Sustainability of leather lies in how the hide, a sustainable, naturally renewable, raw material, is processed. Tanning chemistry has been a limiting factor for leather sustainability. In this study, a host-guest synthesis strategy was selected to modify one of the most widely used tanning polymer, MIDA DD, and obtain a new hybrid tanning system containing fl-cyclodextrin, and leather drastically less impactful on the earth and people. Poly[2] pseudorotaxane Side-Chain Complexes (PSCCs) have been obtained by threading fl-cyclodextrin units onto the side-chains of the commercial MIDA DD. The formation of PSCCs in aqueous solution was investigated by using 1D NMR, ATR-FTIR and TGA experiments. The ability of PSCCs to stabilize the collagen matrix was tested at laboratory and industrial pilot scale by micro-DSC, ATR-FTIR and solid-state NMR techniques. The physical and mechanical performance of the obtained crust leather was determined by standard tests used in tanning industry. Side-chain poly[2]pseudorotaxanes showed better tanning performances than the fossil-based MIDA DD, the most effective supramolecular tannins being obtained by mixing fl-CD and MIDA DD in ratios close to 1/1 (w/w). The new tanning mixtures allow for significantly reducing both the amount of fossil-based MIDA-DD polymer in the current tanning processes (by 45%) and the free bisphenol content in leather crust (by more than 80%) due to the presence of bio-based fl-CD in the composition of the new supramolecular tanning agents. The findings disclosed here pave the way for the CDs' employment in improving the sustainability of tanning processes.

Side-chain Poly[2]pseudorotaxanes containing β-cyclodextrin for more sustainable tanning process

Quaratesi I.
Methodology
;
Neri P.
Writing – Review & Editing
;
Talotta C.
Formal Analysis
;
Gaeta C.
Supervision
2023-01-01

Abstract

Sustainability of leather lies in how the hide, a sustainable, naturally renewable, raw material, is processed. Tanning chemistry has been a limiting factor for leather sustainability. In this study, a host-guest synthesis strategy was selected to modify one of the most widely used tanning polymer, MIDA DD, and obtain a new hybrid tanning system containing fl-cyclodextrin, and leather drastically less impactful on the earth and people. Poly[2] pseudorotaxane Side-Chain Complexes (PSCCs) have been obtained by threading fl-cyclodextrin units onto the side-chains of the commercial MIDA DD. The formation of PSCCs in aqueous solution was investigated by using 1D NMR, ATR-FTIR and TGA experiments. The ability of PSCCs to stabilize the collagen matrix was tested at laboratory and industrial pilot scale by micro-DSC, ATR-FTIR and solid-state NMR techniques. The physical and mechanical performance of the obtained crust leather was determined by standard tests used in tanning industry. Side-chain poly[2]pseudorotaxanes showed better tanning performances than the fossil-based MIDA DD, the most effective supramolecular tannins being obtained by mixing fl-CD and MIDA DD in ratios close to 1/1 (w/w). The new tanning mixtures allow for significantly reducing both the amount of fossil-based MIDA-DD polymer in the current tanning processes (by 45%) and the free bisphenol content in leather crust (by more than 80%) due to the presence of bio-based fl-CD in the composition of the new supramolecular tanning agents. The findings disclosed here pave the way for the CDs' employment in improving the sustainability of tanning processes.
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Descrizione: Side-chain Poly[2]pseudorotaxanes containing β-cyclodextrin for more sustainable tanning process
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11386/4865072
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