The present invention relates to anti-angiogenic factor aptamer (anti-VEGF aptamer RNA) is attached to an ultra-fine nano-polymeric materials and sensitive field effect transistor biosensors cancer diagnosis using a device produced. The present invention is very fine that form the channel region of very fine polymer nanomaterial transistor array, the ultra-fine polymeric nanomaterial transistor array including a channel region made of a metallic source electrode, a metal drain electrode, a gate and a very fine polymer nanomaterial by covalently binding to the surface of polymer nano-materials angiogenic factors (vascular endothelial growth factor; VEGF) the target ultra fine conductive polymer nanomaterial transistor array according to claim consisting of anti-angiogenic factors apta meoro to (target) and it relates to a field effect transistor sensitive cancer diagnosis using the biosensor.
According to the invention, the present inventors invented a conventional (Korean Patent Application No. 10-2007-0120359), a field effect transistor using a conductive polymer in order to improve performance in the superior sensitivity of the biosensor, on the existing under low temperature conditions nano material (200 nm; CPNT1) of a size (diameter) is 1/2 times smaller microfine conductive polymer nano material (100 nm; CPNT2) were successfully prepared. Attaching the produced ultra-fine conductive polymer nano-materials on an electrode substrate and then, the anti-angiogenic factors in the fine conductive polymer nano-materials are attached to pole mounting aptamer high sensitive field-effect transistor was successfully in cancer diagnosis biosensor manufacturing. Utilizing anti-angiogenic factor aptamer prepared by the present investigators to angiogenic cancer diagnosis biosensor for detecting a factor inorganic semiconductors that already exist in the sensitivity (zinc nanowire) to utilize the angiogenic factors diagnostic biosensors;: the results showed that improve the sensitivity of about 100 times (Biosens Bioelectron 2009 24 1801-05).