Portelite荧光法锂离子定量…

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Portelite荧光法锂离子定量试剂盒货号21353
产品简介
详细介绍
  • 参考报价:电议 产地:陕西 品牌:AAT Bioquest 型号:21353 更新时间:2024/4/28
Portelite 荧光法锂离子定量试剂盒 货号21353参数
Ex (nm)491Em (nm)513
分子量N/A溶剂-
存储条件-

Portelite 荧光法锂离子定量试剂盒 货号21353概述

Portelite 荧光法锂离子定量试剂盒 货号21353基本信息

产品名称:Portelite 荧光法锂离子定量试剂盒

储存条件:根据试剂盒提供的温度进行保存

保质期:12个月

 

Portelite 荧光法锂离子定量试剂盒 货号21353物理化学光谱特性

外观:暂无数据

溶剂:N/A

激发波长(nm):491

发射波长(nm):513

 

Portelite 荧光法锂离子定量试剂盒 货号21353介绍

Portelite 荧光法锂离子定量试剂盒,使用我们强大的锂离子指示剂染料 Lithiumighty? 520,它在与锂离子结合后表现出ji大的荧光强度增强。 Lithiumighty? 520 是zui稳定的锂离子指示剂,具有高选择性。与其他商业锂离子检测相比,该试剂盒可用于快速测定各种样品中的锂浓度。这种基于纳米滴的检测试剂盒需要少量样品,特别适合野外或现场锂离子浓度的测定。锂离子的定量在生物化学、医学、环境分析和食品科学等各个科学领域和行业中都具有重要意义。锂离子的快速准确测定在电池行业中尤为重要。常用的定量锂离子的方法有多种,包括火焰光度法、离子选择电极 (ISE)、原子吸收光谱法和荧光分光光度法。火焰光度测定和原子吸收光谱分析需要对样品进行燃烧。它们使用起来很繁琐,并且需要昂贵且复杂的仪器。离子选择性电极需要大量样品并且通常选择性较低。在所有方法中,荧光分光光度法是定量锂离子zui方便的方法。荧光分光光度法涉及将锂离子与特定试剂络合并测量由此产生的荧光变化。然而,由于缺乏稳健的荧光锂离子指示剂,商业市场上仍然缺乏基于荧光的锂离子检测试剂盒。 Lithiumighty? 520 shou次填补了这一空白。它是与荧光 Nanodrop 分光光度计或荧光酶标仪等荧光设备结合快速测定锂离子浓度的zui佳荧光锂离子指示剂。百萤生物是AAT Bioquest的zhong国代理商,为您提供优质的Portelite 荧光法锂离子定量试剂盒。 

 

参考文献

Advances in Therapeutic Monitoring of Lithium in the Management of Bipolar Disorder.
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Journal: Sensors (Basel, Switzerland) (2022)
 
Biological properties of benzopyran-based platinum (II) complexes.
Authors: Malinowska, Katarzyna and Modranka, Roman and Majsterek, Ireneusz and Misiak, Piotr
Journal: Polski przeglad chirurgiczny (2014): 172-6
 
Evaluation of lithium determination in three analyzers: flame emission, flame atomic absorption spectroscopy and ion selective electrode.
Authors: Aliasgharpour, Mehri and Hagani, Hamid
Journal: North American journal of medical sciences (2009): 244-6
 
Superiority of nitric acid for deproteinization in the determination of trace lithium in serum by graphite furnace atomic absorption spectrometry.
Authors: Zhao, Jianxing and Gao, Pingjin and Wu, Shengnan and Zhu, Dingliang
Journal: Journal of pharmaceutical and biomedical analysis (2009): 1075-9
 
Mineral salts removal and lithium traces determination in highly concentrated solutions and natural brines.
Authors: Hamzaoui, Hichem and M'nif, Adel and Rokbani, Ridha
Journal: Talanta (2006): 847-51
 
Evaluation of zirconium as a permanent chemical modifier using synchrotron radiation and imaging techniques for lithium determination in sediment slurry samples by ET AAS.
Authors: Flores, Araceli V and Pérez, Carlos A and Arruda, Marco A Z
Journal: Talanta (2004): 619-26
 
Lithium dose prediction based on 24 hours single dose levels: a prospective evaluation.
Authors: Gervasoni, N and Zona-Favre, M-P and Osiek, Ch and Roth, L and Bondolfi, G and Bertschy, G
Journal: Pharmacological research (2003): 649-53
 
Seventeen new 14- and 15-crown-formazans: their synthesis and evaluation in spectrophotometric determination of lithium.
Authors: Ibrahim, Y A and Elwaby, A H and Barsoum, B N and Abbas, A A and Khella, S K
Journal: Talanta (1998): 1199-213
 
Neither raw nor retrograded resistant starch lowers fasting serum cholesterol concentrations in healthy normolipidemic subjects.
Authors: Heijnen, M L and van Amelsvoort, J M and Deurenberg, P and Beynen, A C
Journal: The American journal of clinical nutrition (1996): 312-8
 
[Erythrocyte/plasma ratio of lithium. Determination method and individual stability].
Authors: Barthelmebs, M and Ehrhardt, J D and Schweitzer-Ehret, A and Danion, J M and Imbs, J L
Journal: L'Encephale (1993): 321-7


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