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Bio-inspired Asymmetric Design and Building of Biomimetic Smart Single Nanochannels (Springer Theses)

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en Limba Engleză Carte Hardback – 11 Jun 2013
In this thesis, the author introduces various bio-inspired smart nanochannel systems. A strategy for design and preparation of novel artificial responsive symmetric/asymmetric single nanochannel systems under various symmetric/asymmetric stimuli is presented for the first time. The author’s research work utilizes ion track etching polymer nanochannels with different shapes as examples to demonstrate the feasibility of the design strategy for building novel artificial functional nanochannels using various symmetric/asymmetric physicochemical modifications. The development of these nanochannels and their potential applications is a burgeoning new area of research, and a number of exciting breakthroughs may be anticipated in the near future from the concepts and results reported in this thesis. Research into artificial functional nanochannels continues to drive new developments of various real-world applications, such as biosensors, energy conversion systems and nanofluidic devices. The work in this thesis has led to more than 15 publications in high-profile journals.
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Specificații

ISBN-13: 9783642380495
ISBN-10: 3642380492
Pagini: 120
Ilustrații: 11 schwarz-weiße und 67 farbige Abbildungen
Dimensiuni: 155 x 235 x 15 mm
Greutate: 0.37 kg
Ediția: 2013
Editura: Springer
Colecția Springer
Seria Springer Theses

Locul publicării: Berlin, Heidelberg, Germany

Public țintă

Research

Cuprins

Introduction.- Biomimetic Asymmetric, Ion Responsive, Conical-shaped Single Nanochannels.- Biomimetic Asymmetric, pH-Gating, Hourglass-shaped Single Nanochannel.- Biomimetic Asymmetric, pH/Temperature Dual Responsive, Hourglass-shaped Single Nanochannel.- Fabrication of Stable Single Nanochannel Complex Materials.- Conclusions and Outlook.

Textul de pe ultima copertă

In this thesis, the author introduces various bio-inspired smart nanochannel systems. A strategy for design and preparation of novel artificial responsive symmetric/asymmetric single nanochannel systems under various symmetric/asymmetric stimuli is presented for the first time. The author’s research work utilizes ion track etching polymer nanochannels with different shapes as examples to demonstrate the feasibility of the design strategy for building novel artificial functional nanochannels using various symmetric/asymmetric physicochemical modifications. The development of these nanochannels and their potential applications is a burgeoning new area of research, and a number of exciting breakthroughs may be anticipated in the near future from the concepts and results reported in this thesis. Research into artificial functional nanochannels continues to drive new developments of various real-world applications, such as biosensors, energy conversion systems and nanofluidic devices. The work in this thesis has led to more than 15 publications in high-profile journals.

Caracteristici

Nominated by Chinese Academy of Sciences as an outstanding PhD thesis
Puts forward a comprehensive and systematic strategy for the design and preparation of novel artificial responsive symmetric/asymmetric single nanochannel systems under various symmetric/asymmetric stimuli for the first time
Summarizes and predicts the development of biomimetic smart nanochannels and their potential real-world applications
Winner of the Excellent Doctoral Dissertation of Chinese Academy of Sciences (2012), Lu Jiaxi Outstanding Postgraduate Award (2011) and first prize of the 9th "Colloid Awards of China" (2011)