New Promises and Opportunities in 3D Printable Inks Based on Coordination Compounds for the Creation of Objects with Multiple Applications

Abstract: This review focuses on the usefulness of coordination bonds to create 3D printable inks and shows how the union of chemistry and 3D technology contributes to new scientific advances, by allowing amorphous or polycrystalline solids to be transformed into objects with the desired shape for successful applications. The review clearly shows how there has been considerable increase in the manufacture of objects based on the combination of organic matrices and coordination compounds. These coordination compounds are… Show more

“…[30,31] Generally, MSC manufacturing strategies are primarily based on traditional and expensive lithographic technologies. [32,33] In contrast, 3D printing technology is an excellent alternative method to fabricate MSCs with a customized geometry. The construction of high-performance MSCs using 1D nanowires (NWs), nanotubes, and other low-dimensional nanomaterials is significant for the preparation of flexible and integrated devices.…”

Ethanol‐Induced Ni²⁺‐Intercalated Cobalt Organic Frameworks on Vanadium Pentoxide for Synergistically Enhancing the Performance of 3D‐Printed Micro‐Supercapacitors

“…[30,31] Generally, MSC manufacturing strategies are primarily based on traditional and expensive lithographic technologies. [32,33] In contrast, 3D printing technology is an excellent alternative method to fabricate MSCs with a customized geometry. The construction of high-performance MSCs using 1D nanowires (NWs), nanotubes, and other low-dimensional nanomaterials is significant for the preparation of flexible and integrated devices.…”

Ethanol‐Induced Ni²⁺‐Intercalated Cobalt Organic Frameworks on Vanadium Pentoxide for Synergistically Enhancing the Performance of 3D‐Printed Micro‐Supercapacitors

“…At present, the literature offers several examples of organic compounds that can be effectively used in anti-counterfeiting strategies (for example, coordination compounds [ 18 ], sequence-coded polyurethanes [ 59 ], organic colour-tunable phosphorescent materials [ 60 ], polymers with mechanochromic properties and structural colour materials [ 61 , 62 , 63 ]). However, these materials have not been exploited in AM yet, likely because very little is known about their printability, and extensive research is still needed to unlock their potential.…”

“…A bibliographic search conducted in Scopus on 24 October 2021, entering “additive manufacturing” AND “anti-counterfeiting” as keywords in “article title, abstract, keywords” returned only 17 results. Whereas the majority of these papers described polymer-based parts, the list narrowed down to six results upon adding “metal” as an additional keyword, with the search results including the experimental contributions by Eisenbarth et al [ 12 ], Flank et al [ 14 ], Terranova et al [ 17 ], and Wei et al [ 10 ], the review paper on 3D printable inks based on coordination compounds by Maldonado and Amo-Ochoa [ 18 ], and the introduction to the “6th International Conference on Precision Machinery and Manufacturing Technology” [ 19 ]. It is worth noting that none of the identified papers dealt with ceramic-based AM.…”

How Can We Provide Additively Manufactured Parts with a Fingerprint? A Review of Tagging Strategies in Additive Manufacturing

“…16,17 Metal-organic frameworks (MOFs) are promising porous materials for several applications. [18][19][20][21][22][23][24] 3D printed MOF monoliths were reported using a variety of supports, 4,[25][26][27][28] including MOF-74, 29 the University of Texas at San Antonio-16 (UTSA-16), 30 Hong Kong University of Science and Technology (HKUST-1), 31 leaf-like zeolitic imidazolate frameworks (ZIF-L), 32 and ZIF-8. [33][34][35][36] This advanced the shaping and processing of MOF materials.…”

3D printing of cellulose/leaf-like zeolitic imidazolate frameworks (CelloZIF-L) for adsorption of carbon dioxide (CO₂) and heavy metal ions