推荐产品
形狀
nanospheres
powder
儲存溫度
2-8°C
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一般說明
Gold nanospheres (AuNS) (100nm, FITC and biotin functionalized, powder) are gold nanoparticles with unique properties which include biocompatibility, easy surface modification, and excellent photothermal conversion. They can be synthesized by a variety of methods such as galvanic replacement of gold nanoparticles, templated galvanic replacement of silver for gold, and electrochemical methods.
應用
Owing to size and shape dependent quantum effects, the gold nanoparticles exhibit unique surface plasmon resonance absorption, scattering, fluorescence, and photothermal properties which render them suitable for applications in catalysis, chemical sensing, biosensing , cellular and bioimaging, drug and gene delivery, and photothermal therapy. The fluorescent labeling of gold nanoparticles have been shown to cause emission enhancement in fluorophores. This makes the fluorescence tagged gold nanoparticles a dual mode nanoprobe for drug delivery and bioimaging applications.
法律資訊
Product of Nanopartz Inc.
訊號詞
Warning
危險聲明
危險分類
Skin Sens. 1
儲存類別代碼
13 - Non Combustible Solids
水污染物質分類(WGK)
WGK 3
閃點(°F)
Not applicable
閃點(°C)
Not applicable
Fluorescently Labeled Gold Nanoparticles with Minimal Fluorescence Quenching.
The Journal of Physical Chemistry C, 114, 17446-17446 (2010)
Preparation, modification, and application of hollow gold nanospheres
Journal of Nanomaterials, 2015 (2015)
Fluorescently Labeled Gold Nanoparticles with Minimal Fluorescence Quenching.
The Journal of Physical Chemistry C, 114, 17446-17446 (2010)
ACS nano, 8(6), 6232-6241 (2014-05-20)
Significant quantities of synthetic nanoparticles circulating in the body are cleared and retained for long periods of time in the resident macrophages of the mononuclear phagocytic system (MPS), increasing the likelihood of nanoparticle-mediated chronic toxicity. To date, there has been
Journal of the American Chemical Society, 128(6), 2115-2120 (2006-02-09)
Due to strong electric fields at the surface, the absorption and scattering of electromagnetic radiation by noble metal nanoparticles are strongly enhanced. These unique properties provide the potential of designing novel optically active reagents for simultaneous molecular imaging and photothermal
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