Liu, Environ. Chem. Lett. 19 (2021) 77-109.
    [108]
    J. Avila, L.F. Lepre, C.C. Santini, M. Tiano, S. Denis-Quanquin, K. Chung Szeto, A.a.H. Padua, M. Costa Gomes, Angew. Chem. Int. Ed. 60 (2021) 12876-12882.
    [109]
    E. Hernandez, D. Hospital-Benito, C. Moya, R. Ortiz, A. Belinchon, C. Paramio, J. Lemus, P. Navarro, J. Palomar, Chem. Eng. J. 446 (2022) 137166.
    [110]
    M. B. Wenny, N. Molinari, A. H. Slavney, S. Thapa, B. Lee, B. Kozinsky, J. A. Mason, J. Phy. Chem. B 126 (2022) 1268-1274.
    [111]
    B. B. Polesso, R. Duczinski, F. L. Bernard, D.J. Faria, L. M. Dos Santos, S. Einloft, Heliyon 9 (2023) e13298.
    [112]
    W. Jiang, X. Gao, B. Xu, G. Gao, F. Wu, X. Li, L. Zhang, C. Luo, Sep. Purif. Technol. 325 (2023) 124624.
    [113]
    X. Liao, K. Zheng, G. Wang, Y. Yang, Y. Li, M.-O. Coppens, Ind. Eng. Chem. Res. 61 (2022) 14364-14373.
    [114]
    M. Izadyar, M. Rezaeian, A. Victorov, Phys. Chem. Chem. Phys. 22 (2020) 20050-20060.
    [115]
    X. Liu, J. E. Bara, C. Heath Turner, J. Phys. Chem. B 125 (2021) 8165-8174.
    [116]
    S.C. Balchandani, A. Dey, Int. Commun. Heat Mass Transf. 132 (2022) 105866-105878.
    [117]
    S. N. V. K. Aki, B. R. Mellein, E. M. Saurer, J. F. Brennecke, J. Phys. Chem. B 108 (2004) 20355-20365.
    [118]
    R. He, K. Peng, Q. Wu, L. Li, X. Wang, G. Zhou, Z. Yang, Fluid Phase Equilib. 554 (2022) 113342.
    [119]
    Y. Zou, Q. Amuti, Z. Zou, Y. Xu, C. Yan, G. Cheng, H. Ke, J. Colloid Interface Sci. 656 (2024) 47-57.
    [120]
    G.V.S.M. Carrera, J. Ines, C.E.S. Bernardes, K. Klimenko, K. Shimizu, J.N. Canongia Lopes, ChemPhysChem 22 (2021) 2190-2200.
    [121]
    F. Yang, X. Wang, Y. Liu, Y. Yang, M. Zhao, X. Liu, W. Li, RSC Adv. 10 (2020) 13968-13974.
    [122]
    B. Wang, M. Zhu, M. Liu, Y. Wang, Y. Zhou, J. Ma, J. Mol. Liq. 366 (2022) 120340.
    [123]
    R.A. El-Nagar, A. Elaraby, M.I. Nessim, A. Ghanem, J. Mol. Liq. 401 (2024) 124708.
    [124]
    K. Rao Gorantla, B. S. Mallik, J. Phys. Chem. A 124 (2020) 836-848.
    [125]
    Y.S. Sistla, V. Sridhar, J. Mol. Liq. 325 (2021) 115162.
    [126]
    B. Ratschmeier, B. Braunschweig, J. Phys. Chem. C 125 (2021) 16498-16507.
    [127]
    S. Kamalakannan, K. Rudharachari Maiyelvaganan, K. Palanisamy, A. Thomas, R. Ben Said, M. Prakash, M. Hochlaf, Chemosphere 286 (2022) 131612.
    [128]
    V. V. Chaban,, J. Phys. Chem. B 126 (2022) 5497-5506.
    [129]
    A.R. Shaikh, A. Vidal-Lopez, A. Brotons-Rufes, J.J. Pajski, S. Zafar, R.A. Mahmood, M.U. Khan, A. Poater, M. Chawla, L. Cavallo, Res. Surf. Interf. 14 (2024) 100175-100175.
    [130]
    Z. Feng, N. Wang, X. Li, Z. Li, K. Li, H. Jin, S. Qu, H. Xia, H. Cheng, X. Tan, S. Zheng, Int. J.Greenhouse Gas Cont. 131 (2024) 104037.
    [131]
    S. Onofri, H. Adenusi, A. Le Donne, E. Bodo, Chem. Open 9 (2020) 1153-1160.
    [132]
    J. Tong, Y. Zhao, F. Huo, Y. Guo, X. Liang, N. Von Solms, H. He, Phys. Chem. Chem. Phys. 23 (2021) 3246-3255.
    [133]
    Q. Zhang, D. Bahamon, I.I.I. Alkhatib, R. Zhang, Z. Liu, H. Liu, C. Xu, L.F. Vega, X. Meng, J. Mol. Liq. 394 (2024) 123683.
    [134]
    A. Chaouiki, M. Chafiq, Y.G. Ko, Environ. Res. 246 (2024) 118112.
    [135]
    L. Wang, L. Li, Y. Xu, Y. Li, Y. Wang, T. Chu, J. Mol. Liq. 379 (2023) 121646.
    [136]
    S. Oh, O. Morales-Collazo, A. N. Keller, J. F. Brennecke, J. Phys. Chem. B 124 (2020) 8877.
    [137]
    Y. Fu, X. Suo, Z. Yang, S. Dai, D.-E. Jiang,, J. Phys. Chem B 126 (2022) 6979-6984.
    [138]
    M. Zeng, Y. Liu, Y. Hu, X. Zhang, Chem. Eng. J. 425(2021)131663.
    [139]
    X. An, P. Wang, X. Ma, X. Du, X. Hao, Z. Yang, G. Guan, Carbon Resour. Convers. 6 (2023) 85-97.
    [140]
    S. Mena, G. Guirado, J. Carbon Res. 6 (2020) 34.
    [141]
    C. Jiang, S. Zeng, X. Ma, J. Feng, G. Li, L. Bai, F. Li, X. Ji, X. Zhang, AlChE J. 69 (2023) e17859.
    [142]
    J. T. Feaster, A. L. Jongerius, X. Liu, M. Urushihara, S. A. Nitopi, C. Hahn, K. Chan, J. K. Noerskov, T. F. Jaramillo, Langmuir 33 (2017) 9464-9471.
    [143]
    M. Sun, D. Pan, T. Ye, J. Gu, Y. Zhou, J. Wang, Chin. J. Chem. Eng. 55 (2023) 212-221.
    [144]
    G. Li, C. Jiang, S. Zeng, K. Peng, L. Yuan, J. Chu, X. Zhang, J. Mol. Liq. 375 (2023) 121392.
    [145]
    Y. Hu, Z. Gan, S. Xin, W. Fang, M. Li, Y. Wang, W. Cui, H. Zhao, Z. Li, X. Zhang, Chem. Eng. J. 451 (2023) 138975.
    [146]
    O.K. Coskun, S. Dongare, B. Doherty, A. Klemm, M. Tuckerman, B. Gurkan, Angew. Chem. Int. Ed. 63 (2024) e202312163.
    [147]
    A. Fortunati, F. Risplendi, M. Re Fiorentin, G. Cicero, E. Parisi, M. Castellino, E. Simone, B. Iliev, T.J.S. Schubert, N. Russo, S. Hernandez, Commun. Chem. 6 (2023) 84.
    [148]
    X. Wang, M. Salari, D.-E. Jiang, J. Chapman Varela, B. Anasori, D.J. Wesolowski, S. Dai, M.W. Grinstaff, Y. Gogotsi, Nat. Rev. Mater. 5 (2020) 787-808.
    [149]
    A. Senocrate, C. Battaglia, J. Energy Storage 36 (2021) 102373-102373.
    [150]
    K. Zhang, D. Guo, X. Wang, Y. Qin, L. Hu, Y. Zhang, R. Zou, S. Gao, J. CO2 Util. 72 (2023) 102493.
    [151]
    S. Overa, B. Hee Ko, Y. Zhao, F. Jiao, Acc. Chem. Res. 55 (2022) 638-648.
    [152]
    J.Y.T. Kim, C. Sellers, S. Hao, T.P. Senftle, H. Wang, Nat. Catal. 6 (2023) 1115-1124.
    [153]
    Y.C. Li, Commun. Chem. 7 (2024) 48.
    [154]
    Y. Pei, H. Zhong, F. Jin, Energy Sci. Eng. 9 (2021) 1012-1032.
    [155]
    S. Jin, Z. Hao, K. Zhang, Z. Yan, J. Chen, Angew. Chem. Int. Ed. 133 (2021) 20795-20816.
    [156]
    J. Li, J. Hu, M. Zhang, W. Gou, S. Zhang, Z. Chen, Y. Qu, Y. Ma, Nat. Commun.12 (2021) 3502.
    [157]
    Y. Wang, C. Qian, F. Huo, B. Xu, H. He, S. Zhang, AlChE J. 67 (2021) e17060.
    [158]
    J. Ma, Y. Wang, X. Yang, M. Zhu, B. Wang,, J. Phys. Chem. B 125 (2021) 1416-1428.
    [159]
    H. Cai, H. Yang, J. Feng, K. Zhou, C. Liu, Q. Hu, C. He, Adv. Funct. Mater. n/a (2024) 2404102.
    [160]
    M. Xu, G. Zhao, L. Ullah, H. Liu, Q. Hu, L. Jia, Y. Liu, Z. Liu, H. Liu, J. CO2 Util. 82 (2024).
    [161]
    H. Zhang, S. Zeng, C. Jiang, K. Peng, J. Feng, L. Yuan, X. Li, F. Xu, X. Zhang, ChemCatChem (2024) e202400045.
    [162]
    J. Sun, Z. Liu, H. Zhou, M. Cao, W. Cai, C. Xu, J. Xu, Z. Huang, Small (2023) 2308522.
    [163]
    J.D. Ndayambaje, I. Shabbir, Q. Zhao, L. Dong, Q. Su, W. Cheng, Catal. Sci.Technol. 14 (2023) 293-305.
    [164]
    G.-Y. Duan, X.-Q. Li, G.-R. Ding, L.-J. Han, B.-H. Xu, S.-J. Zhang, Angew. Chem. Int. Ed. 61 (2022) e202110657.
    [165]
    T. Kim, G.T.R. Palmore, Nat. Commun. 11 (2020) 3622.
    [166]
    W.A. Parada, K.J.J. Mayrhofer, P. Nikolaienko, ChemElectroChem n/a (2024) e202400305.
    [167]
    Y.-R. Du, X.-Q. Li, X.-X. Yang, G.-Y. Duan, Y.-M. Chen, B.-H. Xu, Small n/a (2024) 2402534.
    [168]
    E. Vichou, Y. Adjez, Y. Li, M. Gomez-Mingot, M. Fontecave, C.M. Sanchez-Sanchez, J. Am. Chem. Soc. 146 (2024) 2824.
    [169]
    D. Grammatico, P. Marcasuzaa, A. Viterisi, A. Bousquet, B.-L. Su, L. Billon, Chem. Commun. 59 (2023) 2279-2282.
    [170]
    J.H.A. Schuurmans, T.M. Masson, S.D.A. Zondag, P. Buskens, T. Noel, ChemSusChem 17 (2024) e202301405.
    [171]
    S. Jia, Q. Zhu, S. Han, J. Zhai, M. Dong, W. Xia, X. Xing, H. Wu, M. He, B. Han, Chem. Sci.14 (2023) 11474-11480.
    [172]
    H. Yang, R. Zhang, J. Yang, G. Zhou, X. Jia, Z. Hua, D. Yang, Chem. Eu. J. 29 (2023) e202300522.
    [173]
    X.Q. Duan, G.Y. Duan, Y.F. Wang, X.Q. Li, R. Wang, R. Zhang, B.H. Xu, Small 19 (2023) 2207219-2207219.
    [174]
    Y. Zhao, D. Cao, X. Xu, X. Zhang, Y. Hu, Microchem. J. 169 (2021) 106559.
    [175]
    J. Feng, H. Gao, J. Feng, L. Liu, S. Zeng, H. Dong, Y. Bai, L. Liu, X. Zhang, ChemCatChem 12 (2020) 926-931.
    [176]
    A. Hailu, A. Abbaspour Tamijani, S. E. Mason, S. K. Shaw, Energ. Fuels 34 (2020) 3467.
    [177]
    F. Tan, T. Liu, Y. Zhang, J. Photochem. Photobio. 451 (2024) 115518.
    [178]
    Q. Zhu, D. Yang, H. Liu, X. Sun, C. Chen, J. Bi, J. Liu, H. Wu, B. Han, Angew. Chem. Int. Ed. 132 (2020) 8981-8986.
    [179]
    S. Dongare, O. Kagan Coskun, E. Cagli, K. Y. C. Lee, G. Rao, R. David Britt, L. A. Berben, B. Gurkan, ACS Catal. 13 (2023) 7812-7821.
    [180]
    Z. Min, B. Chang, C. Shao, X. Su, N. Wang, Z. Li, H. Wang, Y. Zhao, M. Fan, J. Wang, Appl. Catal. Environ. 326 (2023) 122185.
    [181]
    Y. Hu, J. Feng, X. Zhang, H. Gao, S. Jin, L. Liu, W. Shen, ChemistrySelect 6 (2021) 9873.
    [182]
    B. Liu, W. Guo, M. A. Gebbie, ACS Catal. 12 (2022) 9706-9716.
    [183]
    L. Yuan, L. Zhang, J. Feng, C. Jiang, J. Feng, C. Li, S. Zeng, X. Zhang, Chem. Eng. J. 450 (2022) 138378.
    [184]
    M.C.O. Monteiro, F. Dattila, B. Hagedoorn, R. Garcia-Muelas, N. Lopez, M.T.M. Koper, Nat. Catal. 4 (2021) 654-662.
    [185]
    C. J. Bondue, M. Graf, A. Goyal, M. T. M. Koper, J. Am. Chem. Soc. 143 (2020) 279-285.
    [186]
    Q. Sun, Y. Zhao, W. Ren, C. Zhao, Appl. Catal. Environ. 304 (2022) 120963.
    [187]
    B. Thijs, J. Ronge, J.A. Martens, Green Chem. 24 (2022) 2287-2295.
    [188]
    Y. Kuang, H. Rabiee, L. Ge, T.E. Rufford, Z. Yuan, J. Bell, H. Wang, Energy Environ. Mater. 6 (2023) e12596.
    [189]
    S. Guo, Y. Liu, Y. Wang, K. Dong, X. Zhang, S. Zhang, Chem. Eng. J. 457 (2023) 141076.
    [190]
    E. P. Delmo, Y. Wang, J. Wang, S. Zhu, T. Li, X. Qin, Y. Tian, Q. Zhao, J. Jang, Y. Wang, M. Gu, L. Zhang, M. Shao, Chin. J. Catal. 43 (2022) 1687-1696.
    [191]
    R.F. Zarandi, B. Rezaei, H.S. Ghaziaskar, A.A. Ensafi, J. Environ. Chem. Eng. 7 (2019) 103141-103141.
    [192]
    S. Lian, C. Song, Q. Liu, E. Duan, H. Ren, Y. Kitamura, J. Environ. Sci. 99 (2021) 281-295.
    [193]
    M. Moreaux, J.-P. Amigues, G. Van Der Meijden, C. Withagen, J. Environ. Econ. Manag. 125 (2024) 102976-102976.
    [194]
    D.J. Heldebrant, J. Kothandaraman, N. Mac Dowell, L. Brickett, Chem. Sci. 13 (2022) 6445-6456.
    [195]
    S.K. De, D.-I. Won, J. Kim, D.H. Kim, Chem. Soc. Rev. 52 (2023) 5744-5802.
    [196]
    C. Kim, S.N. Talapaneni, L. Dai, Mat. Rep. Energy 3 (2023) 100199.
    [197]
    I. Sullivan, A. Goryachev, I.A. Digdaya, X. Li, H.A. Atwater, D.A. Vermaas, C. Xiang, Nat. Catal. 4 (2021) 952-958.
    [198]
    G. Zhang, J. Liu, J. Qian, X. Zhang, Z. Liu, J. Ind. Eng. Chem. 134 (2024) 28-50.
    [199]
    X. Chen, Y. Cui, S. Wang, ACS omega 9 (2024) 13067-13080.
    [200]
    M. Sibhat, G. Yao, N. Zhu, G. Tsegay, K. Fang, Q. Zhu, Y. Zhou, J. Zhao, Res. Eng. 23 (2024) 102536.
    [201]
    J. Mao, Y. Ci, J. Liu, C. Li, W. Yang, Y. Yun, G. Liu, M. Li, M. Wang, Chem. Eng. J. 491 (2024) 151991.
    [202]
    K. Zhang, R. Wang, Chem. Eng. J. (2024) 149495.
    [203]
    T. Saeed, A. Naeem, B. Ahmad, S. Ahmad, S. Afridi, F. Khan, I.U. Din, N.H. Khan, J. Porous Mater. 31 (2024) 33-48.
    [204]
    H. Lin, Y. Yang, Y.C. Hsu, J. Zhang, C. Welton, I. Afolabi, M. Loo, H.C. Zhou, Adv. Mater. 36 (2024) 2209073.
    [205]
    C. Xiao, J. Tian, M. Hong, Chem. Sci. (2024).
    [206]
    Y. Gao, X. Wang, H. Guo, L. Liu, H. Wang, W. Cui, Mol. Catal. 543 (2023) 113161.
    [207]
    Y. Yang, H.Y. Zhang, Y. Wang, L.H. Shao, L. Fang, H. Dong, M. Lu, L.Z. Dong, Y.Q. Lan, F.M. Zhang, Adv. Mater. 35 (2023).
    [208]
    X. Guo, Z. Wang, S. Jiang, M. Li, J. Guo, Y. Cui, X. Wei, B. Qi, Q. Huang, Y. Liu, H. Jiang, Y. Hu, Fuel 367 (2024).
    [209]
    S. Taghipour, N.H. Solangi, A. Anjum, F. Hussin, S.A. Mazari, N.M. Mubarak, B. Ataie-Ashtiani, U. Lee, M.K. Aroua, J.-H. Moon, Coord. Chem. Rev. 511 (2024) 215831.
    [210]
    X. Zhang, W. Huang, L. Yu, M. Garcia-Melchor, D. Wang, L. Zhi, H. Zhang, Carbon Energy 6 (2024) e362.
    [211]
    M.G. Sibi, D. Verma, J. Kim, Catal. Rev. 66 (2024) 863-922.
    [212]
    K. Wang, L. Li, P. Yu, N. Tang, L. Zeng, K. Li, C. Zhang, R. Chen, Z. Xiang, H. Wang, Appl. Catal. B Environ. Energy(2024) 124428.
    [213]
    N. Saini, A. Malik, S.L. Jain, Coord. Chem. Rev. 502 (2024) 215636.
    [214]
    X. Chen, H.H. Kim, T. Nozaki, Plasma Process. Polym. 21 (2024) 2200207.
    [215]
    R. Gupta, A. Mishra, Y. Thirupathaiah, A.K. Chandel, Biomass Convers. Biorefin. 14 (2024) 3007-3030.
    [216]
    H. Cui, W. Liu, C. Ma, P. Shiri, Z. Zhu, H. Jiang, D. Li, L. Zhang, Appl. Catal. B: Environ. Energy 350 (2024) 123946.
    [217]
    L. Marra, M.E. Russo, H.K. Knuutila, A. Marzocchella, P. Salatino, Chem. Eng. Sci. 285 (2024) 119618.
    [218]
    Z. Ai, N. Hanasaki, V. Heck, T. Hasegawa, S. Fujimori, Nat. Sustain. 4 (2021) 884-891.
    [219]
    C. Han, X. Zhu, J.S. Martin, Y. Lin, S. Spears, Y. Yan, ChemSusChem 13 (2020) 4005-4025.
    [220]
    S. Nagireddi, J.R. Agarwal, D. Vedapuri, ACS Eng. Au 4 (2024) 22-48.
    [221]
    M. Singh, ACS Sust. Chem. Eng. 7 (2020) 5993-6003.
    [222]
    T. Papalas, D. Lypiridis, A.N. Antzaras, A.A. Lemonidou, Chem. Eng. J. 485 (2024) 149866.
    [223]
    C. J. Koch, A. Goeppert, G. K. S. Prakash, ChemSusChem 2024, DOI: 10.1002/cssc.202301789.
    [224]
    M.U. Sieborg, J.M.S. Oliveira, L.D.M. Ottosen, M.V.W. Kofoed, Energy Convers. Manag. 302 (2024) 118090.
    [225]
    H.E. Holmes, S. Banerjee, A. Vallace, R.P. Lively, C.W. Jones, M.J. Realff, Energy Environ. Sci. 17 (2024) 4544-4559.
    [226]
    Y. Hou, Y. Chen, X. He, F. Wang, Q. Cai, B. Shen, Chem. Eng. J. 490 (2024) 151424.
    [227]
    S. Van Daele, L. Hintjens, S. Hoekx, B. Bohlen, S. Neukermans, N. Daems, J. Hereijgers, T. Breugelmans, Appl. Catal. B: Environ. Energy 341 (2024) 123345.
    [228]
    J. Sonke, B.H. Morland, G. Moulie, M.S. Franke, Int. J. Greenhouse Gas Cont.133 (2024) 104075.
    [229]
    C.C.S.I. Global, Global Carbon Capture and Storage Institute. 2024; pp 2-3.
    [230]
    Vass, B. Endrődi, C. Janaky, Curr. Opin. Electrochem. 25 (2021) 100621.
    [231]
    M.A. Murmura, A. Brasiello, Chem. Eng. Process. 186 (2023) 109329.
    [232]
    C. Ampelli, F. Tavella, D. Giusi, A.M. Ronsisvalle, S. Perathoner, G. Centi, Catal. Today 421 (2023) 114217-114217.
    [233]
    J. Feng, L. Wu, S. Liu, L. Xu, X. Song, L. Zhang, Q. Zhu, X. Kang, X. Sun, B. Han, J. Am. Chem. Soc. 145 (2023) 9857-9866.
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