unfoldscience

I published earlier some infographics I created for my Ph.D thesis, for example the comparison between biological and technological objects at the micro and nano scale. Below are a few other information graphics used to explain the various uses of poly(N-isopropylacrylamide) (PNIPAM) for biology and health.

Conformational switch

Temperature-induced conformational switch of PNIPAM

PNIPAM is a thermosensitive polymer that undergoes a reversible coil-to-globule conformational transition around its lower critical solution temperature (LCST), around 32°C. It switches from a hydrophilic, swollen state to a hydrophobic, collapsed state.

• Download the resizable, editable SVG source file (SVG, 65 KB)

PNIPAM-based immunoassay

Immunoassay based on the thermal precipitation of PNIPAM

The peculiar properties of PNIPAM make it possible to use this polymer as a support for immunoassays based on thermal precipitation.

• Download the resizable, editable SVG source file (SVG, 151 KB)

Cell culture

Cell culture on PNIPAM-grafted surfaces

PNIPAM-grafted surfaces can be used as a soft support for cell cultures. Cells grow on hydrophobic PNIPAM and are softly released by lowering the temperature and making the PNIPAM hydrophilic.

• Download the resizable, editable SVG source file (SVG, 249 KB)

Adsorption and release of proteins

Controlled adsorption and release of proteins on hydrophobic PNIPAM-grafted surfaces

The same way cells adsorb on hydrophobic PNIPAM surfaces, proteins may be reversibly trapped on PNIPAM surfaces, then released upon command. This is actually one of the things I did during my thesis.

• Download the resizable, editable SVG source file (SVG, 63 KB)

Licensing and reuse

All the source files are vector graphics, i.e. they can be resized at will without loss of quality or pixelation. They are released under a Creative Commons Attribution ShareAlike license, which means you are free to use them, modify them, redistribute them for any purpose as long as you appropriately attribute them, and that you distribute any derivative works only under the same license.

Preview of the thesis

I am glad to announce that my Ph.D thesis is now available for download. The document, called Technologies PNIPAM pour les laboratoires sur puce (“PNIPAM technologies for lab-on-chips”) is only available in French (University policy), but there are some pretty pictures and infographics in there too for people who don’t speak French; one of them is the “Interdisciplinarity, biology and micro-nanotechnologies” information graphics I published earlier.

Summary

Labs on chips are miniaturized devices integrating one or several laboratory functions, usually dedicated to the handling of chemical and biological samples. Our work aimed at integrating a smart polymer called poly(N-isopropylacrylamide) (PNIPAM) in microsystems, in order to develop a new technological process for labs on chips.

PNIPAM is a thermosensitive polymer that undergoes a reversible state transition; it switches from a hydrophilic, swollen state below its temperature of transition (LCST ~ 32°C), to a hydrophobic, collapsed state above it. The technology we developed is based on heating elements and a surface functionalization process to graft the PNIPAM layer.

Our results show that the electro-osmotic flow can be modulated by thermally controlling the PNIPAM, thus paving the way to electrokinetic mixers. This thermal control also enables the adsorption (and partial desorption) of proteins on fonctionalized beads, the main application being sample preparation.

Keywords: Lab on a chip, NIPAM, microfluidics, thermosensitive polymer.

Tools

I mainly used LaTeX to create this document. All vector infographics were made using Inkscape.

Although the PDF file can be searched as plain text, I have also started to convert the document to wikitext in order to make the whole content available on Wikisource. However, this process takes time and I have other priorities at the moment, so any help is welcome.

Licensing & reuse

I released the whole document under a GNU free documentation license, which means you are free to use it, modify it, redistribute it for any purpose as long as you appropriately attribute it, and that you distribute any derivative works only under the same license. You also have to provide a copy of the license.

Link

• Download the high-quality PDF thesis (PDF, 130 p., 6.45 MB)