Claudia Florio scite author profile

The present study takes into account the consumer requirement of an even more massive use of touch screen devices, where the leather has to compete with the modern textile fibers in terms of technological performances, with particular reference to the newest technologies for the production of conductive gloves and other kinds of conductive goods, like shoes, garments, and others. Most of the known technologies able to provide materials with a unique ability to discharge static electricity and conductivity comparable with the human body concern the use of textile fibers. On the other hand, the goal of the present work is to delve into the application of technologies for leather matrix, with particular reference to the use of carbon-based nanomaterials, and attention to economical and/ or practical aspects.

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From leather wastes to leather: enhancement of low quality leather using collagen recovered from leather tanned wastes

Gargano

Florio²,

Sannia

et al. 2023

Clean Techn Environ Policy

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Leather industry produces huge amounts of solid wastes. In the last decade, several methods for the recovery and valorization of these wastes were developed, mainly focused on the extraction of collagen using chemical methods. The extracted collagen, due to its poor quality, is mostly used in agriculture as a nitrogen source ingredient of fertilizers. This study aims to apply collagen, extracted from leather tanned solid wastes using a recently reported new process based on enzymatic hydrolysis, as filling agent for low quality leather. Thanks to the enzymatic hydrolysis, collagen can be extracted without affecting its integrity and, therefore, its quality. In order to use the extracted collagen as filler for low quality leather, an enzymatic mediated cross-linking reaction between collagen and casein was developed. The enzymatic cross-linking reaction was added as an additional phase of the re-tanning process or as a replacement of one of the re-tanning steps. To evaluate the filling effect, thickness of the treated leather was measured and infrared and microscopy analyses were performed, comparing the new methods to the traditional standard one. The mechanical properties of the filled leather were tested and the sensorial features, such as fullness and touch feelings, were estimated through a panel test. Results suggest the high potential of extracted collagen to be employed back in leather processing both as additive and as substitutive filler. Graphical abstract

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From leather wastes to leather: enhancement of low quality leather using collagen recovered from leather tanned wastes

Gargano¹,

Florio

Sannia³

et al. 2023

Preprint

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Light-Dependent Properties of Finishing and Leather Defects

Florio¹,

Calvanese²

2021

AMPC

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Claudia Florio

Principles of minimal wrecking and maximum separation of solid waste to innovate tanning industries and reduce their environmental impact: The case of paperboard manufacture

Improving electrical conductivity of leather surface: a new technology versus industrial applications

From leather wastes to leather: enhancement of low quality leather using collagen recovered from leather tanned wastes

From leather wastes to leather: enhancement of low quality leather using collagen recovered from leather tanned wastes

Light-Dependent Properties of Finishing and Leather Defects

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