Issue 10, 2013

Challenges of the movement of catalytic micromotors in blood

Abstract

Catalytic microjet bubble-propelled engines have attracted a large amount of interest for their potential applications in biomedicine, environmental sciences and natural resources discovery. One of the current efforts in this field is focused on the search of biocompatible fuels. However, only a minimal amount of effort has been made to assess the challenges facing the movement of such devices in a real world environment, especially with regards to the components of blood and their interactions with the catalytic microjets. Herein, we will show the limitations on the movement of catalytic microengines prepared via the rolled-up, as well as the templated-electrochemical deposition method, in an artificial blood sample, due to the presence of two main components of animal blood: the cellular component (red blood cells in this study) and serum. We will show that the motion of catalytic microjets is only possible in highly diluted dispersions of the red blood cells and serum. This finding has a profound implication on the development of the whole field, where the components found in real environments have to be considered carefully, and issues arising from the presence of such components have to be resolved prior to deploying these devices in real world applications.

Graphical abstract: Challenges of the movement of catalytic micromotors in blood

Supplementary files

Article information

Article type
Paper
Submitted
29 Dec 2012
Accepted
12 Mar 2013
First published
12 Apr 2013

Lab Chip, 2013,13, 1930-1936

Challenges of the movement of catalytic micromotors in blood

G. Zhao, M. Viehrig and M. Pumera, Lab Chip, 2013, 13, 1930 DOI: 10.1039/C3LC41423J

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