羧化红色荧光纳米金刚石,Carboxylated 10 nm Red Fluorescent Nanodiamond in DI water, < 1ppm NV;less than 5% fraction of ND contains NV centers, see Technical info

< 1 ppm NV (氮空位);10-15纳米羧基化红色荧光纳米金刚石颗粒 (去离子水中);NV单光子发射器-NV Single Photon Emitters
制造商品牌: 埃达玛斯 Adámas Nano
货号(SKU): NDNV10nmMd10ml
签订合同 √ 正规发票 √ 技术支持 √ 质量保障 √ 全程可追溯 √
¥11,304.00

羧化红色荧光纳米金刚石:Carboxylated Red Fluorescent Nanodiamond

Biofunctionalized fluorescent nanodiamonds are infinitely photostable labels for fluorescent and multiphoton microscopy applicable to cellular tracking and long-term observation of biological processes in the same fields of view in live cell-imaging and fixed cells. Protein, antibody, biologically active organic molecules, and custom functionalizations are possible. We provide nanodiamonds with nitrogen-vacancy (NV) centers with red-to-near-infrared fluorescence, NVN centers with green fluorescence, and novel particles available only at Adamas with a combination of NV and NVN centers within a single particle with visual yellow fluorescence. Fluorescence from NV centers can be magnetically modulated providing a means to eliminate the fluorescent background by image subtraction and to significantly enhance the signal-to-noise ratio. This property can be very useful in future biosensing applications, for example in clinical diagnostics such as lateral flow assays (LFA). Relevant applications also include super-resolution microscopy, multiphoton microscopy, time-gated microscopy and correlative microscopy.

 

Fluorescent nanodiamonds are a chemically robust, infinitely photostable, and biocompatible fluorophore with a range of functional surface chemistries. Relevant applications include fiducial marking, super-resolution microscopy, multiphoton microscopy, time-gated microscopy, and correlative microscopy.


Below is our selection of nitrogen-vacancy (NV) nanodiamonds centers with red-to-near-infrared fluorescence with a variety of surface functionalities. Negatively charged nitrogen-vacancy (NV-) centers possess an electron spin with unique magneto-optical properties: the spin state can be detected optically via optically detected magnetic resonance (ODMR). In turn, the spin state is highly sensitive to the surrounding environment so that changes in the environment can be detected via changes in nitrogen-vacancy (NV) fluorescence. Based on these properties, our customers develop nanodiamond-based quantum sensors of magnetic fields, electric currents, temperature, free radicals, and other phenomena.

Design your own downstream reaction schemes, or contact us for specific custom functionalities.

 

生物功能化荧光纳米金刚石是用于荧光和多光子显微镜的无限光稳定性标签,适用于活细胞成像和固定细胞中相同视野内的细胞跟踪和生物过程的长期观察。蛋白质、抗体、生物活性有机分子和定制功能化是可能的。我们提供具有红色至近红外荧光的氮空位 (NV) 中心的纳米金刚石、具有绿色荧光的NVN中心以及仅在Adamas [北实纵横科学公司] 提供的新型颗粒,其在单个颗粒中结合了NV和NVN中心,具有可见的黄色荧光。来自NV中心的荧光可以进行磁调制,从而提供一种通过图像减法消除荧光背景并显著提高信噪比的方法。该特性在未来的生物传感应用中非常有用,例如在临床诊断中,例如侧向流动测定 (LFA)。相关应用还包括超分辨率显微镜、多光子显微镜、时间门控显微镜和其他相关显微镜等。

荧光纳米金刚石是一种化学稳健、无限光稳定性和生物相容性荧光团,具有一系列功能性表面化学物质。相关应用包括基准标记、超分辨率显微镜、多光子显微镜、时间门控显微镜和相关显微镜。


如图是我们选择的具有红色至近红外荧光且具有多种表面功能的氮空位 (NV) 纳米金刚石中心。带负电的氮空位 (NV-) 中心具有具有独特磁光特性的电子自旋:可以通过光学检测磁共振 (ODMR) 光学检测自旋状态。反过来,自旋态对周围环境高度敏感,因此可以通过氮空位 (NV) 荧光的变化来检测环境的变化。基于这些特性,我们的客户开发了基于纳米金刚石的磁场、电流、温度、自由基和其他现象的量子传感器。

设计您自己的下游反应方案,或联系我们 [北实纵横科学公司] 获取特定的定制功能。

商品规格
属性名称 属性值
储存温度 Storage temp. 常温阴凉避光
全球实时库存 Availability √ 美国St. Louis ≥ 50 | 欧洲Eur. ≥ 12 | 東京Tokyo ≥ 20 | 香港与北京 ≥ 50
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