Page 73 - 《精细化工》2021年第5期

P. 73

第 5 期贺非凡，等: KH560@ZnO 掺杂淀粉复合材料的制备及其抑菌特性 ·927·

bandages for wound dressing: In vitro and in vivo evaluation[J]. ACS Microwave hydrothermal synthesis and photocatalytic properties of
Applied Materials & Interfaces, 2012, 4(5): 2618-2629. ZnO-reduced graphene oxide nanocomposites[J]. Environmental
[5] CHEN X (陈枭), SHI Q (石倩), YANG L (杨乐), et al. Research Chemistry (环境化学), 2020, 39(2): 426-432.
progress in surface-modification and applications of nano zinc [16] LIU M Q (刘美琪), CHEN X Q (陈学青), WANG Z Y (王志彦), et
oxide[J]. Chemical Industry and Engineering Progress (化工进展), al. Preparation and infrared wave absorbing properties of Fe,
2018, 37(2): 621-627. Co-doped nano-ZnO materials[J]. Journal of Synthetic Crystals (人
[6] YUAN T F (苑腾飞), MA J X (马金霞). Preparation and application 工晶体学报), 2016, 45(12): 2785-2789.
of nano-sized zinc oxide/cellulose composites: A review[J]. Transactions [17] WU Y (吴跃), CHEN Z H(陈正行), LIN Q L (林亲录), et al.
of China Pulp and Paper (中国造纸学报), 2017, 32(4): 53-59. Retrogradation of long-shaped rice starch by FTIR spectra[J]. Journal
[7] EL SHAFEI A, ABOU-OKEIL A. ZnO/carboxymethyl chitosan of Jiangsu University: Natural Science Edition (江苏大学学报: 自
bionano-composite to impart antibacterial and UV protection for 然科学版), 2011, 32(5): 545-551.
cotton fabric[J]. Carbohydrate Polymers, 2011, 83(2): 920-925. [18] LIAN X J (连喜军), GUO J J (郭俊杰), LIU L Z (刘立增). The
[8] KOLODZIEJCZAK-RADZIMSKA A, JESIONOWSKI T. Zinc attribution of infrared peak of starch[J]. Food Processing (粮食加工),
oxide-from synthesis to application: A review[J]. Materials, 2014, 2015, 40(1): 43-45.
7(4): 2833-2881. [19] WU C (吴纯), YAN Y S (闫永思), WANG Y C (王昱程), et al.
[9] MOHAMMADI N A, ALIAS A K, MAHMUD S, et al. Study on ZnO/epoxy resin nanocomposites with antibacterial
Antimicrobial, rheological, and physicochemical properties of sago activity[J]. Plastics Science and Technology (塑料科技), 2020,
starch films filled with nanorod-rich zinc oxide[J]. Journal of Food 48(3): 25-29.
Engineering. 2012, 113(4): 511-519. [20] DHANALAKSHMI A, PALANIMURUGAN A, NATARAJAN B.
[10] CAI H (才红), CHEN Y (陈艳), XIE S J (谢绍坚). Preparation and Enhanced antibacterial effect using carbohydrates biotemplate of
surface modification of nano-sized ZnO[J]. Inorganic Chemicals ZnO nano thin films[J]. Carbohydrate Polymers, 2017, 168: 191-200.
Industry (无机盐工业), 2010, 42(6): 24-26. [21] MIU S Q (缪世群). The photoluminescence spectra and energy level
[11] ZHENG X F (郑兴芳). Research of influencing factors in preparing of ZnO films[J]. Journal of Nantong University (南通大学学报),
nanosized ZnO by hydrothermal method[J]. Chemical Industry Times 2003, 2(4): 25-28.
(化工时刊), 2010, 24(6): 50-53. [22] SHAIKH S K, INAMDAR S I, GANBAVLE V V, et al. Chemical
[12] SHE L J (佘利娟), HAN J X (韩静香), LIU B C (刘宝春). Surface bath deposited ZnO thin film based UV photoconductive detector[J].
modification of nanosized ZnO with silicane coupling agent[J]. Journal of Alloys and Compounds, 2016, 664: 242-249.
Chemical Industry Times (化工时刊), 2010, 24(6): 15-20. [23] VERMA S, DUTTA R K. Enhanced ROS generation by ZnO-
[13] LI Y X (李禹欣), HU F (胡飞). Synthesis and properties of starch ammonia modified graphene oxide nanocomposites for photocatalytic
substrate silver nanowires flexible transparent conductive films[J]. degradation of trypan blue dye and 4-nitrophenol[J]. Journal of
Fine Chemicals (精细化工), 2019, 36(10): 2101-2108. Environmental Chemical Engineering, 2017, 5(5): 4776-4787.
[14] WU D H(吴丹华),YU J(于杰),QIN S H(秦舒浩), et al. Preparation [24] SIRELKHATIM A, MAHMUD S, SEENI A, et al. Preferential
and characterization of silica sol with surface modification[J]. cytotoxicity of ZnO nanoparticle towards cervical cancer cells
Modern Chemical Industry(现代化工),2012,32(7):70-73. induced by ROS-mediated apoptosis and cell cycle arrest for cancer
[15] DENG X H (邓兴红), WU S S (伍水生), LI D G (李代光), et al. therapy[J]. Journal of Nanoparticle Research, 2016, 18(8): 1-17.

（上接第 906 页） [49] MCCLEMENTS D J, JAFARI S M. Improving emulsion formation,
[39] BELOUADI C, BLUM R, LORZ R. Successful air content control: stability and performance using mixed emulsifiers: A review[J].
Benefits to the papermaker-A chemical deaerator is described[J]. Advances in Colloid and Interface Science, 2018, 251: 55-79.
Plup and Paper Canada, 2001, 102: 66. [50] GALGOCI E C, CHAN S Y, YACOUB K. Innovative, Gemini-type
[40] TANG X L (唐晓磊), CAO T (曹添), XIE W (谢伟), et al. molecular defoamer technology for improved coating aesthetics[J].
Application comparison of fatty alcohol defoamer and polyether ester JCT Research, 2006, 3(1): 77-85.
defoamer in papermaking white water[J]. Paper Chemicals (造纸化 [51] ZHANG D L (张殿龙), QU W S (屈文山), LI Z (李哲). Surface
学品), 2013, 25(2): 35-38. activity and wetting ability of acetylenic glycols base Gemini
[41] GU X M (顾秀梅), ZHUANG Y L (庄耀礼), WANG B (王保), et al. surfactants[J]. Textile Auxiliaries (印染助剂), 2016, 33(4): 15-17.
Fatty alcohol defoamers are effective in making cultural paper[J]. [52] ZHAO J B ( 赵金榜 ). The status and development trend of
Paper and Paper Making (纸和造纸), 2007, (6): 22-23. antifoaming agent for water-based coatings in China[J]. Shanghai
[42] JIN L Z (金立忠), WANG D J (王东劲), GAO X L (高晓林). The Coatings (上海涂料), 2016, 54(6): 25-28.
application of a new defoamer in paper production[J]. China Pulp [53] The global defoamer market will reach 2.77 billion dollars in
&Paper Industry (中华纸业), 2010, 31(20): 66-68. 2015[J]. Word Pulp and Paper (国际造纸), 2011, 30(2): 67.
[43] LIU Y (刘杨), SHAN Z (单珍), CAO T (曹添). Development of [54] JIN X (金鑫), LIU Z L (刘祝兰), CAO Y F (曹云峰). Performance
fatty alcohol emulsion defoamer[J]. China Pulp &Paper (中国造纸), of the defoamers during floatation deinking[J]. Paper Chemicals (造
2018, 37(8): 19-23. 纸化学品), 2015, 27(5): 6-12.
[44] LI S Q (李少清). The preparation of defoaming agent and study in [55] CHEN J X (陈嘉翔). The stability of foam during flotation deinking
application of papermaking water[J]. Guangdong Chemical Industry and the problem of taking away fibers and fillers[J]. China Pulp &
(广东化工), 2015, 42(11): 1-2. Paper Industry (中华纸业), 2007, (2): 31-34.
[45] CHEN C Y (陈传勇). Application of compound defoamer in grey [56] LUO Q, DENG Y L, ZHU J Y, et al. Foam control using a foaming
board paper production[J]. Heilongjiang Pulp &Paper (黑龙江造纸), agent spray: A novel concept for flotation deinking of waste paper[J].
2020, 48(1): 11-14. Industrial & Engineering Chemistry Research, 2003, 42(15):
[46] QI W G (齐文刚), XU X (许贤), HUANG J F (黄继富). Preparation 3578-3583.
method and application of polyether modified organosilicon defoamer: [57] FAN L R (范利荣), HUANG S B (黄少斌), WANG X D (王旭东),
CN103819630A[P]. 2014-05-28. et al. Application of new defoamer in defoaming of deinking slurry
[47] FU R F (傅瑞芳). Application of auxiliaries in coating paper[J]. tank[J]. Paper Science & Technology (造纸科学与技术), 2007, (3):
Paper Science & Technology (造纸科学与技术), 2009, 28(6): 113-116. 47-48, 59.
[48] LIU D M (刘德明). Performance evaluation on the paper coating [58] YAO X P (姚献平), CHEN G R (陈根荣). Research and progress in
defoamers[J]. China Pulp &Paper Industry (中华纸业), 2019, 40(2): the field of paper chemicals[J]. Fine Chemicals (精细化工), 2013,
50-52. 30(4): 404-411.

68 69 70 71 72 73 74 75 76 77 78