Bio-functionalized, elongated hexagonal bi-pyramidal, citrus limetta/ZnO nanostructures as potential photocatalytic and seed germinating agents

IF 3.1 Q2 MATERIALS SCIENCE, COMPOSITES Functional Composites and Structures Pub Date : 2023-08-21 DOI:10.1088/2631-6331/acf272

J. Gaur, Sanjeev Kumar, M. Pal, H. Kaur, Ramneet Kaur Rana, K. Bala, P. Singh, Changanamkandath Rajesh, Supreet .

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Abstract

In this research, the photocatalytic and seed germination potentials of bio-functionalized, as-synthesized zinc oxide (ZnO) nanoparticles (NPs) were investigated. ZnO NPs were created by reducing zinc acetate hexahydrate with a citrus limetta (C. limetta) peel extract. The hexagonal wurtzite crystal was observed in C. limetta/ZnO NPs, with crystallite diameters ranging from 50 to 60 nm and an energy-band gap of 3.08 eV. Fourier-transform infrared spectrum confirmed the presence of phytochemicals from C. limetta on the surface of the resultant ZnO. The unique, elongated hexagonal bi-pyramidal nanostructures were spread evenly across a vast region, as validated by High-resolution transmission electron microscopy and field emission scanning electron microscope. The highly porous microstructure of C. limetta/ZnO and its large specific surface area of 80.72 m2 g−1 were established by Brunauer–Emmett–Teller analysis. The catalytic performance of C. limetta/ZnO for the decomposition of the industrial reactive yellow 18 dye (RY18) was examined. Under UV light, RY18 dye could be broken down by more than 98% in 100 min. With a minimal energy consumption of 4.34 × 1022 J mol−1, the C. limetta/ZnO NPs demonstrated excellent performance (a quantum yield of 1.79 × 10−4Ϣ and a figure-of-merit of 2.92 × 10−10 mol l J−1g−1h−1). The seed germinating capability of C. limetta/ZnO was investigated first time for the Brassica juncea crop. The germination and development of Brassica juncea seed were greatly enhanced by priming with C limetta/ZnO. Hence, C. limetta/ZnO NPs are identified as photocatalytic and seed-germinating agents with remarkable efficiency.

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生物功能化、细长六方双锥体、柑橘酸石灰/氧化锌纳米结构作为潜在的光催化和种子萌发剂

在本研究中，研究了生物功能化的合成氧化锌（ZnO）纳米颗粒（NP）的光催化和种子发芽潜力。ZnO NP是通过用柑橘酸橙（C.limetta）果皮提取物还原六水合乙酸锌而产生的。在C.limetta/ZnO NPs中观察到六方纤锌矿晶体，其晶粒直径范围为50至60nm，能带隙为3.08eV。傅里叶变换红外光谱证实在所得ZnO的表面上存在C.limetta的植物化学物质。高分辨率透射电子显微镜和场发射扫描电子显微镜证实，独特的细长六边形双金字塔纳米结构均匀分布在广阔的区域。Brunauer–Emmett–Teller分析建立了C.limetta/ZnO的高度多孔微观结构及其80.72 m2 g−1的大比表面积。考察了石灰塔/氧化锌对工业活性黄18染料（RY18）的催化性能。在紫外光下，RY18染料可以在100分钟内分解98%以上。在4.34×1022 J mol−1的最小能耗下，C.limetta/ZnO纳米颗粒表现出优异的性能（量子产率为1.79×10−4Ϣ，优值为2.92×10−10 mol l J−1g−1h−1）。首次研究了酸橙花/ZnO对芥菜种子发芽能力的影响。柠檬酸锌对芥菜种子的发芽和发育有明显的促进作用。因此，C.limetta/ZnO纳米粒子被认为是具有显著效率的光催化和种子发芽剂。

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来源期刊

Functional Composites and Structures Materials Science-Materials Science (miscellaneous)

CiteScore

4.80

自引率

10.70%

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