• Kyungpook Mathematical Journal
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• v.55 no.1
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• pp.109-118
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• 2015

In the present paper, a new analytic function valued integral operator is introduced which is defined on n-copies of a subset of the class of normalized analytic functions on the unit disc of the complex plane. This operator, which is denoted here by $\mathfrak{J}^{{\alpha}_i,{\beta}_i}(f_1,{\ldots},f_n)$, unifies and generalizes several integral operators studied earlier. Interesting sufficient conditions are derived for the univalent starlikeness of $\mathfrak{J}^{{\alpha}_i,{\beta}_i}(f_1,{\ldots},f_n)$.

• East Asian mathematical journal
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• v.31 no.3
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• pp.363-370
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• 2015

The automorphism group of domains is main stream of classification problem coming from E. Cartan's work. In this paper, I introduce classical technique of computations of automorphism group of domains and recent development of automorphism group. Moreover, I suggest new research problems in computations of automorphism group.

• Proceedings of the Materials Research Society of Korea Conference
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• 2000.11a
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• pp.114-114
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• 2000

• Proceedings of the Korean Powder Metallurgy Institute Conference
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• 2006.09b
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• pp.996.1-996.1
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• 2006

• Proceedings of the Zoological Society Korea Conference
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• 1997.10b
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• pp.198.2-198
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• 1997

No Abstract, See Full Text

• Bulletin of the Korean Chemical Society
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• v.8 no.5
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• pp.438-439
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• 1987

• 한국신재생에너지학회:학술대회논문집
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• 2011.11a
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• pp.51-51
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• 2011

1991년 스위스연방기술원(EPFL) 화학과 교수 Michae Gratzel이 발명한 염료감응 태양전지 (DSSC)는 값싼 원료와 저가공비 면에서 가장 경쟁력 있는 기술의 하나로 큰 기대를 받고 있다. 염료감응 태양전지의 특징은 전극기판의 재료나 염료를 바꿈으로서 형상이나 색체에 다양성을 갖도록 할 수 있다. 일반적인 염료감응 태양전지의 원리는 태양광이 염료 분자에 흡수, 염료는 여기상태가 되어 전자를 n형 반도체인 $TiO_2$의 전도대로 흘리고, 전자는 TCO전극으로 이동하여 외부 부하에 전기 에너지를 전달하고 상대전극으로 이동, 염료는 $TiO_2$에 전달한 전자 수만큼 전해질로부터 전자를 공급 받아 원래의 상태로 돌아가게 되는 원리에 의하여 발전된다. 전해질로는 $I^-/I_3^-$와 같이 산화-환원 종으로 구성되어 있으며, $I^-$ 이온의 source로는 LiI, NaI,이미다졸리움 요오드 등이 사용되며, $I_3^-$는 이온은 $I_2$를 용매에 녹여 생성시킨다. 전해질 매질은 acetonitrile과 같은 액체 또는 PVdF와 같은 고분자가 사용될 수 있다. 액체형의 경우 산화-환원 이온 종이 매질 내에서 신속하게 움직여 염료의 재생을 원활하게 도와주기 때문에 높은 에너지 변환 효율이 가능하지만, 전극 간의 접합이 완벽하지 못할 경우 누액의 문제를 가지고 있다. 반면, 고분자를 매질로 채택할 경우에는 누액의 염료는 없지만 산화-환원 종의 움직임이 둔화되어 에너지 변환 효율에 나쁜 영향을 줄 수 있다. 따라서 고분자 전해질을 사용할 경우에는 산화-환원 이온 종이 매질 내에서 신속하게 전달 될 수 있도록 설계하는 것이 필요하다. 본 연구는 염료감응 태양전지에서 가장 큰 문제가 되고 있는 고체 전해질의 산화-환원 이온 종이 매질 내에서 신속하게 전달 될 수 있도록 dimethylsulfoxide solvent 에 녹말 일정량을 녹여 Starch-$I_2$ complex 를 시켜주므로, 광 전압{\cdot}{\cdot}$전가 증가되었으며, 전지의 안정성이 향상되었다.

• Journal of Radiation Industry
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• v.5 no.3
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• pp.197-202
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• 2011

In this study, an Ag-polyaniline-silica (Ag-PANI-silica) nanoparticle was evaluated as a radioisotope carrier. An Ag-PANI-silica nanoparticle was incubated in the $^{125}I$ solution for a duration of 24 hr to test its radioisotope absorptivity. During the incubation, radioactivity of the nanoparticle was measured at 3, 6, 12, and 24 hr. After a 24 hr incubation, $^{125}I$-Ag-PANI-silica nanoparticle was incubated in a fresh saline for a duration of 48 hr to check its stability. Additionally, the $^{125}I$-Ag-PANI-silica nanoparticle was injected to the ICR mouse to investigate its in-vivo distribution characteristics. The $^{125}I$ absorption yield of the Ag-PANI-silica nanoparticle was higher than 95% after a 6 hr incubation period in the $^{125}I$ solution. And $^{125}I$-Ag-PANI-silica was stable for 48 hr at 80% yield at room temperature. The SPECT/CT image of a mouse that received $^{125}I$-Ag-PANI-silica complex showed that the $^{125}I$-Ag-PANI-silica complex was distributed in the lung, stomach and thyroid at 30 min post injection. From these results, the Ag-PANI-silica nanoparticle has good radio-iodine carrying property and can be applicable for the purpose of diagnosis and therapy.

• BMB Reports
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• v.55 no.11
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• pp.528-534
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• 2022

Mitochondria are cellular organelles that perform various functions within cells. They are responsible for ATP production, cell-signal regulation, autophagy, and cell apoptosis. Because the mitochondrial proteins that perform these functions need Ca²⁺ ions for their activity, mitochondria have ion channels to selectively uptake Ca²⁺ ions from the cytoplasm. The ion channel known to play the most important role in the Ca²⁺ uptake in mitochondria is the mitochondrial calcium uniporter (MCU) holo-complex located in the inner mitochondrial membrane (IMM). This ion channel complex exists in the form of a complex consisting of the pore-forming protein through which the Ca²⁺ ions are transported into the mitochondrial matrix, and the auxiliary protein involved in regulating the activity of the Ca²⁺ uptake by the MCU holo-complex. Studies of this MCU holo-complex have long been conducted, but we didn't know in detail how mitochondria uptake Ca²⁺ ions through this ion channel complex or how the activity of this ion channel complex is regulated. Recently, the protein structure of the MCU holo-complex was identified, enabling the mechanism of Ca²⁺ uptake and its regulation by the MCU holo-complex to be confirmed. In this review, I will introduce the mechanism of action of the MCU holo-complex at the molecular level based on the Cryo-EM structure of the MCU holo-complex to help understand how mitochondria uptake the necessary Ca²⁺ ions through the MCU holo-complex and how these Ca²⁺ uptake mechanisms are regulated.

• International Journal of Industrial Entomology and Biomaterials
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• v.16 no.2
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• pp.49-56
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• 2008

A preliminary survey on the incidence and intensity of root disease complex (association of Meloidogyne incognita and root rot pathogens) was carried out in the sericultural areas of Karnataka. A total of 280 mulberry gardens were surveyed in 14 districts of Karnataka belonging to different types of soil (red sandy, red loamy and black cotton), farming systems (irrigated and rainfed), varieties (V-1, K-2, Local and S-13) and age of the plants (0-5, 5-10 and 10-15 years). It was observed that the association of M. incognita with Botryodiplodia theobromae and Fusarium solani causes the root disease complex in mulberry. Of the 280 gardens visited, 94 were infested with the disease complex and incidence was recorded as 33.6%. The higher intensity of root disease complex was observed when the root system had more than 100 galls/plant with infection of mixed population of B. theobromae and F. solani in sandy soil under irrigated farming. The 5-10 years old mulberry plantation with V-I variety was found to be most susceptible to root disease complex. Districts like Mysore, Kolar, Mandya, Tumkur, Chitradurga and Bangalore were observed as sensitive areas. Further, the wounds caused by M. incognita in mulberry roots favour the easy entry of root rot pathogens, which increased the severity of the disease very fast.