Information om | Engelska ordet BIODEGRADABILITY

Exempel på hur man kan använda BIODEGRADABILITY i en mening

• Due to its biodegradability, PLA is applied in geotextiles, where the objective is that the material over time disappears.
• The goals of green computing include optimising energy efficiency during the product's lifecycle; leveraging greener energy sources to power the product and its network; improving the reusability, maintainability, and repairability of the product to extend its lifecycle; improving the recyclability or biodegradability of e-waste to support circular economy ambitions; and aligning the manufacture and use of IT systems with environmental and social goals.
• Among nanoparticulate carriers, HSA nanoparticles have long been the center of attention in the pharmaceutical industry due to their ability to bind to various drug molecules, great stability during storage and in vivo usage, no toxicity and antigenicity, biodegradability, reproducibility, scale up of the production process and a better control over release properties.
• For professional use only, it can be found in many wares-and-equipment sanitizers as well as cleaner/sanitizer combinations that are standard in the foodservice industry – it was once a major component of fabric softeners, but has been largely phased out because of its low biodegradability.
• These additives attract certain microorganisms found in nature and many tests have been completed on the mixing of synthetic and biobased materials which are inherently biodegradable for enhancing the biodegradability of synthetic polymers that are not as fast to biodegrade.
• When establishing a premium for precycling insurance several factors need to calculated: recyclability or biodegradability; provision of infrastructure, habitat or collaborations for the generation of the product from new resources; the ecosystem concentrations of product components above natural levels.
• The factors that control material selection include biocompatibility, biodegradability, controllability during nerve growth, implantation and sterilization.
• Organic PTAs including small molecule dyes and conjugated polymers (CPs) have good biocompatibility and biodegradability, but poor photostability.
• Polyurethanes were initially used for their biocompatibility, durability, resilience, but are more recently being investigated for their biodegradability.
• It has been demonstrated that ACP has better osteoconductivity and biodegradability than tricalcium phosphate and hydroxyapatite in vivo.
• In-vivo preclinical Studies evaluating the effects of collagen-OCP composites have shown that the composite by itself displays enhanced bone regeneration, osteoconductivity, and biodegradability compared to pure OCP or collagen control group as well as stimulated osteoblast and osteoclast activity during bone regrowth and remodeling indicating potential to be used for bone regrowth in clinical applications.
• Among the many functions that can be attained are power transmission, electrical/thermal conductivity, sensing and actuation, energy harvesting/storage, self-healing capability, electromagnetic interference (EMI) shielding and recyclability and biodegradability.
• The biodegradability of the organic admixtures (sulfur modifiers), or their resistance to microbial activity, and their possible biocidal properties (which may protect the sulfur concrete from microbial attack) are important aspects in assessing the durability of the material.
• A new generation of tissue adhesive has been developed by using natural adhesion phenomena and mechanisms, such as snail mucus gel, which exhibits excellent haemostatic activity, biocompatibility, and biodegradability.
• These hybrid scaffolds have been shown to have good in-vitro and in-vivo biocompatibilities and their biodegradability is controllable.
• The European Norm EN 13432, which was set by the European Committee for Standardization (CEN), lists the standards that plastics must meet, in terms of compostability and biodegradability, in order to officially be labeled as compostable.
• Aliphatic copolyesters are well known for their biodegradability by lipases and esterases as well as some strains of bacteria.
• This includes laboratory tests on aqueous hydrolysis, photolysis in water and air, biodegradability in soils and water-sediment systems under aerobic and anaerobic conditions and fate in soil lysimeters.
• Polyamino acids like polyaspartic acid and polyglutamic acid have better biodegradability but lower chelating performance than polyacrylates.
• The by-products of the reaction do not affect the complexing capacity or biodegradability of the tetrasodium iminodisuccinate.

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