Advanced Characterization Methodology to Unravel the Biodegradability of Metal–Organic Framework Nanoparticles in Extremely Diluted Conditions - Matériaux Hybrides et Procédés
Article Dans Une Revue ACS Applied Materials & Interfaces Année : 2024

Advanced Characterization Methodology to Unravel the Biodegradability of Metal–Organic Framework Nanoparticles in Extremely Diluted Conditions

Résumé

Porous iron(III) carboxylate metal-organic frameworks (MIL-100; MIL stands for Material of Institute Lavoisier) of submicronic size (nanoMOFs) have attracted a growing interest in the field of drug delivery due to their high drug payloads, excellent entrapment efficiencies, biodegradable character, and poor toxicity. However, only a few studies have dealt with the nanoMOF degradation mechanism, which is key to their biological applications. Complementary methods have been used here to investigate the degradation mechanism of Fe-based nanoMOFs under neutral or acidic conditions and in the presence of albumin. High-resolution STEM-HAADF coupled with energy-dispersive X-ray spectroscopy enabled the monitoring of the crystalline organization and elemental distribution during degradation. NanoMOFs were also deposited onto silicon substrates by dip-coating, forming stable thin films of high optical quality. The mean film thickness and structural changes were further monitored by IR ellipsometry, approaching the "sink conditions" occurring in vivo. This approach is essential for the successful design of biocompatible nano-vectors under extreme diluted conditions. It was revealed that while the presence of a protein coating layer did not impede the degradation process, the pH of the medium in contact with the nanoMOFs played a major role. The degradation of nanoMOFs occurred to a larger extent under neutral conditions, rapidly and homogeneously within the crystalline matrices, and was associated with the departure of their constitutive organic ligand. Remarkably, the nanoMOFs' particles maintained their global morphology during degradation.

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Dates et versions

hal-04792399 , version 1 (20-11-2024)

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Ioanna Christodoulou, Gilles Patriarche, Christian Serre, Cédric Boissiére, Ruxandra Gref, et al.. Advanced Characterization Methodology to Unravel the Biodegradability of Metal–Organic Framework Nanoparticles in Extremely Diluted Conditions. ACS Applied Materials & Interfaces, 2024, 16 (11), pp.14296 - 14307. ⟨10.1021/acsami.3c18958⟩. ⟨hal-04792399⟩
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