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Nanoseparation Using Density Gradient Ultracentrifugation

Mechanism, Methods and Applications

  • Xiaoming Sun
  • Liang Luo
  • Yun Kuang
  • Pengsong Li

Part of the SpringerBriefs in Molecular Science book series (BRIEFSMOLECULAR)

Table of contents

  1. Front Matter
    Pages i-ix
  2. Yun Kuang, Ming Jiang, Kai Sun
    Pages 1-20
  3. Jindi Wang, Jun Ma, Xuemei Wen
    Pages 21-36
  4. Qian Zhang, Xiong Sun
    Pages 37-58
  5. Liang Luo, Qixian Xie, Yinglan Liu
    Pages 79-94
  6. Zhao Cai, Xiaohan Qi, Yun Kuang, Qian Zhang
    Pages 95-110

About this book

Introduction

This book introduces the classification and mechanism of density gradient ultracentrifugation (DGUC) method with rich examples showing the versatility of such an efficient separation technique. It also gives a strict mathematical description and a computational optimization model to predict the best separation parameters for a given colloidal system. The concept of “Lab in a tube” is proposed in the last chapter, which allows the size-property relationship investigation, synthetic optimization and reaction/assembly mechanism exploration etc. 

Keywords

Monodispersed colloidal nanostructures Sedimentation mechanism Computational optimization Lab in a tube MATLAB Program DGUC systems

Authors and affiliations

  • Xiaoming Sun
    • 1
  • Liang Luo
    • 2
  • Yun Kuang
    • 3
  • Pengsong Li
    • 4
  1. 1.State Key Laboratory of Chemical Resource EngineeringBeijing University of Chemical TechnologyBeijingChina
  2. 2.State Key Laboratory of Chemical Resource EngineeringBeijing University of Chemical TechnologyBeijingChina
  3. 3.State Key Laboratory of Chemical Resource EngineeringBeijing University of Chemical TechnologyBeijingChina
  4. 4.State Key Laboratory of Chemical Resource EngineeringBeijing University of Chemical TechnologyBeijingChina

Bibliographic information

  • DOI https://doi.org/10.1007/978-981-10-5190-6
  • Copyright Information The Author(s) 2018
  • Publisher Name Springer, Singapore
  • eBook Packages Chemistry and Materials Science
  • Print ISBN 978-981-10-5189-0
  • Online ISBN 978-981-10-5190-6
  • Series Print ISSN 2191-5407
  • Series Online ISSN 2191-5415
  • Buy this book on publisher's site