Method for detecting albumin based on colorimetric assay and system thereof

What is claimed is: 1. A method for detecting albumin based on a colorimetric assay, comprising: adding gold nanoparticles into a sample preparing device having a sample without spectroscopic tags, preparing the sample without spectroscopic tags to form an alkaline solution to avoid interference substances adhering on the gold nanoparticles; concentrating the gold nanoparticles by using a microfluidic concentrator with a circular ion exchange membrane and by applying an external electric field across two electrodes; capturing an image of the concentrated gold nanoparticles by an image capturing device for measuring saturation intensities of the image, wherein there is a relation between the saturation intensities and a concentration of the albumin in the sample without spectroscopic tags; and obtaining the concentration of the albumin of the sample without spectroscopic tags by using the relation and the measured saturation intensities. 2. The method for detecting albumin based on the colorimetric assay of claim 1 , wherein the saturation intensities comprise a saturation intensity difference among three primary colors of the image. 3. The method for detecting albumin based on the colorimetric assay of claim 2 , wherein the relation denotes a linear relation between the saturation intensity difference and a logarithm of the concentration of the albumin. 4. The method for detecting albumin based on the colorimetric assay of claim 1 , wherein a pH value of the alkaline solution is substantially 10. 5. The method for detecting albumin based on the colorimetric assay of claim 1 , wherein the image capturing device is a charge coupled device or a complementary metal oxide semiconductor image sensor built in a mobile device. 6. A system of detecting albumin based on a colorimetric assay, comprising: a sample preparing device having a sample without spectroscopic tags, gold nanoparticles added into the sample preparing device, wherein the sample without spectroscopic tags are prepared to form an alkaline solution to avoid interference substances adhering on the gold nanoparticles when the gold nanoparticles are added into the sample preparing device having the sample without spectroscopic tags; a microfluidic concentrator concentrating the gold nanoparticles by using a circular ion exchange membrane and by applying an external electric field across two electrodes; an image capturing device capturing an image of the concentrated gold nanoparticles for measuring saturation intensities of the image, wherein there is a relation between the saturation intensities and a concentration of the albumin in the sample without spectroscopic tags; and a processing device, the image capturing device transmitting the saturation intensities to the processing device, and the processing device obtaining the concentration of the albumin of the sample without spectroscopic tags by using the relation and the measured saturation intensities. 7. The system of detecting albumin based on the colorimetric assay of claim 6 , further comprising a storage storing the relation. 8. The system of detecting albumin based on the colorimetric assay of claim 6 , wherein the saturation intensities comprise a saturation intensity difference among three primary colors of the image, and the relation denotes a linear relation between the saturation intensity difference and a logarithm of the concentration of the albumin. 9. The system of detecting albumin based on the colorimetric assay of claim 6 , wherein a pH value of the alkaline solution is substantially 10. 10. The system of detecting albumin based on the colorimetric assay of claim 6 , wherein the image capturing device is a charge coupled device or a complementary metal oxide semiconductor image sensor built in a mobile device.