The Role of Acid Concentration on Band Gap Shrinkage in Cellulose Nanocrystals Fabricated from Water Hyacinth

Journal of Material Sciences & Manufacturing Research Pub Date : 2022-03-31 DOI:10.47363/jmsmr/2022(3)123

J. A. Adem, John Agumba, G. Barasa, A. A. Ochung

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Abstract

In this study, the fingerprint of the acid concentration during the hydrolysis process on the optical band gap of cellulose nanocrystals (CNCs) has been systematically studied. The CNCs have been prepared using hydrochloric acid at a hydrolysis temperature of 50°C and at a constant hydrolysis time of 4 hours but with varying hydrochloric cid concentrations of 5%, 10% and 15%. The crystalline structure and phase identification of the CNCs have been studied using XRD technique. UV-Vis Spectroscopy has been done and the optical band gap energy calculated by performing the Tauc’s plot. From the study, the grain size has been found to decrease with acid concentration while the band gap energy has been found to increase with increasing acid concentration. Further, the optical band gaps of the CNCs have been found to decrease with the increase in crystallite size. This shrinkage of the band gap has been attributed to the increased impurity concentration leading to the narrowing of the band gap due to the emerging of the impurity band formed by the overlapped impurity states

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酸浓度对水葫芦制纤维素纳米晶带隙收缩的影响

本研究系统地研究了水解过程中酸浓度对纤维素纳米晶体光学带隙的指纹图谱。用盐酸在50℃的水解温度和4小时的恒定水解时间下，以5%、10%和15%的盐酸浓度制备了cnc。利用x射线衍射(XRD)技术对纳米碳化硅的晶体结构和物相进行了研究。进行了紫外可见光谱分析，并通过Tauc图计算了带隙能量。研究发现，随着酸浓度的增加，晶粒尺寸减小，而带隙能随着酸浓度的增加而增加。此外，cnc的光学带隙随着晶体尺寸的增大而减小。这种带隙的缩小是由于杂质浓度的增加导致了带隙的缩小，这是由于由重叠的杂质态形成的杂质带的出现

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Journal of Material Sciences & Manufacturing Research

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