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This study presents a technique for adsorption of paclitaxel on Sylopute using ultrasonic cavitation bubbles and gas bubbles. Compared with the conventional adsorption (control), the adsorbed amount and adsorption rate constant increased, respectively...
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RISS 인기검색어
Ultrasonic cavitation bubble- and gas bubble-assisted adsorption of paclitaxel from Taxus chinensis onto Sylopute
한글로보기https://www.riss.kr/link?id=A107883122
- 저자
- 발행기관
- 학술지명
- 권호사항
-
발행연도
2021
-
작성언어
English
- 주제어
-
등재정보
KCI등재,SCIE,SCOPUS
-
자료형태
학술저널
- 발행기관 URL
-
수록면
2286-2293(8쪽)
-
KCI 피인용횟수
0
- DOI식별코드
- 제공처
- 소장기관
-
0
상세조회 -
0
다운로드
부가정보
다국어 초록 (Multilingual Abstract)
This study presents a technique for adsorption of paclitaxel on Sylopute using ultrasonic cavitation bubbles and gas bubbles. Compared with the conventional adsorption (control), the adsorbed amount and adsorption rate constant increased, respectively, by 1.27-1.44 times and 7.44-9.71 times in ultrasonic adsorption (with mixing at 80-250W), 1.14-1.27 times and 4.63-9.31 times in ultrasonic adsorption (without mixing at 80-250 W), and 1.06-1.19 times and 1.18-1.34 times in gas bubble-adsorption (without mixing at 1.15-9.41 L/min). As a result of investigating the adsorption mechanism in which cavitation bubbles were introduced, it was shown that microjets and shock waves produced by bubble collapse, rather than the bubble itself, drastically improve mass transport in the pores of the adsorbent, thereby completely eliminating intraparticle diffusion resistance. In the case of gas bubbles, although the intraparticle diffusion coefficient increased by 1.34-1.75 times compared with the control, there was a limitation in promoting intraparticle diffusion.
This study presents a technique for adsorption of paclitaxel on Sylopute using ultrasonic cavitation bubbles and gas bubbles. Compared with the conventional adsorption (control), the adsorbed amount and adsorption rate constant increased, respectively, by 1.27-1.44 times and 7.44-9.71 times in ultrasonic adsorption (with mixing at 80-250W), 1.14-1.27 times and 4.63-9.31 times in ultrasonic adsorption (without mixing at 80-250 W), and 1.06-1.19 times and 1.18-1.34 times in gas bubble-adsorption (without mixing at 1.15-9.41 L/min). As a result of investigating the adsorption mechanism in which cavitation bubbles were introduced, it was shown that microjets and shock waves produced by bubble collapse, rather than the bubble itself, drastically improve mass transport in the pores of the adsorbent, thereby completely eliminating intraparticle diffusion resistance. In the case of gas bubbles, although the intraparticle diffusion coefficient increased by 1.34-1.75 times compared with the control, there was a limitation in promoting intraparticle diffusion.
참고문헌 (Reference)
1 A. M. L. Seca, 19 : 263-, 2018
2 K. Wohlgemuth, 64 : 4155-, 2009
3 L. Wolloch, 148 : 204-, 2010
4 H. S. Shin, 51 : 917-, 2016
5 J. B. Ji, 13 : 463-, 2006
6 M. Ondarts, 343 : 163-, 2018
7 Y. S. Kim, 130 : 104-, 2019
8 R. Krishna, 87 : 455-, 2000
9 S. H. Pyo, 1123 : 15-, 2006
10 H. W. Seo, 87 : 238-, 2019
1 A. M. L. Seca, 19 : 263-, 2018
2 K. Wohlgemuth, 64 : 4155-, 2009
3 L. Wolloch, 148 : 204-, 2010
4 H. S. Shin, 51 : 917-, 2016
5 J. B. Ji, 13 : 463-, 2006
6 M. Ondarts, 343 : 163-, 2018
7 Y. S. Kim, 130 : 104-, 2019
8 R. Krishna, 87 : 455-, 2000
9 S. H. Pyo, 1123 : 15-, 2006
10 H. W. Seo, 87 : 238-, 2019
11 S. H. Pyo, 39 : 1985-, 2004
12 Y. S. Lim, 115 : 261-, 2017
13 O. Hamdaoui, 10 : 109-, 2003
14 O. Hamdaoui, 16 : 15-, 2009
15 B. S. Schueller, 40 : 4912-, 2001
16 X. Zhou, 160 : 332-, 2016
17 J. Y. Lee, 103 : 8-, 2013
18 H. S. Kim, 56 : 163-, 2017
19 P. Maneechakr, 106 : 104-, 2017
20 O. Hamdaoui, 15 : 799-, 2008
21 F. C. Wu, 283 : 49-, 2005
22 조다님, "실로퓨트에 의한 아세나프텐 흡착에 관한 등온흡착식, 동역학 및 열역학적 특성" 한국화학공학회 58 (58): 127-134, 2020
23 박세훈, "실로퓨트에 의한 Taxus chinensis 유래 7-에피-10-디아세틸파클리탁셀의 흡착에 대한 평형, 등온흡착식, 동역학 및 열역학적 특성" 한국화학공학회 58 (58): 113-121, 2020
24 이충기, "식물세포배양으로부터 파클리탁셀 및 이의 반합성 전구체 10-디아세틸파클리탁셀의 분리 양상" 한국화학공학회 54 (54): 89-93, 2016
25 강회종, "Removal of residual chloroform from amorphous paclitaxel pretreated by alcohol" 한국화학공학회 36 (36): 1965-1970, 2019
26 Hoe-Jong Kang, "Removal of Residual Toluene and Methyl Tertiary Butyl Ether from Amorphous Paclitaxel by Simple Rotary Evaporation with Alcohol Pretreatment" 한국생물공학회 25 (25): 86-93, 2020
27 유경완, "Kinetics and Mechanism of Ultrasound-assisted Extraction of Paclitaxel from Taxus chinensis" 한국생물공학회 23 (23): 532-540, 2018
28 Hoe-Jong Kang, "Adsorption Kinetics, Mechanism, Isotherm, and Thermodynamic Analysis of Paclitaxel from Extracts of Taxus chinensis Cell Cultures onto Sylopute" 한국생물공학회 24 (24): 513-521, 2019
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분석정보
인용정보 인용지수 설명보기
학술지 이력
| 연월일 | 이력구분 | 이력상세 | 등재구분 |
|---|---|---|---|
| 2023 | 평가예정 | 해외DB학술지평가 신청대상 (해외등재 학술지 평가) | |
| 2020-01-01 | 평가 | 등재학술지 유지 (해외등재 학술지 평가) | |
| 2016-06-21 | 학술지명변경 | 한글명 : The Korean Journal of Chemical Engineering -> Korean Journal of Chemical Engineering외국어명 : The Korean Journal of Chemical Engineering -> Korean Journal of Chemical Engineering | |
| 2011-01-01 | 평가 | 등재학술지 유지 (등재유지) | |
| 2009-01-01 | 평가 | 등재학술지 유지 (등재유지) | |
| 2007-09-27 | 학회명변경 | 영문명 : The Korean Institute Of Chemical Engineers -> The Korean Institute of Chemical Engineers | |
| 2007-09-03 | 학술지명변경 | 한글명 : The Korean Journal of Chemical Engineeri -> The Korean Journal of Chemical Engineering외국어명 : The Korean Journal of Chemical Engineeri -> The Korean Journal of Chemical Engineering | |
| 2007-01-01 | 평가 | 등재학술지 유지 (등재유지) | |
| 2005-01-01 | 평가 | 등재학술지 유지 (등재유지) | |
| 2002-01-01 | 평가 | 등재학술지 선정 (등재후보2차) | |
| 1999-07-01 | 평가 | 등재후보학술지 선정 (신규평가) |  |
학술지 인용정보
| 기준연도 | WOS-KCI 통합IF(2년) | KCIF(2년) | KCIF(3년) |
|---|---|---|---|
| 2016 | 1.92 | 0.72 | 1.4 |
| KCIF(4년) | KCIF(5년) | 중심성지수(3년) | 즉시성지수 |
| 1.15 | 0.94 | 0.403 | 0.14 |
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