Solubility Part 1: Overview

Ratna Tantra; Eduardo Bolea; H. Bouwmeester; Carlos Rey-Castro; C.A.A. David; Jean Michel Dogné; Francisco Laborda; Julie Laloy; Kenneth N. Robinson; A.K. Undas; M. van der Zande

doi:10.1002/9781118753460.ch5

Solubility Part 1: Overview

Ratna Tantra^*, Eduardo Bolea, H. Bouwmeester, Carlos Rey-Castro, C.A.A. David, Jean Michel Dogné, Francisco Laborda, Julie Laloy, Kenneth N. Robinson, A.K. Undas, M. van der Zande

^*Corresponding author for this work

Research output: Chapter in Book/Report/Conference proceeding › Chapter › Academic › peer-review

1 Citation (Scopus)

Abstract

This chapter gives an overview of different methods that can potentially be used to determine the solubility of nanomaterials. In general, the methods presented can be broadly divided into four categories: separation methods, methods to quantify free ions, methods to quantify total dissolved species, and theoretical modeling/predictions. After presenting an overview of the different methods, a case study is presented. The aim here is to illustrate nanomaterial solubility measurement in the context of a specific nano-specific application. In particular, this case study explores the feasibility of microfluidics technology to measure solubility of ZnO. The device to be assessed is a miniaturized capillary electrophoresis (CE) with conductivity detection. The aim of the case study is to investigate as to whether such a device is fit for purpose and to determine if there is scope for further method development.

Original language	English
Title of host publication	Nanomaterial Characterization: An Introduction
Editors	R. Tantra
Publisher	Wiley
Pages	81-116
ISBN (Electronic)	9781118753460
ISBN (Print)	9781118753590
DOIs	https://doi.org/10.1002/9781118753460.ch5
Publication status	Published - 2016

Keywords

Capillary electrophoresis
Conductivity detection
Free ion measurement
Nanomaterial solubility
Separation methods
Theoretical modeling
Total dissolved specie measurement

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10.1002/9781118753460.ch5

Cite this

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title = "Solubility Part 1: Overview",

abstract = "This chapter gives an overview of different methods that can potentially be used to determine the solubility of nanomaterials. In general, the methods presented can be broadly divided into four categories: separation methods, methods to quantify free ions, methods to quantify total dissolved species, and theoretical modeling/predictions. After presenting an overview of the different methods, a case study is presented. The aim here is to illustrate nanomaterial solubility measurement in the context of a specific nano-specific application. In particular, this case study explores the feasibility of microfluidics technology to measure solubility of ZnO. The device to be assessed is a miniaturized capillary electrophoresis (CE) with conductivity detection. The aim of the case study is to investigate as to whether such a device is fit for purpose and to determine if there is scope for further method development.",

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AU - Bolea, Eduardo

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AU - Rey-Castro, Carlos

AU - David, C.A.A.

AU - Dogné, Jean Michel

AU - Laborda, Francisco

AU - Laloy, Julie

AU - Robinson, Kenneth N.

AU - Undas, A.K.

AU - van der Zande, M.

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AB - This chapter gives an overview of different methods that can potentially be used to determine the solubility of nanomaterials. In general, the methods presented can be broadly divided into four categories: separation methods, methods to quantify free ions, methods to quantify total dissolved species, and theoretical modeling/predictions. After presenting an overview of the different methods, a case study is presented. The aim here is to illustrate nanomaterial solubility measurement in the context of a specific nano-specific application. In particular, this case study explores the feasibility of microfluidics technology to measure solubility of ZnO. The device to be assessed is a miniaturized capillary electrophoresis (CE) with conductivity detection. The aim of the case study is to investigate as to whether such a device is fit for purpose and to determine if there is scope for further method development.

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KW - Conductivity detection

KW - Free ion measurement

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KW - Separation methods

KW - Theoretical modeling

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BT - Nanomaterial Characterization: An Introduction

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ER -

Solubility Part 1: Overview

Abstract

Keywords

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