![]() The filters presented in this study demonstrate high efficiency, durability, and reusability, making them promising candidates for practical applications in the modern water treatment industry. This study highlights the potential of multifunctional, biobased materials processed by additive manufacturing technology as a cost-effective alternative to traditional water treatment methods. An eye-catching desktop toy for the office and a perfect gift for puzzle lovers/collectors. The filters were able to maintain their structural integrity and filtration performance even after multiple cycles of use and regeneration. The Angel Cryptex 3D printed puzzle box is a large, beautiful and unique creation Printed in elegant Dark Silk Gold and Silk Bronze PLA Filaments, each puzzle takes 38 hours to print and assemble. The GrabCAD Library offers millions of free CAD designs, CAD files, and 3D models. In addition to their potential for removal of contaminants from water, the filters also exhibit excellent mechanical properties with a Young’s modulus value off about 1200 MPa, demonstrating their potential for use in practical water treatment applications. The obtained 3D printed and functionalized and (aka filters exhibit high efficiency in removing heavy metal ions from mine effluent and methylene blue from contaminated water, as demonstrated through batch adsorption experiments. Stable deposition of SU-101 distributed homogenously over the filter surface was achieved and confirmed by FT-IR, XPS and SEM measurements. ( post-processing and demo) Key combination can be adjusted by jumbling the character array (using OpenSCAD Customizer or Thingiverse Customizer ). The two tested anchoring methods were hydrolysis via either concentrated hydrochloric acid treatment or via a photooxidation reaction using UV – ozone treatment. Simple print-in-place Cryptex using multiple rows of key teeth to allow wide-format treasure boxes. This work summarizes a scalable and sustainable method of anchoring a green metal-organic framework (MOF) SU-101 onto the surface of 3D printed, biobased matrices built of polylactic acid (PLA) – based composites reinforced with TEMPO − oxidized cellulose nanofibers (TCNF). Multifunctional, biobased materials processed by the means of additive manufacturing technology can be highly applicable within the water treatment industry.
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