Difference between revisions of "Team:XMU-China/Hardware"
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| − | < | + | <br /><p>Based on this year's project, we made a device which called ‘East-Wind’ that can detect the concentration of heavy metal in water. In order to describe this device clearly, we will introduce it in three aspects. Just as our project describes, iGEMers from all around the world can make their own East-Wind by reading introductions as follow. You can cancel, add, or change some components of the device to get your own target. It is a modularized device and it can make anything you want.</p> |
| − | <span class=" | + | <span class="blank"></span> |
| − | <span class=" | + | <span class="subtitle" id="subtitle1">-----* Introduction *-----</span> |
| − | <p></ | + | <p>Our team members are always wondering that how we can apply our project to practical problems. As we all know, synthetic biology is an engineering subject and the meaning of engineering is solving problems. With the development of genetic circuits, we naturally think of electronic engineering which can make our ideas into reality. It is awesome to combine genetic circuits and electronic circuits. That is why we persist in moving into an unfamiliar territory and making East-Wind.<br /><br /> |
| − | + | East-Wind can be divided into three main parts: microfluidic chip driven by centrifugal force; three electrode system, constant voltage circuit, current-voltage conversion circuit and multi-position amplifier circuit; 3D printing shell. And there are some other components which can be changed or replaced to get different functions.</p> | |
<span class="blank"></span> | <span class="blank"></span> | ||
| − | <span class=" | + | <span class="subtitle" id="subtitle2">-----* Microfluidic Chip *-----</span> |
| − | < | + | <h1>Material</h1> |
| − | <span class=" | + | <p>We choose poly(methyl 2-methylpropenoate) (PMMA) as the material of our microfluidic chip. Emerging biotechnology and Biomedical research uses PMMA to create microfluidic lab-on-a-chip devices, which require 100 micrometre-wide geometries for routing liquids. These small geometries are amenable to using PMMA in a biochip fabrication process and offer moderate biocompatibility.<br /><br /> |
| − | <h1></h1> | + | <span class="hardwareimg"><img class="hardwareimg1" src="#"></span></p><br /><br /> |
| + | <h1>Structure</h1> | ||
<p></p> | <p></p> | ||
<h1></h1> | <h1></h1> | ||
Revision as of 16:50, 29 October 2017
Based on this year's project, we made a device which called ‘East-Wind’ that can detect the concentration of heavy metal in water. In order to describe this device clearly, we will introduce it in three aspects. Just as our project describes, iGEMers from all around the world can make their own East-Wind by reading introductions as follow. You can cancel, add, or change some components of the device to get your own target. It is a modularized device and it can make anything you want.
-----* Introduction *-----Our team members are always wondering that how we can apply our project to practical problems. As we all know, synthetic biology is an engineering subject and the meaning of engineering is solving problems. With the development of genetic circuits, we naturally think of electronic engineering which can make our ideas into reality. It is awesome to combine genetic circuits and electronic circuits. That is why we persist in moving into an unfamiliar territory and making East-Wind.
East-Wind can be divided into three main parts: microfluidic chip driven by centrifugal force; three electrode system, constant voltage circuit, current-voltage conversion circuit and multi-position amplifier circuit; 3D printing shell. And there are some other components which can be changed or replaced to get different functions.
Material
We choose poly(methyl 2-methylpropenoate) (PMMA) as the material of our microfluidic chip. Emerging biotechnology and Biomedical research uses PMMA to create microfluidic lab-on-a-chip devices, which require 100 micrometre-wide geometries for routing liquids. These small geometries are amenable to using PMMA in a biochip fabrication process and offer moderate biocompatibility.
Structure
Xiamen University, Fujian, China
No. 422, Siming South Road, Xiamen, Fujian, P. R. China 361005
