Facile preparation of lac terpene acid based heat setting adhesive with improved performances.

As a by-product of shellac resin, the high-value utilization of lac terpene acid (LTA) is a major challenge. In this study, a novel adhesive material, designated as A-LTA, was developed through a facile synthesis reaction between LTA and melamine, demonstrating significantly enhanced performance characteristics. The A-LTA adhesive, owing to its diverse functional groups, demonstrates exceptional cross-linking and polymerization capabilities under elevated temperatures, resulting in the formation of multiple chemical bonds and a highly dense network structure.

An insect lac blanket-mimetic and degradable shellac hydrogel/chitosan packaging film with controllable gas permeation for fresh-cut vegetables preservation.

Fresh-cut products are extremely perishable due to the processing operations, and the atmosphere environment, especially CO, O and HO, could profoundly affect their shelf life. Herein, an insect "lac blanket"-mimetic and facile strategy was proposed for fresh-cut vegetables preservation, employing porous shellac hydrogel microparticles as gas "switches" in chitosan film to regulate CO, O and HO vapor permeability. Thus, the shellac hydrogel/chitosan hybrid film presented the controllable and wide range of gas permeability, compared with the chitosan film.

Preparation of multi-functional active packaging film of Galla chinensis waste CDs/pullulan.

In this study, multifunctional green carbon dots (CDs) have been synthesized using Galla chinensis waste (GCW) via hydrothermal method for the first time. An active packaging film has been developed in this work by combining CDs and pullulan (PL), using the solution-casting method. The microscopic morphology revealed that the CDs that were prepared using GCW exhibited good compatibility with PL.

Highly efficient removal of tannic acid from wastewater using biomimetic porous materials.

To effectively remove tannic acid (TA) from wastewater, using green and natural materials has attracted increasing attention. Inspired by Galla Chinensis (GC) with high content of TA, this study synthesized a biomimetic porous adsorbent to mimic the GC structure using dialdehyde tapioca starch (DTS) and gelatin (GL). The TA adsorption performance and mechanism of synthetic porous material were investigated.

A New Strategy for Consumption of Functional Lipids from (Chavannes): Study on Microcapsules and Effervescent Tablets Containing Insect Wax-Derived Policosanol.

In this study, we addressed various challenges associated with the consumption of functional lipids from the (Chavannes), including unfavorable taste, insolubility in water, difficulty in oral intake, low bioavailability, and low psychological acceptance. Our study focused on the microencapsulation of policosanol, the key active component of insect wax, which is a mixture of functional lipids secreted by the (Chavannes). We developed two innovative policosanol products, microcapsules, and effervescent tablets, and optimized their preparation conditions.

Bioinspired Natural Shellac Dressing for Rapid Wound Sealing and Healing.

Developing safe and effective wound dressings that address the complexities of wound healing is an ongoing goal in biomaterials research. Inspired by the shield used to protect lac insects, we have designed and developed a type of bioactive shellac-based wound dressing in this paper. The dressing exhibited a high adhesion energy of 146.