Temperature sensor based on organic field effect tube, and preparation method thereof
A temperature sensor, organic field technology, used in thermometers, semiconductor/solid-state device manufacturing, thermometers with electrical/magnetic components directly sensitive to heat, etc., can solve the problems of unsatisfactory stability and low mobility of biological semiconductor materials. and other problems, to achieve the effect of improving temperature sensing response, excellent UV protection, and rich content
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Embodiment 1
[0036] Such as figure 1 As shown, a temperature sensor based on an organic field effect tube is a bottom-gate top-contact structure, and the materials and thicknesses of each layer are: the gate electrode 2, the source electrode 5 and the drain electrode 6 are all silver nanowires, and the biodielectric layer 3 It is gelatin with a thickness of 200nm. The doped semiconductor layer 4 is composed of indigo and pectin (10% by weight of pectin) with a thickness of 50nm. The shellac encapsulation layer 7 has a thickness of 300nm. A field effect transistor temperature sensor with high sensitivity and high stability can be realized by using the structure.
[0037] A temperature sensor based on an organic field effect tube is a bottom grid top contact structure, comprising the following steps:
[0038] ① Clean the substrate 1 with detergent, acetone solution, deionized water and isopropanol solution, and dry it with nitrogen after cleaning;
[0039] ②Preparing a silver nanowire grid...
Embodiment 2
[0047] Such as figure 1 As shown, a temperature sensor based on an organic field effect tube is a bottom-gate top-contact structure, and the materials and thicknesses of each layer are: the gate electrode 2, the source electrode 5 and the drain electrode 6 are all gold nanowires, and the biodielectric layer 3 It is silk protein with a thickness of 500nm. The doped semiconductor layer 4 is composed of carotene and pectin (50% by weight of pectin) and has a thickness of 70nm. The shellac encapsulation layer 7 has a thickness of 200nm. A field effect transistor temperature sensor with high sensitivity and high stability can be realized by using the structure.
[0048] A temperature sensor based on an organic field effect tube is a bottom grid top contact structure, comprising the following steps:
[0049] ① Clean the substrate 1 with detergent, acetone solution, deionized water and isopropanol solution, and dry it with nitrogen after cleaning;
[0050] ②Preparing a gold nanowir...
Embodiment 3
[0057] Such as figure 1 As shown, a temperature sensor based on an organic field effect tube is a bottom-gate top-contact structure, and the materials and thicknesses of each layer are: the gate electrode 2, the source electrode 5 and the drain electrode 6 are all indium nanowires, and the biodielectric layer 3 Mined as egg white with a thickness of 300nm, the doped semiconductor layer 4 is a mixture of indigo and pectin (15% by weight of pectin), with a thickness of 60nm, and the shellac encapsulation layer 7 has a thickness of 250nm. A field effect transistor temperature sensor with high sensitivity and high stability can be realized by using the structure.
[0058] A temperature sensor based on an organic field effect tube is a bottom grid top contact structure, comprising the following steps:
[0059] ① Clean the substrate 1 with detergent, acetone solution, deionized water and isopropanol solution, and dry it with nitrogen after cleaning;
[0060] ②Preparing a silver na...
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