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커넥트엑스 테라피를 이용한 근막이완과 스트레칭이 경추 가동범위에 미치는 영향
GyuJeong Choi,HanSuk Jung,JinOk Choi,SungJong Park 보완대체의학연구소 2016 Research Journal of Complementary and Alternative Vol.- No.7
This study have purpose for comparing ratio of range of motion which is effected from range of motion in cervical vertebrae in case of myofascial release technique and stretching with using ConnecTX. For this, We have selected randomly for 30 university student in Chung Nam SeoSan. So we have compared change of range of motion with suing ConnecTX therapy. And conclusion is followed. 1. There are increasing ratio of motion in cervical vertebrae after processing before the ConnecTX therapy and stretching on area of cervical vertebrae. 2. ConnecTX therapy have statistically increasing range of motion in every single gesture such as flexion, extension, left rotation. 3. Ratio of change in cervical vertebrae according with ConncTX therapy and stretching have increase than stretching in case of right and left lateral flexion and right rotation. With summarzing result of this study, there are meaningful effect on range of motion in cervical vertebrae from ConnecTX therapy, stretching. And from this point, this have considered that there are suggestion which can be used according with characteristic and life habit of patient who have stretching.
Jeong, Gyujeong,Jung, Seungon,Choi, Yunseong,Lee, Junghyun,Seo, Jihyung,Kim, Dong Suk,Park, Hyesung The Royal Society of Chemistry 2018 Journal of Materials Chemistry A Vol.6 No.48
<P>Copper is one of the candidate materials for alternative transparent conductive electrodes (TCEs) owing to its excellent electrical conductivity and low cost. The vulnerability of copper against oxidation, however, imposes a severe limitation on its widespread application in functional devices. In this study, we demonstrate a high-performance and robust Cu and graphene hybrid TCE, where Cu optimized in a grid structure was used as the base electrode, while graphene sheet provided additional charge collection and transport pathways as well as a protective layer against oxidation of the underlying Cu. The Cu grid/graphene hybrid TCE was demonstrated in organic solar cells (OSCs) to have a power conversion efficiency of 8.5%, which is among the best performances based on metal grid TCE-based OSCs. The resulting device exhibited excellent long-term and thermal stabilities as well. The proposed Cu grid/graphene hybrid structure is expected to find practical application in various optoelectronics devices.</P>