An insight into viscosity and conductivity in the formulation of co-axial electrospun Carica papaya leaf extract.

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Siew Mei Tan, Reem Abou Assi, Roza Dianita, Vikneswaran Murugaiyah, Siok Yee Chan
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Abstract

Objective: This research aimed to investigate the application of the coaxial electrospun method for the production of natural extracts (papaya leaf extract) fibre films. This was achieved through utilising different polymers and with a focus on the conductivity and the viscosity of polymer solutions as critical parameters to generate successful fibres.Significance: Electrospinning is a promising trending manufacturing method for incorporating thermolabile herbal extracts using coaxial electrospun features. However, the complexity of the electrospinning process and the feasibility of the product required precise scrutiny.Methods: The electrospinning solution parameters (conductivity and viscosity) were evaluated by employing various ratios of Eudragit L100 (EL100) and Eudragit L100-55 (EL100-55) pre-spinning polymeric blend solutions. The electrospinning process and ambient parameters were optimised. Following that, the in-silico physicochemical properties of phytochemical marker, rutin, were illustrated using SwissADME web tool. Both freeze-dried Carica papaya leaf extract and its produced films were characterised using Scanning Electron Microscopy (SEM), Attenuated Total Reflectance Fourier Transform Infrared (ATR-FTIR), polarised light microscopy, and X-ray Powder Diffraction (XRPD).Results: The optimal values of conductivity (≈40-44 × 10-4 S/m) and viscosity (≈32-42 × 10-3 Pa·s) were determined for producing evenly distributed and small fibre diameters in SEM images. These parameters significance was highlighted in acquiring and maintaining adequate tangential stress for fibre elongation, which would consequently affect the morphology and diameter of the fibres formed.Conclusion: In conclusion, the solution, process, and ambient parameters are significant in developing natural extracts into films via electrospinning technology, and this includes the promising Carica papaya leaf extract films produced by coaxial electrospinning.

同轴电纺木瓜叶提取物配方中的粘度和传导性透视。
研究目的本研究旨在调查同轴电纺法在生产天然提取物(木瓜叶提取物)纤维膜中的应用。通过使用不同的聚合物,并重点关注聚合物溶液的电导率和粘度,将其作为成功生产纤维的关键参数。意义重大:电纺丝是一种很有前途的制造方法,可利用同轴电纺特征将热可吸收草药提取物结合在一起。然而,电纺丝工艺的复杂性和产品的可行性需要精确审查。方法通过使用不同比例的 Eudragit L100(EL100)和 Eudragit L100-55(EL100-55)预纺聚合物混合溶液,对电纺溶液参数(电导率和粘度)进行了评估。对电纺工艺和环境参数进行了优化。随后,使用 SwissADME 网络工具对植物化学标记物芦丁的分子内理化性质进行了说明。使用扫描电子显微镜(SEM)、衰减全反射傅立叶变换红外光谱(ATR-FTIR)、偏光显微镜和 X 射线粉末衍射(XRPD)对冻干木瓜叶提取物及其生产的薄膜进行了表征。研究结果确定了电导率(≈40-44 × 10-4 S/m)和粘度(≈32-42 × 10-3 Pa-s)的最佳值,以便在扫描电镜图像中生成分布均匀、直径较小的纤维。这些参数在获得和保持纤维伸长所需的足够切向应力方面具有重要意义,从而会影响所形成纤维的形态和直径。结论总之,在通过电纺丝技术将天然提取物制成薄膜的过程中,溶液、工艺和环境参数都非常重要,其中包括通过同轴电纺丝技术生产的前景广阔的木瓜叶提取物薄膜。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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