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5-羧基罗丹明6G马来酰亚胺
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货号 | 353 | 存储条件 | 在零下15度以下保存, 避免光照 |
| 规格 | 1 mg | 价格 | 2412 | |
| Ex (nm) | 525 | Em (nm) | 548 | |
| 分子量 | 765.74 | 溶剂 | DMSO | |
| 产品详细介绍 | ||||
简要概述
产品基本信息
货号:353
产品名称:5-羧基罗丹明6G马来酰亚胺
规格:1mg
储存条件:-15℃避光防潮
保质期:24个月
产品物理化学光谱特性
分子量:765.74
溶剂:DMSO
吸收波长(nm):530
激发波长(nm):535
发射波长(nm):548
产品介绍
5-CR6G马来酰亚胺是罗丹明6G的硫醇反应性衍生物。对于某些复杂的生物学应用(与重现性相比,材料成本而言更为关键),它是首选的选择(比混合异构体更好),因为5-CR6G和6-CR6G之间的微小位置差异可能会明显影响基础缀合物的某些生物学特性。罗丹明6G是最亮的罗丹明染料之一,但是大多数罗丹明6G染料的溶解度比其他罗丹明染料低得多。对于相似或相当的光谱特性,iFluor染料具有更好的水溶性。
点击查看光谱
参考文献
A Fluorescent and Colorimetric Chemosensor for Hg2+ Based on Rhodamine 6G With a Two-Step Reaction Mechanism.
Authors: Bai, Cui-Bing and Wang, Wei-Gang and Zhang, Jie and Wang, Chang and Qiao, Rui and Wei, Biao and Zhang, Lin and Chen, Shui-Sheng and Yang, Song
Journal: Frontiers in chemistry (2020): 14
Adsorption of Rhodamine 6G Dye on Binary System of Nanoarchitectonics Composite Magnetic Graphene Oxide Material.
Authors: Gautam, Drashya and Lal, Shyam and Hooda, Sunita
Journal: Journal of nanoscience and nanotechnology (2020): 2939-2945
Application of Doehlert Matrix for an Optimized Preparation of a Surface-Enhanced Raman Spectroscopy (SERS) Substrate Based on Silicon Nanowires for Ultrasensitive Detection of Rhodamine 6G.
Authors: Ouhibi, Awatef and Saadaoui, Maroua and Lorrain, Nathalie and Guendouz, Mohammed and Raouafi, Noureddine and Moadhen, Adel
Journal: Applied spectroscopy (2020): 168-177
Consecutive Photoinduced Electron Transfer (conPET): The Mechanism of the Photocatalyst Rhodamine 6G.
Authors: Brandl, Fabian and Bergwinkl, Sebastian and Allacher, Carina and Dick, Bernhard
Journal: Chemistry (Weinheim an der Bergstrasse, Germany) (2020): 7946-7954
Development of Rhodamine 6G-Based Fluorescent Chemosensors for Al3+-Ion Detection: Effect of Ring Strain and Substituent in Enhancing Its Sensing Performance.
Authors: Mandal, Jayanta and Ghorai, Pravat and Pal, Kunal and Bhaumik, Tanurima and Karmakar, Parimal and Saha, Amrita
Journal: ACS omega (2020): 145-157
Flow-injection determination of manganese (II) using surfactant enhanced diperiodatonickelate (IV)-rhodamine 6G chemiluminescence.
Authors: Asghar, Muhammad and Yaqoob, Mohammad and Siddiqui, Masood Ahmed and Munawar, Nusrat and Waseem, Amir and Nabi, Abdul
Journal: Luminescence : the journal of biological and chemical luminescence (2020): 79-89
Graphene-like BN@SiO2 nanocomposites as efficient sorbents for solid-phase extraction of Rhodamine B and Rhodamine 6G from food samples.
Authors: Chao, Yanhong and Pang, Jingyu and Bai, Yan and Wu, Peiwen and Luo, Jing and He, Jing and Jin, Yan and Li, Xiaowei and Xiong, Jun and Li, Huaming and Zhu, Wenshuai
Journal: Food chemistry (2020): 126666
Growth and elongation of axons through mechanical tension mediated by fluorescent-magnetic bifunctional Fe3O4·Rhodamine 6G@PDA superparticles.
Authors: Wang, Yang and Li, Binxi and Xu, Hao and Du, Shulin and Liu, Ting and Ren, Jingyan and Zhang, Jiayi and Zhang, Hao and Liu, Yi and Lu, Laijin
Journal: Journal of nanobiotechnology (2020): 64
PANI/PbS QD nanocomposite structure for visible light driven photocatalytic degradation of rhodamine 6G.
Authors: Chhabra, Varun A and Kaur, Rajnish and Walia, Manrajvir S and Kim, Ki-Hyun and Deep, Akash
Journal: Environmental research (2020): 109615
Photocatalytic Degradation of Aqueous Rhodamine 6G Using Supported TiO2 Catalysts. A Model for the Removal of Organic Contaminants From Aqueous Samples.
Authors: Pino, Eduardo and Calderón, Cristian and Herrera, Francisco and Cifuentes, Gerardo and Arteaga, Gisselle
Journal: Frontiers in chemistry (2020): 365