• Bulletin of the Korean Chemical Society
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• 제34권2호
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• pp.505-509
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• 2013

A low temperature ($65^{\circ}C$) thermal deposition process was developed for depositing a silver coating on thermally sensitive polymeric substrates. This low temperature deposition was achieved by chemical reduction of a silver alkylcarbamate complex with latent reducing agent. The effects of acetol as a latent reducing agent for the silver 2-ethylhexylcarbamate (Ag-EHCB) complex and their blend solutions were investigated in terms of reducing mechanism, and the size and shape of silver nanoparticles (Ag-NPs) as a function of reduced temperature and time, and PVP stabilizer concentration were determined. Low temperature deposition was achieved by combining chemical reduction with thermal heating at $65^{\circ}C$. A range of polymer film, sheet and molding product was coated with silver at thicknesses of 100 nm. The effect of process parameters and heat treatment on the properties of silver coatings was investigated.

• 한국산학기술학회논문지
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• 제18권2호
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• pp.711-718
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• 2017

Poly(N-vinylcarbazole) (PVK)-cellulose triacetate (CTA) 복합체를 합성하고, 필름에 기공을 형성시킨 뒤, 화학적 환원법을 통해 은 나노입자를 부착하는 것을 연구하였다. PVK-CTA 복합체는 CTA-chloroform 용액에서 iron(III) chloride를 산화제로 사용하여 N-vinylcarbazole을 중합시켜 복합체를 합성하였고, 얻어진 복합체를 습한 환경에서 휘발성용매로 적셔 수증기를 적용하여 macropore가 균일하게 형성된 구조인 Honeycomb-pattern을 형성시켰다. 이후 환원제로 Tetrathiafulvalene (TTF)와 분산제로 polyvinylpyrrolidone (PVP)를 사용하여 화학적 환원법을 이용해 은 나노입자를 Honeycomb-pattern이 형성된 복합체 표면에 부착시켰다. FT-IR과 UV-Vis spectrometer을 이용하여 복합체의 형성여부를 확인하였고, N-vinylcarbazole의 함량을 달리하여 중합한 뒤 복합체의 열 분해도를 측정하였다. Scanning electron microscope (SEM)을 통해 복합체 표면에 형성된 기공의 균일도와 부착된 은 나노입자들의 분산성을 분석하였으며, 환원제, 분산제, 전구체 용액의 농도를 달리하여 은나노입자의 분산성을 확인하였다.

• Bulletin of the Korean Chemical Society
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• 제30권11호
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• pp.2669-2674
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• 2009

Controlled reduction of silver alkylcarbamate complexes with hydrogen gas was investigated as a facile synthetic method for high concentrations of silver nanocolloids in organic solvent. Polyvinylpyrrolidone (PVP) was used to stabilize the silver colloids obtained from the chemical reduction. To determine optimum conditions for preparation of the stable and controlled silver colloids with the narrowest particle size and distribution, a large number of experiments were carried out involving variations in the concentrations of the silver 2-ethylhexylcarbamate (Ag-EHCB) complex, PVP, and 2-propanol. The initial colloid had a mean particle diameter between 5$\sim$50 nm, as measured by transmission electron microscopy, and exhibited a sharp absorption band in the UV region with a maximum size near 420 nm. After treatment with a reducing agent, the colloids were characterized by ultraviolet-visible spectroscopy, X-ray diffraction, and high-resolution transmission electron microscopy.

• 생명과학회지
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• 제7권4호
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• pp.316-321
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• 1997

본 연구에서는 은이온이 이온 교환되어 있는 수처리제(Ag-Os)의 영향을 Bacillus sp. 와 E. Coli RB 797을 사용하여 연구하였다. Bacillus sp.의 성장이 E. Coli RB 797의 성장에서보다 더 은이온에 민감하게 억제됨을 보였다. 성장억제에 필요되어지는 Ag-Os양은 0.2 mg/ml 이상에서 E. Coli RB 797를 0.02 mg/ml 이상에서 Bacillus sp. 의 성장을 저해하며 Ag-Os 수처리제의 존재하에서 생존 할 수 있는 세포 수도 E. Coli RB 797이 더 많음을 보여 윗 결과와 일치함을 보였다. 세포에 bind되는 것은 몇 분안에 일어 나는 과정이며 starved cells에서도 일어나는 에너지를 필요치 않는 과정임을 Binding연구는 나타내고 있다. 또한 Bacillus sp.의 은이온 binding이 더 많이 일어남을 보여준다. 수처리제의 존재하에서 reducing substances가 생성됨을 methylene blue를 indicatr로 사용하여 관찰하였다. 이상의 결과로 이 수처리제는 E. Coli RB 797과 Bacillus sp. 에 대해 효과적이며 은이온은 빠르고 에너지를 필요로 하지 않는 과정에 의해 세포에 bind한후 세포내로 들어가 sulfur group과 반응할 것으로 사료된다.

• KSBB Journal
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• 제16권2호
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• pp.123-127
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• 2001

항균 기능성 폴라스틱애 대한 향균력 시험방법 기준을 설 정하가 워하여 E. coli 및 S. aureus를 공시균주로 하여 균주 별 항균제 Ag-hydroxyl aphatite의 첨가량에 따른 플라스탁회 항균력을 비교실험하였다. 첫번째 평카방법 기준올 설정하기 위해 콩시균외 최적 활성농도 범위를 설정하였고, 두 번째 이를 기준으로 한 시힘용 플라스틱의 지준 시편을 제작하여 항균성능 비교를 통한 시험방볍을 검토하였다. 실험결과 균 캡종용액으로 사용한 균 용액의 농도범위는 Trγpticase Soy Broth흘 0.1 M 멸균 인산완충용액으로 500배 희석한 첨가배지가 적합하였고, 처리조건으로 $37\pm1^{circ}C$, 120 rpm, 24시간동안 항온 진탕 시험하여 균 용액의 사용범워를 $4~6\times10^5$CFU/mL이었을 때가 항균 활성효과 시험에 가장 적합하였다. 그리고 항균제의 첨가군에 따른 플라스틱 종류별 항균성능은 동일한 첨가함량의 경우 비슷한 항균효과를 보였으며 기준시료의 항균제 첨가효과 적용범위는 0.5 % (w/w) 이상의 시험편을 작용하는 것이 항균력 평가 결과 균 감소량에 재현성 있는 적용범위 선정이 가능함을 알 수 있었다.

• Bulletin of the Korean Chemical Society
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• 제33권12호
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• pp.3987-3992
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• 2012

Silver nanopowders were prepared from silver 2-ethylhexylcarbamate (Ag-EHCB) complexes by simple thermal reduction at $85^{\circ}C$ without any reducing agent in organic solvent. 2-Ethylhexylammonium 2-ethylhexylcarbamate (EHAEHC) was investigated in terms of their abilities to stabilize the silver nanoparticles (Ag-NPs) and its subsequent effects on the preventing aggregation between Ag-NPs. Conditions (concentration of stabilizer and reaction time) used to reduce Ag-EHCB complex were systematically varied to determine their effects on the sizes of Ag-NPs. The formation of the stabilized Ag-NPs were easily monitored by UV-vis spectroscopy and characterized by TGA, TEM, SEM and XRD. When EHAEHC was used as a stabilizer, Ag-NPs of 10-30 nm in diameter were easily obtained in high yield. Silver patterns were obtained from a silver nano-paste by heat treatment at $200^{\circ}C$ in air and were found to have resistivity values of $2.9{\times}10^{-8}\;{\Omega}{\cdot}m$.

• Bulletin of the Korean Chemical Society
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• 제31권5호
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• pp.1252-1256
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• 2010

A polyvinylpyrrolidone (PVP)/Ag nanocomposites was prepared by the simultaneous thermal reduction and radical polymerization route. The in situ synthesis of the Ag/PVP nanocomposites is based on the finding that the silver n-propylcarbamate (Ag-PCB) complex can be directly dissolved in the NVP monomer, and decomposed by only heat treatment in the range of 110 to $130^{\circ}C$ to form silver metal. Silver nanoparticles with a narrow size distribution (5 - 40 nm) were obtained, which were well dispersed in the PVP matrix. A successful synthesis of Ag/PVP nanocomposites then proceeded upon heat treatment as low as $110^{\circ}C$. Moreover, important advantages of the in situ synthesis of Ag/PVP composites include that no additives (e.g. solvent, surface-active agent, or reductant of metallic ions) are used, and that the stable silver nanocolloid solution can be directly prepared in high concentration simply by dissolving the Ag/PVP nanocomposites in water or organic solvent.

• Bulletin of the Korean Chemical Society
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• 제33권2호
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• pp.483-488
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• 2012

We successfully decorated multi-wall carbon nanotubes (MWNTs) with silver by reacting Ag-NPs with thiolfunctionalized MWNT-SH. Ag alkylcarbamate complex was used as an Ag precursor. Uniform Ag-NPs (5-10 nm) were effectively prepared by microwaving within 60 s using 1-amino-4-methylpiperazine (AMP), which acts as a reaction medium, reducing agent, and stabilizer. The MWNTs were functionalized with 2-aminoethanethiol. Exploiting the chemical affinity between thiol and Ag-NPs, Ag-MWNT nanohybrids were obtained by spontaneous chemical adsorption of MWNT-SH to Ag through Ag-S bonds. The Ag-S-MWNTs were characterized by TGA, XRD, and TEM to confirm that Ag-NPs were uniformly decorated onto the MWNTs. The Ag-S-MWNTs were then employed as conducting filler in epoxy resin to fabricate electrically conducting polymer composites. The electrical properties of the composites were measured and compared with that containing MWNT-SH. The electrical conductivity of composites containing 0.4 wt % Ag-S-MWNT was four orders of magnitude higher than those containing same content of MWNT-SH, confirming Ag-S-MWNT as an effective conducting filler.

• 한국분말재료학회지
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• 제12권1호
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• pp.56-63
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• 2005

Ag powder was prepared from $AgNO_3$ by wet chemical reduction method using various reduction agent system involving $AgNO_3$, $AgNO_2$(AgCl) and Ag complex ion aqueous solution. The pure Ag powder could be prepared regardless of reaction system but the particle shape and distribution were affected very much according to the kind of reduction agents and reaction systems. The optimum reaction system for the preparation of the silver powder having the uniform particle shape and size distribution was Ag complex ion aqueous solution-reduction agent system and in particular, $H_2O_2$ and $C_6H_8O_6$as a reduction agent leaded the more uniform particle shape and size distribution.

• 한국세라믹학회지
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• 제41권9호
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• pp.670-676
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• 2004

플라즈마 디스플레이(Plasma Display Panel)의 도전성 전극 성형에 필요한 잉크젯용 은 나노 졸을 합성하고자, 액상 환원법에 의해 고농도의 은 나노 졸의 입자크기 및 입도분포와 분산성을 제어하였다 이를 위하여 생성된 입자에 분산성을 부여하는 고분자 전해질의 착체형성 비율과 함께 은 나노 졸의 고농도화를 진행하였다. 합성된 졸은 XRD, 입도분포측정기, TEM을 사용하여 상분석 및 입자의 크기와 형상을 관찰하였다 그 결과 분산성이 우수하고, 약 10nm의 입자크기를 갖는 은 나노 졸인 것을 확인할 수 있었으며, 10-40wt% 범위의 고농도 은 나노 졸을 합성할 수 있었다.