Spinach ferredoxin (Fdx) as an organic material to improve optical band gap of chitosan (Cs) biofilm

机译：菠菜Ferridoxin（FDX）作为改善壳聚糖（Cs）生物膜的光带隙的有机材料

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In this study, the effect of spinach-ferredoxin addition in chitosan matrix towards optical band gap was investigated. 5 distinct solutions were prepared by blending chitosan and spinachferredoxin (Cs-Fdx) with the volume to volume ratios of 100:0, 95:5, 90:10, 85:15 and 80:20 respectively. The solutions were cast into film via spin coating technique. The optical properties in terms of absorbance for these films were investigated using UV-Vis Spectrometer. UV-Vis result showed that the absorbance increased as the spinach-ferredoxin content increases. Finally, the optical band gaps of the films were determined by extrapolating a straight line of (αhν) 2 vs. hνcurves. Band gap value of 3.48 eV, 3.25 eV, 3.2 eV, 3.0 eV, and 2.8 eV were observed for (Cs-Fdx) films with 100:0, 95:5, 90:10, 85:15 and 80:20 respectively.

机译：在该研究中，研究了菠菜 - 福兰昔林加法在壳聚糖基质朝向光学带隙的影响。通过将壳聚糖和螺旋流毒素（CS-FDX）与体积分别为100：0,95：5,90:10,85:15和80:20，通过将壳聚糖和菠菜丁毒素（CS-FDX）混合来制备5种不同的溶液。通过旋涂技术将溶液铸造成薄膜。使用UV-Vis光谱仪研究这些薄膜的吸光度方面的光学性质。 UV-VIS结果表明，随着菠菜 - 铁氧嗪含量的增加，吸光度增加。最后，通过推断（αHν）2与HνCurves的直线来确定膜的光带间隙。 3.48eV，3.25eV，3.2eV，3.0eV和2.8eV的带隙值分别观察到（CS-FDX）薄膜，分别观察到（CS-FDX）薄膜分别观察到（CS-FDX）薄膜。

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《International Conference on Advanced Material Engineering and Technology》|2015年||共5页
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Devi Shantini Chandrasakaran; Irwana Nainggolan; Mohd Nazree Derman; Tulus Ikhsan Nasution;
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中图分类 TB3-53;
关键词
Chitosan; Spinach-ferredoxin; Optical band gap;

机译：壳聚糖;菠菜 - Ferredoxin;光带隙;

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1. Role of Metals Content in Spinach in Enhancing the Conductivity and Optical Band Gap of Chitosan Films [J] . IrwanaNainggolan, DeviShantini, Tulus IkhsanNasution, Advances in materials science and engineering . 2015,第6期

机译：菠菜中金属含量在提高壳聚糖膜电导率和带隙中的作用
2. Optical band gaps of organic semiconductor materials [J] . Costa Jose C. S., Taveira Ricardo J. S., Lima Carlos F. R. A. C., Optical Materials . 2016,第auga期

机译：有机半导体材料的光学带隙
3. Optical band gaps of organic semiconductor materials [J] . Costa Jose C. S., Taveira Ricardo J. S., Lima Carlos F. R. A. C., Optical Materials . 2016,第Auga期

机译：有机半导体材料的光学带隙
4. Spinach ferredoxin (Fdx) as an organic material to improve optical band gap of chitosan (Cs) biofilm [C] . Devi Shantini Chandrasakaran, Irwana Nainggolan, Mohd Nazree Derman, International Conference on Advanced Material Engineering and Technology . 2015

机译：菠菜Ferridoxin（FDX）作为改善壳聚糖（Cs）生物膜的光带隙的有机材料
5. Improving Device Efficiencies in Organic Photovoltaics through the Manipulation of Device Architectures and the Development of Low-Bandgap Materials. [D] . Rice, Andrew Hideo. 2013

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6. Band-Gap Tuning of Organic–Inorganic HybridPalladium Perovskite Materials for a Near-Infrared OptoelectronicsResponse [O] . Huawei Zhou, *, Xiaolei Cui, 2018

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8. Investigations of the Nonlinear Optical Response of Composite and Photonic Band Gap Materials [R] . Nelson, R. L. 1998

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Spinach ferredoxin (Fdx) as an organic material to improve optical band gap of chitosan (Cs) biofilm

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