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"Band-gap"

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"Band-gap"

Effect of Hydrazine as a Complex Agent on the Growth of ZnS Thin Film by Using Chemical Bath Deposition (CBD)
Cha Ran Lee, Jeha Kim
J Electr Electron Mater 2018;31(3):177-181.   Published online March 1, 2018
We prepared ZnS thin films via chemical bath deposition (CBD) in an aqueous solution of ammonia (NH3) and hydrazine (N2H4). The composition ratio of hydrazine used was 0%, 17%, 22%, 29%, or 50%. We investigated the effects of hydrazine and ammonia on the growth, and the structural and optical properties of ZnS in terms of surface uniformity, voids, and grain size. We found that during the growth of ZnS films, hydrazine was very effective for improving the surface morphology and layer uniformity with fast layer formation, while it had no effect on the bandgap energy, Eg.
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A Study on the Metal Mesh for CuNx-Cu-CuNx Multi-layer Touch Electrode by Reactive Magnetron Sputtering
Hyun-seok Kim, Seong-ju Yang, Kyeong-jae Noh, Seong-eui Lee
J Electr Electron Mater 2016;29(7):414-423.   Published online July 1, 2016
In the present study, the CuNx-Cu-CuNx layer the partial pressure ratio Cu metal of Ar and N2 gas using a DC magnetron sputtering device, was generated by the In-situ method. CuNx layer was able to obtain a surface reflectance reduction effect from the advantages of the process and the external light. CuNx layer is gas partial pressure, DC the Power, the deposition time variable transmittance in response to the thickness and partial pressure ratio, the reflectance was measured. Ar:N2 gas ratio 10:10(sccm), DC power 0.35 A, was derived Deposition time 90 sec optimum conditions. Thus, according to the optimal thickness and the composition ratio was derived surface reflectance of 20.75%. In addition, to derive the value of △ Ra surface roughness of 0.467. It was derived CuNx band-gap energy of about 2.2 eV. Thus, to ensure a thickness and process conditions can be absorbed to maximize the light in a wavelength band in the visible light region. As a result, the implementation of the 1.2 ㏀ base line resistance of using the Cu metal. This is, 5 inch Metal mesh TSP(L/S: 4/270 ㎛) is in the range of the reference operation.
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Energy Materials : Effect of Processing Parameters on the Microstructure and Band Gap Energy of 1D-Na2Ti6O13
Kang Seop Yun, Hye Kyung Ku, Woo Seung Kang, Su Jae Kim
J Electr Electron Mater 2012;25(8):664-669.   Published online August 1, 2012
Nano-structured one-dimensional Na2Ti6O13 particles were synthesized by a molten salt process. Effects of processing parameters on the microstructure and band gap energy of the Na2Ti6O13 powder were studied in this paper. For the synthesis of the Na2Ti6O13 particles, two different raw materials of tubular shaped Na-titanate (Na-TiNT) and spherical shaped TiO2 were utilized. Synthesizing with the raw material of Na-TiNT, around 70nm thick 1D-Na2Ti6O13 with the bandgap energy of 3.5 eV was obtained at 810℃. Below 810℃ or without the presence of NaCl, 1D-Na2Ti6O13 was in a relatively short in length and agglomerated state. With the processing temperature increased, the thickness of the 1D-Na2Ti6O13 was also observed to be increased. On the other hand, when TiO2 was employed as a raw material, the mixed amount of Na2CO3 played an important role in transforming the morphology and phase of the raw material, affecting the bandgap energy of the synthesized product. Specific surface area of the synthesized 1D-Na2Ti6O13 was significantly affected by the raw and mixed materials as well as processing temperature. When Na-TiNT was processed at 810℃ with NaCl, the specific surface area of the 1D-Na2Ti6O13 showed the best value of 30.63 m2/g.
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