One-step low-temperature fabrication of CdS quantum dots by watermelon rind: a green approach

机译：西瓜皮一步一步低温制备CdS量子点的绿色方法

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摘要

We investigated the one-step synthesis of CdS nanoparticles via green synthesis that used aqueous extract of watermelon rind as a capping and stabilizing agent. Preliminary phytochemical analysis depicted the presence of carbohydrates which can act as capping and stabilizing agents. Synthesized CdS nanoparticles were characterized using UV-visible, Fourier transform infrared spectroscopy, X-ray diffraction, EDX, dynamic light scattering, transmission electron microscopy, and atomic force microscopy techniques. The CdS nanoparticles were found to be size- and shape-controlled and were stable even after 3 months of synthesis. The results suggest that watermelon rind, an agro-waste, can be used for synthesis of CdS nanoparticles without any addition of stabilizing and capping agents.

机译：我们研究了通过绿色合成法一步一步合成CdS纳米粒子，该合成法使用西瓜皮的水提物作为封端和稳定剂。初步的植物化学分析描述了碳水化合物的存在，它们可以作为加帽剂和稳定剂。使用紫外可见光，傅立叶变换红外光谱，X射线衍射，EDX，动态光散射，透射电子显微镜和原子力显微镜技术对合成的CdS纳米颗粒进行了表征。发现CdS纳米粒子具有尺寸和形状受控，甚至在合成3个月后仍稳定。结果表明，西瓜皮是一种农业废物，可用于合成CdS纳米粒子，而无需添加任何稳定剂和封端剂。

著录项

期刊名称 International Journal of Nanomedicine
作者
Rajasekhar Lakshmipathy; Nallani Chakravarthula Sarada; K Chidambaram; Sk Khadeer Pasha;
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作者单位

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年(卷),期 2015(10),Suppl 1
年度 2015
页码 183–188
总页数 6
原文格式 PDF
正文语种
中图分类生化遗传学;生化药理学;
关键词
green synthesis nanoparticles biomimetic atomic force microscopy;

机译：绿色合成;纳米粒子;仿生;原子力显微镜;

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专利

1. One-step, low-temperature fabrication of CdS quantum dots by watermelon rind: a green approach [J] . Rajasekhar Lakshmipathy, Nallani Chakravarthula Sarada, K Chidambaram, International Journal of Nanomedicine . 2015,第Supplementa1期

机译：用西瓜rind的CDS量子点的一步，低温制造：绿色方法
2. Facile one-step fabrication of CdS0.12Se0.88 quantum dots with a ZnSe/ZnS-passivation layer for highly efficient quantum dot sensitized solar cells [J] . Hou Juan, Zhao Haifeng, Huang Fei, Journal of Materials Chemistry, A. Materials for energy and sustainability . 2018,第21期

机译：CDS0.12Se0.88的容易一步制造具有ZnSe / ZnS钝化层的量子点，用于高效量子点敏化太阳能电池
3. High-yield green fabrication of colloidal silicon quantum dots by low-temperature thermal cracking of porous silicon [J] . Toshihiro Nakamura, Nobuyoshi Koshida, Ze Yuan, APL Materials . 2020,第8期

机译：胶体硅量子点的高屈服绿色制造通过多孔硅的低温热裂纹
4. Bluish Green Ba_2Si_3O8:Eu~(2+) Phosphor and Orange ZnCdSe/ZnSe Quantum Dot for White Light-Emitting Diode Fabrication [C] . Woo-Seuk Song, Hee-Jeong Kim, Ji-Hye Kwon, International meeting on information display;International display manufacturing conference and Asia display;IMID/IDMC/Asia Display 2010 . 2010

机译：蓝绿色Ba_2Si_3O8：Eu〜（2+）荧光粉和橙色ZnCdSe / ZnSe量子点，用于制造白色发光二极管
5. Nanocompósitos Obtenidos de la síntesis In-Situ de Quantum Dots de CdSe en Películas Compuestas de Quitosano y Polímeros Conductores =Nanocomposites Obtained from the In-Situ Synthesis of Quantum Dots of CdSe in Composite Films of Chitosan and Conductive [D] . Moreno Serna, Viviana. 2020

机译：由由壳聚糖和导电聚合物组成的薄膜中的薄膜的质量点的原位合成中获得的纳米分解=从壳聚糖和导电的复合薄膜中出于原位合成CDRSE的原位合成中获得的纳米复合材料
6. One-step fabrication of biocompatible chitosan-coated ZnS and ZnS:Mn2+ quantum dots via a γ-radiation route [O] . Shu-quan Chang, Bin Kang, Yao-dong Dai, 2011

机译：通过γ辐射途径一步制备生物相容性壳聚糖包被的ZnS和ZnS：Mn2 +量子点
7. A novel method to synthesize ZnSe/CdSe core/shell quantum dot nanoparticles: A green approach [O] . Jejiron Maheswari Baruah, J. Narayan 2016

机译：一种合成ZnSe / Cdse核心/壳量子点纳米粒子的新方法：绿色方法

One-step low-temperature fabrication of CdS quantum dots by watermelon rind: a green approach

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