http://chineseinput.net/에서 pinyin(병음)방식으로 중국어를 변환할 수 있습니다.
변환된 중국어를 복사하여 사용하시면 됩니다.
김홍수,남종우,남기대 ( Hong Soo Kim,Jeong Woo Nam,Ki Dae Nam ) 한국공업화학회 1990 공업화학 Vol.1 No.1
백금전극에 의한 페놀의 전기화학적 산화거동을 순환 전류전압법에 의하여 연구 검토하였다. 페놀의 초기산화전위는 산성용액에서는 전해질용액의 액성에 크게 영향을 받으나, 염기성용액에서는 0.33-0.40V범위로 거의 일정한 산화전위를 나타내었고, 페놀의 농도변화에 따른 전기화학적 최적농도는 0.1N부근에서 가장 유리하였다. 그리고 주사속도변화에 따른 조사에서 페놀산화반응은 비가역적이고 확산이 이 반응을 지배한다. The electrochemical oxidation behavior of phenol on platinum anode had been investigated by cyclic voltammetric method. The initial oxidation potential of phenol was dependent on the pH in acid solution. But in basic solution, it was held 0.33-0.40V(vs. S.C.E.). The peak current was proportional to the concentration of phenol and the optimum concentration was found to be about 0.1N. The oxidation reaction of phenol was found to be irreversible and controlled by diffusion.
김홍수(Hong Soo Kim),남기대(Ki Dae Nam),정노희(Noh Hee Jeong) 한국유화학회 2001 한국응용과학기술학회지 Vol.18 No.4
N/A Zinc complexes with Bis[2-(o-hydroxyphenyl) benzothiazolato ligands (ZnPBS-0) and Bis[2-(o-hydroxynaphthyl) benzothiazolato ligands (ZnPBS-05) were synthesized, and luminescent properties of these materials were investigated. The emission band found that it strongly depends on the molecular structure of introduced ligand and was tuned from 525 ㎚ to 535 ㎚ by changing the ligand structures. Spreading of the π-conjugation in 2-(o-hydroxyphenyl) group gives rise to a blue shift. On the other hand, spreading of the π-conjugation in benzothiazole groups leads to a red shift. The EL properties also showed good consistency with their differences of ligand structure. Bright-blue EL emission with a maximum luminance of 8300 cd/㎡ at 11V was obtained from the organic light - emitting diodes (OLEDs) using ZnPBS-0 as emitting layer. It was also found that the newly synthesized materials were suitable to be used as emitting materials in organic EL device.
(${\alpha}-Naphthyl$ 수식 이미지 Group이 치환된 안트라센 염료의 전계발광 특성
김홍수(Kim, Hong-Soo),이동규(Lee, Dong-Kyu),남기대(Nam, Ki-Dae) 한국유화학회 1999 한국응용과학기술학회지 Vol.16 No.2
New electroluminescent materials base on anthracene chromophore, [9.10-bis(${\alpha}$ 수식 이미지-naph -thylethenyl) anthracene (${\alpha}$ 수식 이미지-BNA)] were newly synthesized. The anthracene derivatives with bulky substituent possessed high melting point and they gave stable amorphous films through vacuum - sublimation methods. Three types of electroluminescent devices were fabricated with double layer and triple layer structure : ITO/TPD/emission layer/MgAg, ITO/emission layer/ OXD-7 and ITO/ TPD/ emission layer/OXD-7/MgAg, respectively. In three types of devices with the emissive layer of ${\alpha}$ 수식 이미지-BNA, efficient orange electroluminescence was observed. In the triple layer device whit a emitting layer of 20 nm thickness , maximum luminance was about 10000 cd/ $m^2$ 수식 이미지 at an applied voltage of 10v and maximum external quantum efficiency was 1.0%.
백금전극에 (白金電極) 의한 하이드로퀴논의 양극 (陽極) 전해산화 (電解酸化) 특성
남기대,김홍수 ( Ki Dae Nam,Hong Soo Kim ) 충북대학교 산업과학기술연구소 1990 산업과학기술연구 논문집 Vol.4 No.2
Abstract_Roman The electrochemical oxidation behavior of hydroquinone on platinum anode had been investigated by cyclic voltammetric method for the variation af co- ncentration, scan rate of potential, temperature and pH of electrolyte. The oxidation pot
N - 아실 아미노산계 계면활성제에 관한 연구 ( 제10보 ) - 컴퓨터 프로그래밍에 의한 이론적 임계미셀농도 및 미셀화영역의 산정 -
김태영,노윤찬,김홍수,강윤석,남기대 ( Tae Young Kim,Yun Chan Rho,Hong Su Kim,Yun Seog Kang,Ki Dae Nam ) 한국공업화학회 1996 공업화학 Vol.7 No.2
N-아실 아미노산계 음이온성계면활성제 중 sodium N-acyl-N-methyl-β-alaninate, sodium N-acyl sarcosinate 그리고 sodium N-acyl-N-methyl taurate 유도체 12종을 선택하여 묽은 수용액내에서 임계미셀농도와 미셀화 영역을 결정하는 새로운 방법으로서 컴퓨터프로그래밍에 의한 표면장력 곡선의 최대화를 제안하였다. 임계미셀농도와 미셀화 영역은 몇몇 실험치를 직접 프로그램에 대입함으로써 곡선의 최대화에 의해서 이론적으로 산정할 수 있다. 이론적으로 구한 임계미셀농도값들은 실측치와 거의 일치함을 알 수 있다. Micellization range and cmc for the dilute aqueous solution of N-acyl amino acid type anionic surfactants, that is, sodium N-acyl-N-methyl-β-alaninate, sodium N-acyl sarcosinate and sodium N-acyl-N-methyl taurate were investigated by computer programming. The extreme of the curvature of σ(C) as a new suggested method to determine the cmc and the micellization range was accomplished with computer programming. The values of cmc and micellization range can be obtained by the extreme of the curve by direct processing of only a few experimental data. The values of cmc particulary was in good agreement with those deduced intuitively from the shape of experimental curves of σ(C).
N-아실아미노산계 계면활성제(제14보) Soium N-Acyl Sarcosinate 미셀형성에 있어 동력학적 고찰
김명수(Myung Soo Kim),김홍수(Hong Soo Kim),정환경(Hwan Kyeong Jeong),남기대(Ki Dae Nam) 한국유화학회 2000 한국응용과학기술학회지 Vol.17 No.2
Surface tension as a function of concentration and temperature was measured for aquous solution of sodium N-acyl sarcosinate, RCON(CH₃)CH₂ COONa, From the intersection points in the (γ-logC) curves, the critical micelle concentration (cmc) was determined at 20, 30, 40, and 50℃. Structural effects on the cmc maximum and the minimum area per molecule at the aquous solution/air interface were discussed. The free energy, enthalpy, and entropy of micellization and adsorption of surfactant solution also were investigated. Numberous investigators have dealt with sodium N-acyl sarcosinates and their applications as wettings, flooding and reducing agents and as corrosion inhibitors.
파라메톡시페놀 및 히이드로퀴논 발수의 전기화학적 처리에 관한 연구
남기대,정노희,김홍수,노윤찬 한국유화학회 1991 한국응용과학기술학회지 Vol.8 No.2
The electrochemical oxidation of p-methoxyphenol and hydroquinone for wastewater treatment application was investigated on platinum anode. At the cyclic voltammetry, it was observed that nagative shift of peak potential of p-methoxyphenol and hydroqinone as the pH of electrolytes increases and the peak current showed higher at strong electrolytes than weak electrolytes. In the case of p-methoxyphenol, the optimum electrode potential of controlled potential electrolysis was observed at the potential region of 0.8-1.0 (V vs. SCE) and hydroquinone was showed at the potential of 1.0(V vs. SCE). Specially the oxidation rate of p-methoxyphenol and hydroquinone was showed high value in the acid electrolytes.