Özet:

The method of biological synthesis, unlike chemical and physical methods, does not require toxic chemicals and high energy because it is harmless, low-cost and easy to apply. By the method of biological synthesis, nano-dimensional metaloxides and non-metaloxide powder can be produced. The Znoxide (ZnO) contained in metaloxides has a wide range of use due to its electrical and chemical properties, such as health, electronic and semiconductor devices. ZnO can be produced by many biological methods as well. ZnO attracts the interest of researchers for the electronics and optics industry due to its wide bandwidth, high connectivity energy and UV light sensitivity. ZnO film covers can develop electrical properties by increasing the concentration of the cargo carrier with the doping of different materials to the structure due to the rapid electron-range recombination. In this study, graphenoxide (GO) is synthesized by ZnO powder and Hummer method by the method of biological synthesis. The final powder obtained is converted into a solution with the left gel method and is covered with the cover method that turns to the surface of the silicon substrates. The cutting process is 3000 dV/min in 30 seconds. Aluminium (Al) ohmic and verifying contacts for prepared thin film covers are covered with the physical steam accumulation (PVD) method. The covers are characterized by the morphological and chemically scanned electron microscope (FESEM) and X-ray breakdown (XRD). FESEM images taken from the cut show that the coating thickness is obtained at an average of 200 nm and the surface image shows that homogeneous coating is made. With the EDS analysis, the C, O atoms derived from GO on the surface and Zn, O atoms derived from ZnO were detected. In the dark environment for electrical characterization, the Keıthley 2400 device has a ±4 V range of current-voltage (I-V) analysis. The Shottky diot with ideal parameters from the obtained data has been determined to be ZnO used (Al/(Biyo-ZnO:GO)/pSi) diot produced with the biological synthesis contributed to GO.

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