Biocomposite materials manufactured from natural fibres and polymer matrix represent a
group of engineered composite products with diverse applications. These materials continue …

Intelligent, highly conductive, robust, and flexible electronic textile-embedded smart devices
hold surging interest in the wearable personalized heating system or thermotherapy …

The influence of waste cellulose acetate (CA) fibres in the physico-mechanical (ie density,
surface hardness-Shore C, flexural and compressive strength) and thermal properties (ie …

Abstract A biocomposite (PN–Fe 3 O 4-PEI) was synthesized via the chemical modification
of peanut husk (a low-cost adsorbent) with Fe 3 O 4 particles and polyethyleneimine under …

This paper presents three types of gypsum reinforced with different waste materials, such as
paper, polystyrene, and polyester. Several investigations were performed through a set of …

The presence of higher concentrations of heavy metals in water affects its quality with a
concomitant adverse effect on its users thus their removal is paramount. A novel adsorbent …

In this study, an efficient and highly recyclable magnetic biocomposite based on peanut
husk (labeled as MPN-Cit) was synthesized for the adsorption of Methylene Blue (MB) and …

Accessibility to quality and clean water has in recent times been compromised due to the
presence of pollutants, thus posing as a threat to the survival of living organisms. The …

Antibacterial hemostatic medical dressings have become feasible solutions in response to
the challenging wound-healing process. In this study, a novel fiber-type medical dressing …

Abstract PN-Fe 3 O 4-IDA-Fe formed by the chemical modification of peanut husk with Fe 3
O 4 and iminodiacetic acid (IDA) and subsequently loaded with Fe 3+ ions was applied for …