Capillary electrophoresis of quantum dots: Minireview

Stanisavljević, Maja; Vaculovičová, Markéta; Kizek, René; Adam, Vojtěch

doi:10.1002/elps.201400033

Cited by 22 publications

(15 citation statements)

References 84 publications

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“…As in the case of GE, functionalization of the nanoparticles also plays a critical role in their separation. In this sense, bioconjugated quantum dots [175,176] and protein-nanoparticle interactions [177] are commonly studied by CE. Although metal and metal oxide nanoparticles have been separated by using different inorganic buffers as electrolytes, the addition of ionic surfactants appears to be the most convenient mode for separation of metallic nanoparticles [168][169][170].…”

Section: Electrophoresismentioning

confidence: 99%

Detection, characterization and quantification of inorganic engineered nanomaterials: A review of techniques and methodological approaches for the analysis of complex samples

Laborda

Bolea

Cepriá

et al. 2016

Analytica Chimica Acta

324

170

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The increasing demand of analytical information related to inorganic engineered nanomaterials requires the adaptation of existing techniques and methods, or the development of new ones.The challenge for the analytical sciences has been to consider the nanoparticles as a new sort of analytes, involving both chemical (composition, mass and number concentration) and physical information (e.g. size, shape, aggregation). Moreover, information about the species derived from the nanoparticles themselves and their transformations must also be supplied. Whereas techniques commonly used for nanoparticle characterization, such as light scattering techniques, show serious limitations when applied to complex samples, other well-established techniques, like electron microscopy and atomic spectrometry, can provide useful information in most cases. Furthermore, separation techniques, including flow field flow fractionation, capillary electrophoresis and hydrodynamic chromatography, are moving to the nano domain, mostly hyphenated to inductively coupled plasma mass spectrometry as element specific detector.Emerging techniques based on the detection of single nanoparticles by using ICP-MS, but also coulometry, are in their way to gain a position. Chemical sensors selective to nanoparticles are in their early stages, but they are very promising considering their portability and simplicity.Although the field is in continuous evolution, at this moment it is moving from proofs-of-2 concept in simple matrices to methods dealing with matrices of higher complexity and relevant analyte concentrations. To achieve this goal, sample preparation methods are essential to manage such complex situations. Apart from size fractionation methods, matrix digestion, extraction and concentration methods capable of preserving the nature of the nanoparticles are being developed. This review presents and discusses the state-of-the-art analytical techniques and sample preparation methods suitable for dealing with complex samples. Single-and multimethod approaches applied to solve the nanometrological challenges posed by a variety of stakeholders are also presented.

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Section: Electrophoresismentioning

confidence: 99%

Detection, characterization and quantification of inorganic engineered nanomaterials: A review of techniques and methodological approaches for the analysis of complex samples

Laborda

Bolea

Cepriá

et al. 2016

Analytica Chimica Acta

324

170

View full text Add to dashboard Cite

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“…More focused review article about CE analysis of poly(amidoamine) dendrimeric structures was prepared by Shi et al [43]. Paper summarizing the application of separation techniques (including CE) of gold nanoparticles [44,45] and QDs [46,47] analysis are also accessible.…”

Section: Capillary Electrophoresis For Analysis Of Nanomaterialsmentioning

confidence: 99%

Capillary Electrophoresis in Nanotechnologies versus Nanotechnologies in Capillary Electrophoresis

Adam¹,

Vaculovičová²

2018

Novel Nanomaterials - Synthesis and Applications

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Nanomaterials are attracting an interest of many researches. All this attention is due the unique physical and chemical properties of nanomaterials differing significantly from the bulk materials mainly due to their size in range of nanometers. Capillary electrophoresis (CE) is a powerful, well-established analytical technique that provides numerous valuable benefits over other separation methods including high-performance liquid chromatography. The connection between CE and nanotechnology can be approached by two strategies: (i) CE analysis of nanomaterials and (ii) nanomaterials for CE improvement. The first perspective focuses on uses of CE as a method for characterization employed during nanomaterial production and modification as well as for monitoring their properties and interactions with other molecules. The second viewpoint deals with applications of nanomaterials for improving CE performance, mainly by enhancing efficiency of separation using nanomaterials as a stationary or pseudo-stationary phase and by enhancing detection sensitivity and/or selectivity in both optical and electrochemical detection. Moreover, applications of nanomaterials for sample preparation before CE analysis will be mentioned. This chapter aims at highlighting the symbiosis of CE and nanotechnology as a combination of modern, progressive field with well-known and reliable analytical method.

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“…. Other reviews devoted to the application of CE and other separation techniques for AuNPs and QDs analysis are also available.…”

Section: Ce Separations Of Nanomaterialsmentioning

confidence: 99%

“…A more narrowly focused review of CE analysis of poly(amidoamine) dendrimeric structures was prepared by Shi et al [44]. Other reviews devoted to the application of CE and other separation techniques for AuNPs [45,46] and QDs [47,48] analysis are also available.…”

Section: Size and Surface Characterizationmentioning

confidence: 99%

Capillary electrophoresis and nanomaterials – Part I: Capillary electrophoresis of nanomaterials

Adam

Vaculovičová

2017

Electrophoresis

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Nanomaterials are in analytical science used for a broad range of purposes, covering the area of sample pretreatment as well as separation, detection, and identification of target molecules. This part of the review covers capillary electrophoresis (CE) of nanomaterials and focuses on the application of CE as a method for characterization used during nanomaterial synthesis and modification as well as the monitoring of their properties and interactions with other molecules. The heterogeneity of the nanomaterial family is extremely large. Depending on different definitions of the term Nanomaterial/Nanoparticle, the group may cover metal and polymeric nanoparticles, carbon nanomaterials, liposomes and even dendrimers. Moreover, these nanomaterials are usually subjected to some kind of surface modification or functionalization, which broadens the diversity even more. Not only for purposes of verification of nanomaterial synthesis and batch-to-batch quality check, but also for determination the polydispersity and for functionality characterization on the nanoparticle surface, has CE offered very beneficial capabilities. Finally, the monitoring of interactions between nanomaterials and other (bio)molecules is easily performed by some kind of capillary electromigration technique.

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Capillary electrophoresis of quantum dots: Minireview

Cited by 22 publications

References 84 publications

Detection, characterization and quantification of inorganic engineered nanomaterials: A review of techniques and methodological approaches for the analysis of complex samples

Detection, characterization and quantification of inorganic engineered nanomaterials: A review of techniques and methodological approaches for the analysis of complex samples

Capillary Electrophoresis in Nanotechnologies versus Nanotechnologies in Capillary Electrophoresis

Capillary electrophoresis and nanomaterials – Part I: Capillary electrophoresis of nanomaterials

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