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A Systematic Review on the Application of the Theory of Information Worlds
Park, Sungjae,Lee, Jisue,Hollister, Jonathan M. Korea Institute of Science and Technology Informat 2022 Journal of Information Science Theory and Practice Vol.10 No.4
Previous studies have found that the use or development of theory in library and information science (LIS) research is comparatively low and may be trending downward. LIS has also been criticized for relying on theories imported from other disciplines rather than applying or developing theories from within. The theory of information worlds, a social information behavior theory originally introduced in 2008, represents a newer LIS theory whose level of adoption is understudied. This study features a systematic literature review of peer-reviewed research articles which cited or used the theory of information worlds from 2008 to early 2022 to identify trends related to levels of theory use, publication venues, author affiliations, countries, and collaborations, as well as research methods, topics, and populations. Findings suggest that both awareness and use of the theory of information worlds are positively trending, though at slower rates for higher levels of theory use, such as full applications of the theory to guide the collection and analysis of empirical data. The theory has also been used by researchers from around the world and across disciplines, most often with mixed and qualitative methods. While the growth of a new LIS theory is promising, the authors echo calls for increased use and development of the theory of information worlds, and other LIS theories more broadly, and as more interdisciplinary collaboration.
Park, Jin-Hee,Kim, Hyoung Kyu,Jung, Hana,Kim, Ki Hyang,Kang, Mi Seon,Hong, Jun Hyuk,Yu, Byeng Chul,Park, Sungjae,Seo, Su-Kil,Choi, Il Whan,Kim, Soon Ha,Kim, Nari,Han, Jin,Park, Sae Gwang Spandidos Publications 2017 International journal of oncology Vol.50 No.1
<P>A major goal of breast cancer research is to prevent the molecular events that lead to tumour metastasis. It is well-established that both cytoplasmic and mitochondrial reactive oxygen species (ROS) play important roles in cell migration and metastasis. Accordingly, this study examined the molecular mechanisms of the anti-metastatic effects of NecroX-5, a mitochondrial ROS scavenger. NecroX-5 inhibited lung cancer metastasis by ameliorating migration in a mouse model. In human cancer cells, the inhibition of migration by NecroX-5 is cell type-dependent. We observed that the effect of NecroX-5 correlated with a reduction in mitochondrial ROS, but mitochondrial ROS reduction by MitoQ did not inhibit cell migration. NecroX-5 decreased intracellular calcium concentration by blocking Ca2+ influx, which mediated the inhibition of cell migration, AKT down regulation and the reduction of mitochondrial ROS levels. However, the reduction of mitochondrial ROS was not associated with supressed migration and AKT downregulation. Our study demonstrates the potential of NecroX-5 as an inhibitor of breast cancer metastasis.</P>
Park, Jinjoo,Shin, Chonghoon,Park, Hyeongsik,Jung, Junhee,Lee, Youn-Jung,Bong, Sungjae,Dao, Vinh Ai,Balaji, Nagarajan,Yi, Junsin American Scientific Publishers 2015 Journal of Nanoscience and Nanotechnology Vol.15 No.3
<P>We investigated thin film silicon solar cells with boron doped hydrogenated nanocrystalline silicon/ hydrogenated amorphous silicon oxide [p-type nc-Si:H/a-SiOx:H] layer. First, we researched the bandgap engineering of diborane (B2H6) doped wide bandgap hydrogenated nanocryslline silicon (p-type nc-Si:H) films, which have excellent electrical properties of high dark conductivity, and low activation energy. The films prepared with lower doping ratio and higher hydrogen dilution ratio had higher optical gap (Eg), with higher dark conductivity (??(d)), and lower activation energy (Ea). We controlled Eg from 2.10 eV to 1.75 eV, with ??(d) from 1.1 S/cm to 7.59 x 10(-3) S/cm, and Ea from 0.040 eV to 0.128 eV. Next, we focused on the fabrication of thin film silicon solar cells. By inserting p-type nc-Si:H film into the thin film silicon solar cells, we achieved a remarkable increase in the built-in potential from 0.803 eV to 0.901 eV. By forming p-type nc-Si:H film between SnO2:F/ZnO:Al (30 nm) and p-type a-SiOx:H layer, the solar cell properties of open circuit voltage (Voc), short circuit current density (Jsc), and efficiency (관) were improved by 3.7%, 9.2%, and 9.8%, respectively.</P>
항공기 보조동력장치 입구안내익 구동기어의 품질개선에 관한 연구
박성제(Sungjae Park),박선욱(Sunwook Park),서재경(Jaekyoung Suh) 한국항공우주학회 2016 韓國航空宇宙學會誌 Vol.44 No.6
FA-50 항공기 보조동력장치는 추력을 제외한 항공기의 동력을 생성하는 장치로 항공기 감항성 유지를 위해 매우 중요한 요소이다. 또한, 보조동력장치의 입구안내익은 로드압축기로 유입되는 공기 유량을 조절하여 적절한 공기량이 보조동력장치 내부로 공급되도록 유도하는 장치이다. 본 논문에서는 FA-50 항공기 보조동력장치 입구안내익 구동기어에서 발생한 문제점을 바탕으로, 발생원인, 고장탐구결과, 설계개선 내용을 기술하였으며, 개선된 연구에 대해 비행시험검증 결과를 함께 소개한다. Auxiliary Power Unit of FA-50 which provides energy other than propulsion is an important element to maintain airworthiness on aircraft. Also Inlet Guide Vane of Auxiliary Power Unit is a device that supplies appropriate airflow into the Auxiliary Power Unit after adjusting influent airflow into the load compressor. This report, based on the problems occurred the driving gears of Inlet Guide Vane, deals with cause of occurrence, troubleshooting, design improvement and result of test flight verification for FA-50 aircraft Auxiliary Power Unit lifespan.
위성 영상의 분류 기법을 활용한 겨울철 하천의 얼음 면적과 기온 변화 비교 연구
박성재 ( Sungjae Park ),김봉찬 ( Bongchan Kim ),이창욱 ( Chang-wook Lee ) 대한원격탐사학회 2021 大韓遠隔探査學會誌 Vol.37 No.6
자연환경이나 지역생태계는 다양한 요인에 의하여 변화가 일어나지만 그 중에서도 수온의 변화는 하천생태계에서 주변환경에 영향을 미치는 큰 요인 중 하나이다. 하지만 현재까지 수온 변화에 관한 연구는 수온이 하천환경에 미치는 영향력에 비해 활발히 진행되지 못하였다. 이에 본 연구에서는 2015년부터 2021년까지 홍천강의 겨울철 얼음의 면적 변화를 통해 수온의 변화를 연구하고자 한다. 현장조사 결과를 참고하여 광학 위성 영상을 분류하였으며, SAR 위성 영상은 GLCM 텍스처 분석법을 이용하여 입력 자료의 한계를 극복하고자 하였다. 사용된 모든 영상의 정확도 검증을 수행한 뒤, 산출된 월 평균 얼음 면적과 인접한 기상대의 기온자료와 비교를 하였다. 수온과 얼음의 면적이 상관관계가 있음을 알 수 있었으며 본 연구결과는 접근이 힘들거나 시스템이 갖춰지지 않은 소규모 하천의 환경변화 연구에 활용할 수 있을 것이다. The natural environment and local ecosystem change depending on various factors, but among them, the change in water temperature is one of the major factors affecting the surrounding environment in the river ecosystem. However, research on water temperature change have not been actively conducted to date compared to the effect of water temperature on the river environment. Therefore, this study intends to study the change in water temperature from 2015 to 2021 through the change in the area of winter ice in the Hongcheon River. Optical satellite images were classified by referring to the field survey results, and the SAR satellite images tried to overcome the limitations of the input data by using the GLCM texture analysis method. After verifying the accuracy of all images used, the calculated monthly average ice area was compared with the temperature data of the adjacent AWS. It was found that there is a correlation between water temperature and ice area, and the results of this study can be used to study environmental changes in small-scale rivers that are difficult to access or do not have systems in place.
Bong, Sungjae,Ahn, Shihyun,Anh, Le Huy Tuan,Kim, Sunbo,Park, Hyeongsik,Shin, Chonghoon,Park, Jinjoo,Lee, Younjung,Yi, Junsin American Scientific Publishers 2016 Journal of Nanoscience and Nanotechnology Vol.16 No.5
<P>For thin film silicon-based solar cells, effective light trapping at a broad range of wavelengths (400-1100 nm) is necessary. Normally, etching is only carried out with TCOs, such as SnO2:F and impurity doped ZnO, to form nano-sized craters in the surface morphology to confer a light trapping effect. However, in this study, prior to ZnO: Al etching, periodic structures on the glass substrates were made by photolithography and wet etching to increase the light scattering and internal reflection. The use of periodic structures on the glass substrate resulted in higher haze ratios in the range from 550 nm to 1100 nm, which is the optical absorption wavelength region for thin film silicon solar cells, than obtained by simple ZnO: Al etching. The periodically textured glass with micro-sized structures compensates for the low haze ratio at the middle and long wavelengths of wet etched ZnO: Al. ZnO: Al was deposited on the periodically textured glass, after which the ZnO: Al surface was also etched randomly using a mixed acid solution to form nano-sized craters. The thin film silicon solar cells with 350-nm-thick amorphous silicon absorber layer deposited on the periodic structured glass and etched ZnO: Al generated up to 10.68% more photocurrent, with 11.2% increase of the conversion efficiency compared to the cell deposited on flat glass and etched ZnO: Al.</P>