• 농업과학연구
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• 제10권1호
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• pp.156-165
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• 1983

태양열(太陽熱)을 이용(利用)한 silica gel의 활용(活用)에 대(對)한 기초자료(基礎資料)를 얻고자, silica gel을 이용(利用)한 양파의 건조특성(乾燥特性)과, 공기(空氣)의 제습효과(除濕效果)를 구명(究明)하고, 건조제(乾燥劑)로서의 재사용(再使用)을 위(爲)하여 실험(實驗)한바, 그 결과(結果)를 요약(要約)하면 다음과 같다. 1. 외기온도(外氣溫度) $30^{\circ}C$, 상대습도(相對濕度) 55% 내외(內外)에서 포화(飽和)silica gel을 수분함량(水分含量) 8%까지 재생(再生)시키는데 14시간(時間) 소요(所要)되었다. 2. 집열기(集熱器)를 재순환(再循環)시켜 건조(乾燥)한 결과(結果), 노천건조(露天乾燥)보다 1/2정도(程度) 시간(時間)이 단축(短縮)되었다. 3. 실험기간중(實驗期間中) 집열기(集熱器)의 평균효율(平均效率)은 25%였다. 4. 건조실(乾燥室)을 이용(利用)한 송풍건조시(送風乾燥時), 갈변도(褐變度)가 1/2로 감소(減少)되었다.

• 한국식품과학회지
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• 제36권2호
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• pp.361-364
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• 2004

은 이온이 불포화 지방산과의 착화합물을 만든다는 이론에 근거하여 은 이온 교환수지(SER)를 제조하였다. 제조한 SER을 비롯하여 silica gel, 질산은 함침 silica gel, 은 이온 제올라이트를 column 충전물로 사용하여 EPA와 DHA를 분리 농축하고 그 결과를 비교 분석하였다. SER과 silica gel의 9 : 1(w/w)혼합물을 충전물로 사용하였을 때 결과가 가장 좋았으며 이 경우 EPA와 DHA는 각각 27.9%와 49.1%로 농축되었고 수율은 각각 86.0%, 87.3%로 나타났다. SER만을 사용한 경우 EPA와 DHA는 각각 23.5%와 42.1%로 농축되었으며 이는 SER과 silica gel의 혼합 충전물 사용 시 보다 다소 낮은 결과이었다. 질산은 함침 silica gel의 경우 다른 충전물과 비교하여 농축율과 수율이 그다지 좋지 않았으나 EPA와 DHA의 분리 측면에서는 가장 우수한 결과를 나타내었다. SER은 재사용이 가능하고, 사용한 은 이온수지 자체도 쉽게 재생할 수 있을 뿐 아니라 사용한 은 이온도 AgCl 침전이나 $AgNO_3$로 회수가 용이하다는 점에서 다른 농축과정과 비교하여 훨씬 경제적이라 할 수 있다.

• 한국세라믹학회지
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• 제30권3호
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• pp.169-174
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• 1993

The porous silica glass prepared by the sol-gel method from the mixed solution of Si(OCH3)4, H2O, HCl and CH3OH with HCONH2 as a DCCA (Drying Control Chemical Additives). For investigation the characteristics of gels and glasses, we examined gels and glasses using TG-DTA, XRD, IR, SEM and porosimeter. The more content of formamide in the mixed solution increased, the more pore size and porosity of gel increased. In the excess formamide added gel, the properties of pore of gel were not so changed. The porous silica glass was prepared from the dry gel after heat treatment at 75$0^{\circ}C$. Porosity and mean pore size of the porous silica glass was 17~25% and 40~60$\AA$ relatively.

• 한국세라믹학회지
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• 제36권11호
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• pp.1189-1197
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• 1999

Low-density silica gel monolith was synthesized at ambient pressure by surface modification with TMCS and sub-sequent heat treatment. The mechanical thermal and optical properties of gel were studied. Compressive strength and modulus of compression of 350$^{\circ}C$-heated gel with the density of 0.24g/cm3 were 250kPa and 0.2MPa respectively. The thermal conductivity of silica gels synthesized at ambient pressure exhibited 0.02 W/m$.$K for the density of 0.24g/cm3 which is similar to that of the gel via supercritical drying and their main thermal transfer mechanism is considered to be solid and radiation conduction at room temperature. Ambient-dried silica gels were transparent blue showing about 60% of transmittance in the wavelength of 1500-2100nm and typical absorption bands of existing bonds under heat treatment at 350$^{\circ}C$. Medium scale monolity(${\Phi}$=50mm) at ambient pressure could be successfully prepared through total 5-month process period.

• Journal of the Korean Wood Science and Technology
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• 제30권3호
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• pp.12-17
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• 2002

The extracellular invertase (EC 3.2.1.26) (Candida utilis) preparation was obtained from the liquid medium after desalting and freeze drying. This prepared enzyme was used for the comparative purification on 4 activated matrices by liquid column affinity chromatography method. In this method there were used controlled porous glass (CPG) silanized covalently activated by keratin, silanized silica gel and silica gel covalently covered by keratin. It was found that the invertase purification process was better using both CPG matrices (silanized CPG and keratin activated CPG) than these with two silica gel supports. Also the elution coefficient of the invertase from the two CPG columns was about 93 to 94%. Two silica gel supports found to be superior in terms of purification efficiency. The invertase purification process was confirmed by PAGE electrophoresis.

• 한국세라믹학회지
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• 제24권5호
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• pp.437-446
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• 1987

In this study the attempts were made to investigate the possibilities of using domestic clay minerals and zeolite, which are available in almost unlimitted quantities, for preparation of aluminum sulfate, white carbon and silica gel. Aluminum sulfate was obtained by the method of sulfuric acid treatment. White carbon and silica gel were prepared by utilizing crystalline silica which was obtained as a by product during preparing the aluminum sulfate. White carbon was obtained by reacting 5.0 weight percent sulfuric acid solution with water glass which was a reaction product of crystalline silica and soldium hydroxide in a autoclave, while silica gel was obtained by reaction 10.0 weight percent acetic acid solution with water glass.

• Bulletin of the Korean Chemical Society
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• 제25권1호
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• pp.63-68
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• 2004

Sugar-based gelator p-dodecanoyl-aminophenyl- ${\beta}$-D-aldopyranosides (1-3) have been shown to self-assemble in the presence of p-aminophenyl aldopyranosides. The hydrogel 1+4 showed the double-helical structure with 3-25 nm outer diameters, which is quite different from that of 1. The gel 2+5 revealed twisted ribbon structure with 30-50 nm in widths and a few micrometers of length whereas the gel 3+4 revealed the single and the bundled fiber structures. The difference in these gel supramolecular structures has successfully been transcribed into silica structures by sol-gel polymerization of tetraethoxysilane (TEOS), resulting in the doublehelical, the twisted-ribbon, the single and the multiple (lotus-shaped) hollow fiber structures. These results indicate that novel silica structures can be created by transcription of various superstructures formed in binary gels through the hydrogen-bonding interaction, and the amino group of the p-aminophenyl aldopyranosides acts as an efficient driving force to create novel silica nanotubes. Furthermore, electron energy-loss spectroscopy (ELLS) provided strong evidence for the inner hollow structure of the double-helical silica nanotube. This is a novel and successful example that a variety of new silica structures can be created using a library of carbohydrate gel fibers as their templates.

• 한국산학기술학회논문지
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• 제15권4호
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• pp.2519-2525
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• 2014

물유리와 염산의 졸-겔반응에 계면활성제(PEG와 HPC)를 첨가하여 비표면적이 $800m^2/g$ 이상인 다공성 실리카를 제조하는 공정에 대해 연구하였다. 졸-겔 반응의 부산물인 NaCl은 물로서 세척하여 제거하였으며, 실리카 습윤겔 50 g에 대해 200 ml의 물을 사용하여 3회 이상 세척할 경우 실리카겔에 잔류하는 NaCl은 0.81wt% 이하로 감소하였다. 계면활성제는 실리카에 대해 5% 미만을 사용하는 것이 적정 조건으로 나타났다. 실험 결과, HPC(2.5%)+PEG(2.5%)의 계면활성제를 첨가하여 제조한 실리카의 비표면적은 $860m^2/g$, 입경은 $20-50{\mu}m$으로 나타났다. 본 연구결과, 실리카의 겔화공정이나 건조공정에서 단지 계면활성제를 주입하여 비표면적을 향상시키고 균일한 입경의 실리카를 얻을 수 있다는 것은 공업적으로 매우 큰 의미가 있다고 생각된다.

• 한국재료학회지
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• 제25권4호
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• pp.209-213
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• 2015

Synthesis of nano-silica using water glass in a Sol-Gel process is one of several methods to manufacture nano-silica. In nano-silica synthesized from water glass, there are various metal impurities. However, synthesis of nano-silica using water glass in a Sol-Gel process is an interesting method because it is relatively simple and cheap. In this study, nano-silica was synthesized from water glass; we investigated the effect of pH on the synthesis of nano-silica. The morphology of the nanosilica with pH 2 was flat, but the surface of the nano-silica with pH 10 had holes similar to small craters. As a result of ICP-OES analysis, the amount of Na in the nano-silica with pH 2 was found to be 170 mg/kg. On the other hand, the amount of Na in the nano-silica with pH 10 was found to be 56,930 mg/kg. After calcination, the crystal structure of the nano-silica with pH 2 was amorphous. The crystal structure of the nano-silica with pH 10 transformed from amorphous to tridymite. This is because elemental Na in the nano-silica had the effect of decreasing the phase transformation temperature.

• 한국세라믹학회지
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• 제28권4호
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• pp.324-328
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• 1991

Monolithic silica gel and glass were prepared from TMOS solution with high concentration of HCl. Appearance of the dried gels and gelation time varied with content of HCl and H2O were observed in the TMOS-CH3OH-HCl-H2O system. The conversion from gel to glass during heat treatment stage was investigated using TG-DTA, XRD, IR and SEM and characteristics of the gel were examined by measuring bulk density, linear shrinkage and Vicker's hardness. A transparent silica glass was prepared from the gel after heat treatment at 1050℃.