biostudies-literatureEchenique-Errandonea EUniversity of the Basque CountryMinistry of Science, Innovation and UniversitiesCICECO-Aveiro Institute of MaterialsJunta de AndalucíaGobierno Vasco4380https://www.ebi.ac.uk/biostudies/studies/S-EPMC9784928biostudies-literatureUnknown12(24)The development of convenient, non-complicated, and cost-efficient processing techniques for packing low-density MOF powders for industry implementation is essential nowadays. To increase MOFs' availability in industrial settings, we propose the synthesis of a novel 3D Tb-MOF (<b>1</b>) and a simple and non-expensive method for its immobilization in the form of pellets and membranes in polymethacrylate (PMMA) and polysulphone (PSF). The photoluminescent properties of the processed materials were investigated. To simulate industrial conditions, stability towards temperature and humidity have been explored in the pelletized material. Water-adsorption studies have been carried out in bulk and processed materials, and because of the considerable capacity to adsorb water, proton-conduction studies have been investigated for <b>1</b>.Nanomaterials (Basel, Switzerland)Easy Handling and Cost-Efficient Processing of a Tb³⁺-MOF: The Emissive Capacity of the Membrane-Immobilized Material, Water Vapour Adsorption and Proton Conductivity.PMC9784928UIDB/50011/2020, UIDP/50011/2020 &amp; LA/P/0006/2020,IT1755-22, IT1310-19 and IT1291-19GIU 20/028B-FQM-734-UGR20, ProyExcel_00386 and FQM-394PGC2018-102052-A-C22, PGC2018-102052-B-C21 and PID2019-108028GB-C21Seco JMFigueira FAlmeida Paz FAFigueiredo FRodriguez-Dieguez ABarbosa PMendes RFChoquesillo-Lazarte DAnanias DRojas SEchenique-Errandonea ECepeda JfalseEasy Handling and Cost-Efficient Processing of a Tb³⁺-MOF: The Emissive Capacity of the Membrane-Immobilized Material, Water Vapour Adsorption and Proton Conductivity.The development of convenient, non-complicated, and cost-efficient processing techniques for packing low-density MOF powders for industry implementation is essential nowadays. To increase MOFs' availability in industrial settings, we propose the synthesis of a novel 3D Tb-MOF (<b>1</b>) and a simple and non-expensive method for its immobilization in the form of pellets and membranes in polymethacrylate (PMMA) and polysulphone (PSF). The photoluminescent properties of the processed materials were investigated. To simulate industrial conditions, stability towards temperature and humidity have been explored in the pelletized material. Water-adsorption studies have been carried out in bulk and processed materials, and because of the considerable capacity to adsorb water, proton-conduction studies have been investigated for <b>1</b>.2022-01-01T00:00:00Z2022 Dec2024-11-08T13:28:50.496Z2024-11-08T13:28:50.496ZS-EPMC97849283655823310.3390/nano12244380