Team:KU Leuven/Team/Members

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Team

Astrid

Eline

Frederik

Ines

Jasper

Laetitia

Astrid
Education and Outreach

Master in Biochemistry and Biotechnology

Our busy bee

Eline
Ethics and Human Practices

Bachelor in Civil Engineering

Keep calm and build a pattern

Frederik
Economics and Business

Master in Business and Economics

The business tycoon

Ines
Communication and Media

Master in Molecular Biology

Keeps you posted

Jasper
Wet Lab and Modeling

Bachelor in Bioscience Engineering

Matlab is always on my side

Laetitia
Wet Lab

Bachelor in Bioscience Engineering

Let the bacteria grow!

Laura
Sponsors

Master in Biomedical Sciences

Our beautiful sales lady

Laurens
Graphics and Art

Master in Biochemistry and Biotechnology

Let's photoshop everything

Leen
Wiki

Bachelor in Bioscience Engeneering

The answer to anything is: try Google

Moritz
Modeling

Master in Mathematical Engineering

Wants lots and lots of data

Ovia
Team Manager

Master in Biophysics, Biochemistry and Biotechnology

The center of everything

Thomas
Logistics

Master in Nanoscience Engineering

Before one can transform bacteria, one must first transform himself

Vincent
Literature

Master in Biochemistry and Biotechnology

First on the screen, now in real life

Laura

Laurens

Leen

Moritz

Ovia

Thomas

Vincent

Mentors and Advisors

A better understanding of the pattern formation process in combination with the appropriate and detailed predictive mathematical models will be advantageous in many different fields, ranging from construction and design, to medicine, to electronics, to even art. Tumor formation and tissue regeneration are a few among the many examples where the medical world could benefit from a deeper knowledge of pattern formation. The generation of patterns in a controlled way will also allow the production of novel biomaterials. After forming a pattern, the cells can be engineered to precipitate or deposit networked biominerals, opening up exciting new avenues for the production of microstructured biocomposites. In the long term, the ability to construct predesigned patterns of bacteria could lead to applications in miniature electrical conductors and/or electrical circuits.

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