• 제목/요약/키워드: Bio-conversion

검색결과 300건 처리시간 0.033초

연교 추출물의 항산화활성 및 미백 효과 (Antioxidant Activity and Whitening Effect of Forsythiae Fructus Extracts)

  • 양서진;최태부
    • 한국약용작물학회지
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    • 제19권6호
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    • pp.472-477
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    • 2011
  • The Forsythiae Fructus is an oriental medicine containing various lignans. In this study, the Forsythiae Fructus were extracted by hot water (Sample 1), hot water after bio-conversion using Lactobacillus strain (Sample 2-LP2, 2-LA, 2-LC, 2-LL, 2-BL and 2-LM) and 70% ethanol (Sample 3). Total polyphenol and flavonoid contents were improved by bio-conversion process using Lactobacillus strain, compared to water extract. Especially, sample 2-LL and 2-LA which had shown the high total polyphenol and flavonoid content in antioxidant activity. Also, sample 2-LL and 2-LA showed higher melanin generation inhibitory activity as of 55%, 53% in maximum extract concentration of $100{\mu}g/m{\ell}$. In the anti-inflammation test of the Forsythiae Fructus extracts, nitric oxide (NO) synthesis was inhibited. Specially, both 70% Forsythiae Fructus ethanol extract and sample 2-BL which have shown the relatively higher 1,1-diphenyl-2-picryl-hydrazyl (DPPH) radical scavenging and superoxide dismutase (SOD) like activities. In conclusion, the Forsythiae Fructus extracts with bio-conversion process has effect of skin whitening and anti-inflammation activity than other extracts. It could be used as a valuable materials for functional cosmetics.

Conversion of organic residue from solid-state anaerobic digestion of livestock waste to produce the solid fuel through hydrothermal carbonization

  • Yang, Seung Kyu;Kim, Daegi;Han, Seong Kuk;Kim, Ho;Park, Seyong
    • Environmental Engineering Research
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    • 제23권4호
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    • pp.456-461
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    • 2018
  • The solid-state anaerobic digestion (SS-AD) has promoted the development and application for biogas production from biomass which operate a high solid content feedstock, as higher than 15% of total solids. However, the digested byproduct of SS-AD can be used as a fertilizer or as solid fuel, but it has serious problems: high moisture content and poor dewaterability. The organic residue from SS-AD has to be improved to address these problems and to make it a useful alternative energy source. Hydrothermal carbonization was investigated for conversion of the organic residue from the SS-AD of livestock waste to solid fuels. The effects of hydrothermal carbonization were evaluated by varying the reaction temperatures within the range of $180-240^{\circ}C$. Hydrothermal carbonization increased the calorific value through the reduction of the hydrogen and oxygen contents of the solid fuel, in addition to its drying performance. Therefore, after the hydrothermal carbonization, the H/C and O/C atomic ratios decreased through the chemical conversion. Thermogravimatric analysis provided the changed combustion characteristics due to the improvement of the fuel properties. As a result, the hydrothermal carbonization process can be said to be an advantageous technology in terms of improving the properties of organic waste as a solid-recovered fuel product.

Enantioselective Recognition of Amino Alcohols and Amino Acids by Chiral Binol-Based Aldehydes with Conjugated Rings at the Hydrogen Bonding Donor Sites

  • Kim, Ji-Young;Nandhakumar, Raju;Kim, Kwan-Mook
    • Bulletin of the Korean Chemical Society
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    • 제32권4호
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    • pp.1263-1267
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    • 2011
  • Novel binol-based uryl and guanidinium receptors having higher ring conjugation at the periphery of the hydrogen bonding donor sites have been synthesized and utilized to study the enantioselective recognition of 1,2-aminoalcohols and chirality conversion of natural amino acids via imine bond formation. There is a remarkable decrease in the stereoselectivites as the conjugation increases at the periphery of hydrogen bonding donor sites. The guanidinium-based receptors show more selectivity towards the amino alcohol than that of the uryl based ones due to its charge reinforced hydrogen bonds. The conversion efficiency of L-amino acids to Damino acids by the uryl-based receptors is higher than that of the guanidinium-based ones.

Clean and Efficient Synthesis of Furfural From Xylose by Microwave-Assisted Biphasic System using Bio-Based Heterogeneous Acid Catalysts

  • Vo, Anh Thi Hoang;Lee, Hong-shik;Kim, Sangyong;Cho, Jin Ku
    • 청정기술
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    • 제22권4호
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    • pp.250-257
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    • 2016
  • As an attempt to replacing petroleum-based chemicals with bio-based ones, synthesis of furfural from biomass-derived xylose attracts much attention in recent days. Conventionally, furfural from xylose has been produced via the utilization of highly corrosive, toxic, and environmentally unfriendly mineral acids such as sulfuric acid or hydrochloric acid. In this study, microwave-assisted biphasic reaction process in the presence of novel bio-based heterogeneous acid catalysts was developed for the eco-benign and effective synthesis of furfural from xylose. The microwave was irradiated for reaction acceleration and a biphasic system consisting of $H_2O$ : MIBK (1 : 2) was designed for continuous extraction of furfural into the organic phase in order to reduce the undesired side products formed by decomposition/condensation/oligomerization in the acidic aqueous phase. Moreover, sulfonated amorphous carbonaceous materials were prepared from wood powder, the most abundant lignocellulosic biomass. The prepared catalysts were characterized by FT-IR, XPS, BET, elemental analysis and they were used as bio-based heterogeneous acid catalysts for the dehydration of xylose into furfural more effectively. For further optimization, the effect of temperature, reaction time, water/organic solvent ratio, and substrate/catalyst ratio on the xylose conversion and furfural yield were investigated and 100% conversion of xylose and 74% yield of furfural was achieved within 5 h at $180^{\circ}C$. The bio-based heterogeneous acid catalysts could be used three times without any significant loss of activity. This greener protocol provides highly selective conversion of xylose to furfural as well as facile isolation of product and bio-based heterogeneous acid catalysts can alternate the environmentally-burdened mineral acids.

산삼 부정배양근의 진세노사이드 함량 증진과 성분 변환 (Enhancement and Conversion of Ginsenoside Contents in Cultured Wild Ginseng Adventitious Root)

  • 김철중;최재후;오영선;성은수;임정대;유창연;이재근
    • 한국약용작물학회지
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    • 제28권6호
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    • pp.445-454
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    • 2020
  • Background: Culturing wild ginseng adventitious root using plant factory technology provides genetic safety and high productivity. This production technology is drawing attention in the fields of functional raw materials and product development. The cultivation method using elicitors is key technology for controlling biomass and increasing secondary metabolites. Methods and Results: Elicitor treatments using methyl jasmonate, pyruvic acid, squalene, β-sistosterol were performed to amplify total ginsenosides (Rb1, Rc, Rb2, Rb3, and Rd) of cultured wild ginseng adventitious root. Thereafter, fermentation and steaming processes were performed to convert total ginsenosides into minor molecular ginsenosides (Rg3, Rk1, and Rg5). The result indicated that methyl jasmonate minimizes the reduction in fresh weight of cultured wild ginseng adventitious root and maximizes total ginsenosides (sum of Rb1, Rc, Rb2, Rb3, and Rd). Ginsenoside conversion results showed a maximum degree of conversion of 131 mg/g. Conclusions: In this study, we demonstrated that the optimal elicitor treatment method increased the content of total ginsenosides, while the steaming and fermentation processing method increased the content of minor ginsenosides.

이산화탄소의 전기화학적 변환 (Electrochemical Conversion of Carbon Dioxide)

  • 송지은;신운섭
    • 전기화학회지
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    • 제12권2호
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    • pp.131-141
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    • 2009
  • 이산화탄소의 유용한 화합물로의 전환은 온실가스 증가로 인한 기후변화에 따른 환경문제의 해결 뿐 아니라 탄소원의 재활용이란 관점에서 무척 중요하다. 그러나 탄소화합물 중 가장 안정된 이산화탄소를 다른 유용한 화합물로 변환시키기 위해서는 에너지가 투입되어야 하고 효과적인 전환을 위하여 촉매의 개발 및 관련된 반응 조건의 확립이 필요하다. 본 총설에서는 그 동안 전기화학적으로 이산화탄소를 변환시킨 연구 내용들을 전극재료, 무기화합물, 효소를 이산화탄소의 환원 촉매로서 이용한 경우로 나누어 전체적으로 살펴보았다. 선택성이 좋고 효율적이며 안정성을 가진 촉매는 아직 개발되지 않은 상황이므로 앞으로 많은 연구가 진행되어야 할 분야이다.