Line 478: | Line 478: | ||
.el:hover .el__bg:after { | .el:hover .el__bg:after { | ||
opacity: 0; | opacity: 0; | ||
+ | background-image: url("http://www.orangesmile.com/common/img_cities_original/leuven--1963947-31.jpg"); | ||
} | } | ||
.el.s--active { | .el.s--active { | ||
Line 562: | Line 563: | ||
<div class="el__overflow"> | <div class="el__overflow"> | ||
<div class="el__inner"> | <div class="el__inner"> | ||
− | <div class="el__bg"> | + | <div class="el__bg"></div> |
− | + | ||
− | + | ||
<div class="el__preview-cont"> | <div class="el__preview-cont"> | ||
<h2 class="el__heading"><font color="white">Project</font></h2> | <h2 class="el__heading"><font color="white">Project</font></h2> |
Revision as of 21:03, 17 September 2017
KU Leuven
HEKcite
1
Project
Inspired by the heart
We drew our inspiration from the versatility and robustness of the heart. It beats continuously over the years, rapidly adapting its pace when necessary.
2
Research
Creation of the Rhythm
Given our knowledge about heart currents, we hypothesized it would be possible to recreate a steady rhythm in a non-excitable cell using only three ion channels.
3
Application
Biosensing
Finally, we aim to influence the pace by varying concentrations of biological effectors. Our main focus is establishing a new form of therapeutic drug monitoring.
4
Contact
Contact
5