Page 147 - 《精细化工》2022年第8期

P. 147

第 8 期张勇，等: 紫薇果实挥发油提取工艺、化学成分及抗菌活性 ·1647·

化合物的开发利用提供了参考。 Research, 2022, 36(8): 2145-2148.
[15] RATANASUMARN N, CHITPRASERT P. Cosmetic potential of
参考文献： lignin extracts from alkaline-treated sugarcane bagasse: Optimization
of extraction conditions using response surface methodology[J].
[1] ZHANG Y (张颖), XU J Q (许俊强), LI X (李翔), et al. Research International Journal of Biological Macromolecules, 2020, 153:
progress on antibacterial components of aromatic plant volatile oil[J]. 138-145.
South China Agriculture (南方农业), 2015, 9(22): 69-72. [16] WANG S S (王舒舒), ZHANG Y D (张议丹), SHI H G (石宏刚), et
[2] MILADINOVID L, DIMITRIJEVI M V, MIHAJILOV-KRSTEV T al. Optimization of Candida rugosa lipase-catalyzed synthesis of
M, et al. The significance of minor components on the antibacterial lignosterol oleate by response surface methodology[J]. Fine Chemicals
activity of essential oil via chemometrics[J]. LWT-Food Science and (精细化工), 2021, 38(10): 2090-2095.
Technology, 2021, 136(2): 110305. [17] WANG T Y (王桃云), JIANG W N (蒋伟娜), HU C Y (胡翠英), et al.
[3] MARTIM J K P, MARANHO L T, COSTA-CASAGRANDE T A. Research on extraction, chemical composition and bacterial inhibition
Review: Role of the chemical compounds present in the essential oil activity of volatile oils from Brassica chinensis[J]. Journal of the
and in the extract of Cordia verbenacea DC as an anti-inflammatory, Chinese Cereals and Oils Association (中国粮油学报), 2017, 32(3):
antibacterial and healing product[J]. Journal of Ethnopharmacology, 81-87.
2021, 265: 113300. [18] GAO H R (高海荣), WANG Y X (王亚鑫), XIE C (谢晨), et al.
[4] LI Y Q, KONG D X, WU H. Analysis and evaluation of essential oil Comparison and analysis of chemical components and their antibacterial
components of cinnamon barks using GC-MS and FTIR spectroscopy[J]. activity of essential oils from three artemisia plants modern food
Industrial Crops and Products, 2013, 41: 269-278. science and technology[J]. Modern Food Science and Technology
[5] XUE S J (薛淑娟), YANG J K (杨江凯), CHEN S Q (陈随清). (现代食品科技), 2020, (1): 262-268.
Analysis of chemical constitutions of volatile oil in Opisthopapus [19] NASSIM B, BACHRA K, MOHAMMAD H. Antioxidant, antibacterial,
taihangensis by GC-MS combined with retention index[J]. Chinese and cytotoxic activities of Cedrusatlantica organic extracts and essential
Journal of Experimental Traditional Medical Formulae (中国实验方 oil[J]. European Journal of Integrative Medicine, 2021, 42: 101292.
剂学杂志), 2021, 22: 1-11. [20] ALTEMIMI A, CHOUDHARY R, WATSON D G, et al. Effects of
[6] HUANG L S (黄罗生), GU Y F (顾燕飞), LI H (李红). Advances in ultrasonic treatments on the polyphenol and antioxidant content of
herbal volatile oil and aromatic herbs[J]. China Journal of Chinese spinach extracts[J]. Ultrasonics Sonochemistry, 2014, 24: 247-255.
Materia Medica (中国中药杂志), 2009, 34(12): 1605-1611. [21] ZHENG Z H (郑哲浩), YU C (禹宸), QIU L Y (邱林燕), et al.
[7] LI J (李杰), ZHU D X (朱丹霞), YU P (余平), et al. Chemical Microwave-ultrasound assisted extraction process optimization of
components and antibacterial activities of essential oils of Artemisia perilla essential oil and its antibacterial activity[J]. Journal of the
Verlotorum and Artemisia Argyi from Tangyin county[J]. Fine
Chemicals (精细化工), 2022, 39(2): 330-336. Chinese Cereals and Oils Association (中国粮油学报), 2022, 37(1):
[8] Delectis Florae Reipublicae Popularis Sinicae Agendae Academiae 115-121, 141.
Sinicae Edita ( 中国科学院中国植物志编辑委员会 ). Flora [22] WANG C Y (王彩云), WANG C S (王春胜), ZENG J (曾杰).
reipublicae popularis sinicae[M]. Beijing: Science Press (科学出版 Optimizing techniques for essential oil extraction from Betula alnoides
社), 1983: 92-96. barks[J]. China Forest Products Industry (林产工业), 2020, 57(8):
[9] LIU Y S, ZETTER R, FERGUSON D K, et al. Lagerstroemia 33-36.
(Lythraceae) pollen from the Miocene of eastern China[J]. Grana, [23] PU Y X (普义鑫), ZHOU W H (周文化), JIANG A M (蒋爱民), et
2008, 47(4): 262-271. al. Optimization of conditions to extract polyphenol of arecanut
[10] CHEN Y, LI S W, YIN F Z, et al. Lagerindicine, a new pyrrole using response surface methodology[J]. Chinese Agricultural Science
alkaloid isolated from the flowers of Lagerstroemia indica Bulletin (中国农学通报), 2010, 26(12): 334-338.
Linnaeus[J]. Natural Products and Bioprospecting, 2021, (11): 73-79. [24] ZHAO E L (赵二劳), LI R P (栗瑞萍), JIA N (贾楠), et al.
Optimization of ultrasound-assisted extraction of polyphenols from
[11] LIU C H (刘春花)，PAN J (潘洁)，SUN J (孙佳), et al. Quality control
flaxseed meal by response surface methodology[J]. China Oils and
method for different parts of Lagerstroemia indica[J]. Chinese
Journal of Experimental Traditional Medical Formulae (中国实验方 Fats (中国油脂), 2015, 40(8): 77-80.
剂学杂志), 2018, 24(9): 64-69. [25] ZHANG Y P (张应鹏), YANG Y S (杨云裳), LIU Y (刘宇), et al.
[12] AJAIB M, AROOJ T, KHAN K M, et al. Phytochemical, antimicrobial Study on chemical composition and antibacterial activity of essential
and antioxidant screening of fruits, bark and leaves of Lagerstroemia oil from tibetan folk medicine Swertia mussotii franch[J]. Lishizhen
indica[J]. Journal of the Chemical Society of Pakistan, 2016, 38(3): Medicine and Materia Medica Research (时珍国医国药), 2009,
2016-2538. 20(3): 595-597.
[13] HE X J (何晓佳), LIU S J (刘少静), PAN M C (潘美驰), et al. [26] BORCHMAN D, YAPPERTM C, MILLINERS E, et al. Confirmation
Research progress on chemical constituents and pharmacological of the presence of squalene in human eyelid lipid by heteronuclear
activities of Lagerstroemia indica[J]. Chemical Engineer (化学工程 single quantum correlation spectroscopy[J]. Lipids, 2013, 48: 1269-1277.
师), 2021, (10): 43-47. [27] ZHOU B L (周宝利), LI N (李娜), LIU S S (刘双双), et al. Effects of
[14] WEI Q, LIU R J. Flower colour and essential oil compositions, 2,4-di-tert-butylphenol on tomato leaf mould and seedling growth[J].
antibacterial activities in Lagerstroemia indica L.[J]. Natural Product Chinese Journal of Ecology (生态学杂志), 2013, 32(5): 1203-1207.

142 143 144 145 146 147 148 149 150 151 152