Conferences
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A novel manufacturing method of wood-ba
sed triboelectric nanogenerator as ene... International Conference on Advanced Materials and Devices(ICAMD) 2021
Eun Joung Lee, Hak Ji Lee, Jun Yong Song, Yong Joon Lee, Yun Ju La, Yongbin Bang, Young Pyo Jeon, Young Joon Yoo*, and Sang Yoon Park *
Abstract
For CO2 neutral emission materials with the advantages of biocompatibility, eco-friendly, and biodegradability, we purpose the TENG on natural wood substrate as energy harvester and motion sensor. Poly(3,4-ethylenedioxythiophene):poly(styrenesulfonate) (PEDOT:PSS) acting as a typical low-cost and widely used polymer and exhibiting excellent conductivity when dissolved in an aqueous solution is deposited with floating-coating method. In addition, this surface improved method proposes a novel concept for sustainable energy devices of TENG. Scanning electron microscopy images showed the surface conditions of the PEDOT:PSS coated wood compared with that of the PEDOT:PSS dip-coated wood. The performance the TENGs containing Al foil and a polyimide friction layer as energy harvester operating in the vertical contact-separation mode are presented. Furthermore, the output voltages of the TENGs monitoring a finger touch are observed as motion sensor operation.
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Neutron endurance of the Al2O3 on the SS316L
International Conference on Advanced Materials and Devices(ICAMD) 2021
Hyun Seo Yang, Sang-hwa Lee, Young-ku Jin, Dongpyo Hong, Ok sung Jeon, Tae Han Kim, Yong Yeol Park, Dong min Kim and Young Joon Yoo*, Sang Yoon Park**
Abstract
The structural materials of a test blanket module were exposed to neutron irradiation and hydrogen isotope permeation. A quantification of neutron irradiation damage of these materials is important to estimate the point defect rate, which traps hydrogen isotope. To evaluate the structural stability of the hydrogen isotope permeation barrier for International Thermonuclear Experimental Reactor materials, neutron irradiation damage of Al2O3/SS316L is required. An MC-50 cyclotron was used as a source for neutron irradiation during the neutron dose experiments. Be was used as a target for the 9Be(p,n)9B reaction, for which the neutron spectrum was estimated. The resultant dominant relative neutron fluxes were similar, with neutron energies of 2.45 and 14.1 MeV, which are given by D-D and D-T reaction from a nuclear fusion reactor. To quantify the extent of damage due to the neutron irradiation, the displacement per atom rate was calculated using the Particle and Heavy Ion Transport code System. The effect of the thickness of the Al2O3 layer on the neutron irradiation damage and on its radionuclides was also analyzed. The information on the reaction rate and the radionuclides for charged particles can be combined with a Density Functional Theory (DFT) analysis to explain the correlation between hydrogen isotope permeability and defects.
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