Hossam E. Emam scite author profile

Protective textiles against harmful solar radiation are quite important materials for outdoor workers to secure their skin from several diseases. Current report focuses on production of anti-ultraviolet radiation (UVR) textiles by incorporation of nano-metal-organic frameworks (n-MOFs). Two different MIL-MOFs, namely, MIL-68(In)-NH and MIL-125(Ti)-NH, were immediately formed inside natural textiles (cotton and silk) matrix in nano size using quite simple and one-pot process. The formation of n-MIL-MOFs inside textiles were confirmed by using electron microscope and X-ray diffraction. Different size and morphology were seen depending on textile type reflecting the textiles' chemical composition role in the nature of prepared MIL-MOFs. For MIL-68(In)-NH, particles with size distribution of 70.6-44.5 nm in cotton and 81.3-52.2 nm in silk were detected, while crystalline disc of MIL-125(Ti)-NH was clearly seen inside textiles. The natural textiles exhibited full UVR blocking after modification, and the UV protection factor (UPF) was linearly proportional with MIL-MOFs and metal contents. Whatever metal type, direct incorporation of MIL-MOF contents greater than or equal to 10.4 g/kg was sufficient to attain excellent UV blocking property. Although 38.5-41.0% of MIL-MOFs was lost during five washings, the washed samples showed very good blocking rate (UPF = 26.7-36.2) supporting good laundering durability.

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Multi-functional textile design using in-situ Ag NPs incorporation into natural fabric matrix

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Figuration of Zr-based MOF@cotton fabric composite for potential kidney application

Abdelhameed

Rehan

Emam

2018

Carbohydrate Polymers

115

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Cotton fabrics with UV blocking properties through metal salts deposition

Emam

Bechtold

2015

Applied Surface Science

102

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Cu-BTC metal-organic framework natural fabric composites for fuel purification

Abdelhameed

Emam

Rocha

et al. 2017

Fuel Processing Technology

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In-growth metal organic framework/synthetic hybrids as antimicrobial fabrics and its toxicity

Emam

Darwesh

Abdelhameed

2018

Colloids and Surfaces B: Biointerfaces

118

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Hossam E. Emam

Carboxymethyl cellulose for green synthesis and stabilization of silver nanoparticles

Anti-UV Radiation Textiles Designed by Embracing with Nano-MIL (Ti, In)–Metal Organic Framework

Cu–BTC@cotton composite: design and removal of ethion insecticide from water

Multi-functional textile design using in-situ Ag NPs incorporation into natural fabric matrix

Figuration of Zr-based MOF@cotton fabric composite for potential kidney application

Cotton fabrics with UV blocking properties through metal salts deposition

Cu-BTC metal-organic framework natural fabric composites for fuel purification

In-growth metal organic framework/synthetic hybrids as antimicrobial fabrics and its toxicity

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