摘要:以玛卡为碳源,采用水热法制备荧光碳点。
Abstract: Fluorescent carbon nanodots were prepared by utilizing Maca as a carbon source via hydrothermal method.
同时本文对已有报道的荧光碳纳米颗粒的荧光发光机理进行了初步解释。
The thesis also tries to explain the mechanism of fluorescence of the fluorescent carbon nanoparticles.
本文基于发光细菌发光抑制法系统检测了六种量子点的毒性,并初步探讨了新型荧光碳点的毒性。
In this paper, a novel method so-called bioluminescence inhibition assay with luminous bacteria (Photobacterium phosphoreum) was introduced to evaluate the toxicity of quantum dots.
本文尝试使用爆轰法纳米金刚石为原料,通过对其进行解团聚、有机物分子表面修饰以制备分散性良好的荧光碳纳米颗粒。
In this thesis, we try to use detonation diamonds to prepare fluorescent carbon nanoparticles by deagglomeration and surface modification.
一系列技术进步——从氢燃料电池到节电型荧光灯泡——预示着将来对低碳的需求并不会牺牲掉生活的高质量。
And a range of technological advances — from hydrogen fuel cells to compact fluorescent bulbs — suggests that a low-carbon future need not require surrendering a high quality of life.
本文应用HAG封闭小鼠mps吞噬功能,用碳廓清实验和组织免疫荧光染色筛选了增强单核-巨噬细胞系统吞噬功能的药物。
The drugs that can strengthen phagocyte function of MPS was selected by applying hag inhibiting phagocyte function of MPS, using the test of clearance of carbon and immunofluorescence staining.
研究了注碳外延硅经氢气退火及电化学腐蚀处理后的荧光特性。
Photoluminescence properties of epitaxial silicon implanted carbon after annealed in hydrogen and anodization are measured.
研究了注碳外延硅经氢气退火及电化学腐蚀处理后的荧光特性。
Photoluminescence properties of epitaxial silicon implanted carbon after annealed in hydrogen and anodization are measured.
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