[1] |
梅琳达, 温纳, 莫耶, 赵欢翻译. 废弃建筑孳生蚊媒疾病[J]. 环球科学, 2020(1):14-17. |
[2] |
MULYATNO K C, KOTAKI T, YOTOPRANOTO S, et al. Detection and serotyping of dengue viruses in Aedes aegypti and Aedes albopictus (Diptera: Culicidae) collected in surabaya, Indonesia from 2008 to 2015[J]. Jpn J Infect Dis,2018,71(1):58-61. |
[3] |
刘起勇. 我国登革热流行新趋势、防控挑战及策略分析[J]. 中国媒介生物学及控制杂志, 2020, 31(1):1-6. |
[4] |
KUEHN B M. Insect borne disease threat grows[J]. JAMA,2018,319(24):2471. |
[5] |
NEUHAUS E M, GISSELMANN G, ZHANG W Y, et al. Odorant receptor heterodimerization in the olfactory system of Drosophila melanogaster[J]. Nat Neurosci,2005,8(1):15-17. |
[6] |
AFIFY A, BETZ J F, RIABININA O, et al. Commonly used insect repellents hide human odors from Anopheles mosquitoes[J]. Curr Biol,2019,29(21):3669-3680.e5. |
[7] |
江炜, 郭亦欣. 关于驱蚊类产品 你还仅停留在花露水吗?: 化妆品领域驱蚊产品专利技术分析[J]. 中国化妆品, 2019(11):68-72. |
[8] |
ILIOU K, KIKIONIS S, PETRAKIS P V, et al. Citronella oil-loaded electrospun micro/nanofibrous matrices as sustained repellency systems for the Asian tiger mosquito Aedes albopictus[J]. Pest Manag Sci,2019,75(8):2142-2147. |
[9] |
PALUCH G, BARTHOLOMAY L, COATS J. Erratum: Mosquito repellents: a review of chemical structure diversity and olfaction[J]. Pest Manag Sci,2010,66(10):1155. |
[10] |
CARROLL S P, LOYE J. PMD, a registered botanical mosquito repellent with deet-like efficacy[J]. J Am Mosq Control Assoc,2006,22(3):507-514. |
[11] |
ZHU J J, CERMAK S C, KENAR J A, et al. Better than DEET repellent compounds derived from coconut oil[J]. Sci Rep,2018,8(1):14053. |
[12] |
REICHERT W, EJERCITO J, GUDA T, et al. Repellency assessment of Nepeta cataria essential oils and isolated nepetalactones on Aedes aegypti[J]. Sci Rep,2019,9(1):1524. |
[13] |
IIKURA H, TAKIZAWA H, OZAWA S, et al. Mosquito repellence induced by tarsal contact with hydrophobic liquids[J]. Sci Rep,2020,10(1):14480. |
[14] |
熊正燕, 张清约, 许春晖, 等. 几种植物精油对蚊虫的混配增效作用研究[J]. 化学工程与装备, 2019(9):13-15. |
[15] |
郁凯, 彭映辉, 申鸽, 等. 三种植物精油对致倦库蚊成蚊的熏蒸活性及其混配增效作用[J]. 农药学学报, 2014, 16(2):132-137. |
[16] |
ALI A, RADWAN M M, WANAS A S, et al. Repellent activity of carrot seed essential oil and its pure compound, carotol, against mosquitoes[J]. J Am Mosquito Control Assoc,2018,34(4):272-280. |
[17] |
BARRADAS T N, LOPES L M, RICCI-JÚNIOR E, et al. Development and characterization of micellar systems for application as insect repellents[J]. Int J Pharm,2013,454(2):633-640. |
[18] |
SHELOMI M. Who's afraid of DEET? Fearmongering in papers on botanical repellents[J]. Malar J,2020,19(1):1-3. |
[19] |
CILEK J E, PETERSEN J L, HALLMON C E. Comparative efficacy of IR3535 and deet as repellents against adult Aedes aegypti and Culex quinquefasciatus[J]. J Am Mosq Control Assoc,2004,20(3):299-304. |
[20] |
SCHRECK C E, POSEY K, SMITH D. Durability of permethrin as a potential clothing treatment to protect against blood-feeding arthropods[J]. J Econ Entomol,1978,71(3):397-400. |
[21] |
YANG L, RICHOUX G M, NORRIS E J, et al. Pyrethroid-derived acids and alcohols: bioactivity and synergistic effects on mosquito repellency and toxicity[J]. J Agric Food Chem,2020,68(10):3061-3070. |
[22] |
JONES P, PASK G, DAVID C, et al. Correction for Jones et al., Functional agonism of insect odorant receptor ion channels[J]. PNAS,2011,108(27):11298. |
[23] |
SUTHERLAND W J, BARDSLEY S, CLOUT M, et al. A horizon scan of global conservation issues for 2013[J]. Trends Ecol Evol,2013,28(1):16-22. |
[24] |
AGRAWAL N, MADDIKERI G L, PANDIT A B. Sustained release formulations of Citronella oil nanoemulsion using cavitational techniques[J]. Ultrason Sonochem,2017,36:367-374. |
[25] |
MOHD NARAWI M, CHIU H I, YONG Y K, et al. Biocompatible nutmeg oil-loaded nanoemulsion as Phyto-repellent[J]. Front Pharmacol,2020,11:214. |
[26] |
MISNI N, NOR Z M, AHMAD R. Repellent effect of microencapsulated essential oil in lotion formulation against mosquito bites[J]. J Vector Borne Dis,2017,54(1):44-53. |
[27] |
RIBEIRO A D, MARQUES J, FORTE M, et al. Microencapsulation of Citronella oil for solar-activated controlled release as an insect repellent[J]. Appl Mater Today,2016,5:90-97. |
[28] |
FORGEARINI J C, MICHALOWSKI C B, ASSUMPÇÃO E, et al. Development of an insect repellent spray for textile based on permethrin-loaded lipid-core nanocapsules[J]. J Nanosci Nanotechnol,2016,16(2):1301-1309. |
[29] |
BALAJI A P B, MISHRA P, SURESH KUMAR R S, et al. Nanoformulation of poly(ethylene glycol) polymerized organic insect repellent by PIT emulsification method and its application for Japanese encephalitis vector control[J]. Colloids Surf B Biointerfaces,2015,128:370-378. |
[30] |
KARR J I, SPEAKER T J, KASTING G B. A novel encapsulation of N, N-diethyl-3-methylbenzamide (DEET) favorably modifies skin absorption while maintaining effective evaporation rates[J]. J Control Release,2012,160(3):502-508. |
[31] |
SONGKRO S, HAYOOK N, JAISAWANG J, et al. Investigation of inclusion complexes of Citronella oil, citronellal and citronellol with β-cyclodextrin for mosquito repellent[J]. J Inclusion Phenom Macrocycl Chem,2012,72(3-4):339-355. |
[32] |
吴迪, 张小勤, 侯君波, 等. 一种基于主客体识别的长效无刺激驱避剂[J]. 高分子材料科学与工程, 2019, 35(8):144-149. |
[33] |
SHARMA R, KUMAR N, SINGH S P, et al. Ecofriendly ethyl cellulose microsponges of Citronella oil: preparation, characterization and evaluation of cytotoxicity and larvicidal assay[J]. Curr Pharm Biotechnol,2020,21(4):341-351. |
[34] |
CIERA L, BELADJAL L, VAN LANDUYT L, et al. Electrospinning repellents in polyvinyl alcohol-nanofibres for obtaining mosquito-repelling fabrics[J]. R Soc Open Sci,2019,6(8):182139. |
[35] |
SIBANDA M, FOCKE W, BRAACK L, et al. Bicomponent fibres for controlled release of volatile mosquito repellents[J]. Mater Sci Eng C Mater Biol Appl,2018,91:754-761. |
[36] |
XIANG C H, ETRICK N R, FREY M W, et al. Structure and properties of polyamide fabrics with insect-repellent functionality by electrospinning and oxygen plasma-treated surface coating[J]. Polymers,2020,12(10):2196. |
[37] |
DIMITROULOPOULOU C, TRANTALLIDI M, CARRER P, et al. EPHECT II: Exposure assessment to household consumer products[J]. Sci Total Environ,2015,536:890-902. |