Materials Science in Additive Manufacturing                       Emerging 3D-printed zeolitic gas adsorbents



            118.  Lee J, Chuah CY, Tan WS,  et al., 2022, 3D-printed   on carbon dioxide capture by electric swing adsorption
                monolithic porous adsorbents from a solution-processible,   (ESA) technology. J CO2 Util, 26: 388–396.
                hypercrosslinkable, functionalizable polymer. Chem Eng J,   125.  Regufe MJ, Ferreira AFP, Loureiro JM, et al., 2019, Electrical
                427: 130883.                                       conductive 3D-printed monolith adsorbent for CO
            119.  Li X, Rezaei F, Rownaghi AA, 2018, 3D-printed zeolite   capture. Microporous Mesoporous Mater, 278: 403–413.  2
                monoliths with hierarchical porosity for selective methanol   126.  Gelles  T,  Krishnamurthy  A, Adebayo B,  et al.,  2020,
                to light olefin reaction. React Chem Eng, 3: 733–746.  Abatement of gaseous volatile organic compounds:
                https://doi.org/10.1039/C8RE00095F                 A material perspective. Catal Today, 350: 3–18.
            120.  Chu X, Tang X, Chen W,  et al., 2023, Direct-ink-write   127.  Krishnamurthy A, Adebayo  B, Gelles T,  et al.,  2020,
                printing  performance  of  zeolite  catalysts  with  porous   Abatement of gaseous volatile organic compounds:
                structures. Ceram Int, 49: 13531–13541.            A process perspective. Catal Today, 350: 100–119.
            121.  Bragina AA, Lysikov AI, Parkhomchuk EV, 2022, Forming   128.  Pellejero I, Almazán F, Lafuente M, et al., 2020,
                of block zeolites using 3D printing technology. Pet Chem,   Functionalization of 3D printed ABS filters with MOF for
                62: 853–861.                                       toxic gas removal. J Ind Eng Chem, 89: 194–203.
                https://doi.org/10.1134/S0965544122070088      129.  Dhainaut J, Bonneau M, Ueoka R, et al., 2020, Formulation
                                                                   of metal-organic framework inks for the 3D Printing of
            122.  Morishige K, 2011, Adsorption and separation of CO /CH   4  robust microporous solids toward high-pressure gas storage
                                                      2
                on amorphous silica molecular sieve.  J  Phys Chem C,   and separation. ACS Appl Mater Interfaces, 12: 10983–10992.
                115: 9713–9718.
                                                                   https://doi.org/10.1021/acsami.9b22257
                https://doi.org/10.1021/jp202572w
                                                               130.  Thompson JF, Bellerjeau C, Marinick G, et al., 2019, Intrinsic
            123.  Li Y, Yi H, Tang X,  et al., 2013, Adsorption separation   thermal desorption in a 3D printed multifunctional
                of CO /CH  gas mixture on the commercial zeolites at   composite CO  sorbent with embedded heating capability.
                         4
                     2
                                                                              2
                atmospheric pressure. Chem Eng J, 229: 50–56.      ACS Appl Mater Interfaces, 11: 43337–43343.
            124.  Zhao R, Liu L, Zhao L, et al., 2018, Thermodynamic analysis      https://doi.org/10.1021/acsami.9b14111









































            Volume 2 Issue 4 (2023)                         22                      https://doi.org/10.36922/msam.1880