Department of Chemistry, JSS Academy of Technical Education, Dr.Vishnuvardhan Road, Bengaluru, 560 060, India.
Department of Chemistry, JSS Academy of Technical Education, Dr.Vishnuvardhan Road, Bengaluru, 560 060, India.
Carbohydr Polym. 2019 May 15;212:129-141. doi: 10.1016/j.carbpol.2019.02.042. Epub 2019 Feb 14.
In the current investigation, the results of viscometric measurements, thermal property, SEM, XRD and FTIR of the polymer blends containing synthetic plastic-based polypeptide (PLP) with hydroxypropylmethylcellulose (HPMC) on miscibility is discussed. Various interaction parameters; K, Δ[η]m, ΔB, μ, α, β and ΔK indicated the miscibility of polypeptide/HPMC up to 40% of the PLP in the blend at room temperature. The calorimetric results a single glass transition event for miscible systems. Further, the results were aligned with the scanning electron microscope and XRD analysis. Details concerning the nature of interactions in these systems and how they are influenced by the peptide proportion in the blends are discussed. The thermo gravimetric analysis manifested the improved thermal stability of the blends than their individual polymers. Additionally, the blend solutions were fabricated into non-woven fabrics with electrospinning technique, which may be a good candidate for pharmaceutical and biomedical applications.
在目前的研究中,讨论了含有合成塑料多肽(PLP)与羟丙基甲基纤维素(HPMC)的聚合物共混物的粘度测量、热性能、SEM、XRD 和 FTIR 对其混溶性的影响。各种相互作用参数;K、Δ[η]m、ΔB、μ、α、β和ΔK 表明,在室温下,混合物中 PLP 的含量高达 40%时,多肽/HPMC 是可混溶的。量热法结果表明,可混溶体系只有一个玻璃化转变事件。此外,结果与扫描电子显微镜和 XRD 分析一致。讨论了这些体系中相互作用的性质以及它们如何受到混合物中肽比例的影响。热重分析表明,与它们各自的聚合物相比,混合物的热稳定性得到了提高。此外,还通过静电纺丝技术将共混物溶液制成了非织造织物,这可能是药物和生物医学应用的一个很好的候选材料。
