第 11 期                    王   娜，等:  壳聚糖基阻燃剂制备及其在防火涂层中应用                                 ·1973·


                 et al.  Preparation  of degraded chitosan flame retardant containing   [15] Guo Junhong (郭军红), Guo Yongliang (郭永亮), Mu Bo (慕波),
                 phosphorus and its application in the treatment of linen fabric[J].   et al.  Preparation  and flame retardant performance of DOPOHM/
                 Fine Chemicals (精细化工), 2015, 32(4): 461-465.      acrylic resin composites[J]. Fine Chemicals(精细化工), 2017, 34(2):
            [8]   Liu Xiaodong, Gu Xiaoyu, Sun Jun,  et al. Preparation and   138-145.
                 characterization of chitosan derivatives and their application as flame   [16] Wang  Zhiguo  (王志国), Liang Bing (梁兵). Synthesis of a new
                 retardants in thermoplastic polyurethane[J]. Carbohydrate Polymers,   phosphorus-nitrogen flame retardant GAP-DOPO and its flame
                 2017, 167: 356-363.                               retardant performance for epoxy resin[J]. Fine Chemicals(精细化工),
            [9]   Wang Bibo, Qian Xiaodong, Shi Yongqian,  et al. Cyclodextrin   2017, 34(4): 382-388.
                 microencapsulated ammonium polyphosphate: preparation and its   [17]  Gu Liqiang, Chen Guoan, Yao  Youwei.  Two novel phosphorus-
                 performance on the thermal, flame retardancy  and mechanical   nitrogen-containing halogen-free flame retardants of high performance
                 properties of ethylene vinyl acetate copolymer[J]. Composites Part B   for epoxy resin[J]. Polymer Degradation and Stability, 2014, 108:
                 Engineering, 2015, 69(3): 22-30.                  68-75.
            [10]  Zheng Zaihang, Zhang Long, Liu Yan,  et al. A facile  and novel   [18]  Xiao Ling, Sun Dechao, Niu Tianli, et al. Syntheses and characterization
                 modification method  of  -cyclodextrin and its application in   of two novel 9, 10-dihydro-9-oxa-10-phosphaphenanthrene-10-oxide-
                 intumescent flame-retarding polypropylene with melamine phosphate   based flame retardants for epoxy resin[J]. High Performance Polymers,
                 and expandable graphite[J]. Journal of Polymer Research, 2016,   2014, 26(1): 52-59.
                 23(4): 74.                                    [19]  Wang Junsheng,  Wang Deyi, Liu Yun,  et al. Polyamide-enhanced
            [11]  Zhang Luchong,  Wu Wei, Li Jiahui,  et al. New insight into the   flame retardancy of ammonium polyphosphate on epoxy resin[J].
                 preparation of flame-retardant thermoplastic polyether ester utilizing   Journal of Applied Polymer Science, 2010, 108(4): 2644-2653.
                 -cyclodextrin as a charring agent[J]. High Performance  Polymers,   [20]  Luo Qinqin, Yuan Yanchao, Dong Chunlei, et al. High performance
                 2016, 29(4): 422-430.                             fire-retarded epoxy imparted by a novel phenophosphazine-containing
            [12]  Balabanovich A I. Thermal decomposition study of intumescent   antiflaming compound at ultra-low loading[J]. Materials Letters,
                 additives: pentaerythritol  phosphate and its blend with  melamine   2016, 169: 103-106.
                 phosphate[J]. Thermochimica Acta, 2005, 435(2): 188-196.   [21]  Jiao Chuanmei, Dong Juan, Chen Xilei,  et al. Influence of T31
            [13]  Bao Wenyi (鲍文毅), Xu Chen (徐晨), Song Fei (宋飞),  et al.   content on combustion and thermal degradation behaviors on flame-
                 Preparation and properties of cellulose/chitosan transparent films[J].   retardant epoxy composites[J]. Journal of Thermal Analysis and
                 Acta Polymerica Sinica (高分子学报), 2015, (1): 49-56.   Calorimetry, 2013, 114(3): 1201-1206.
            [14] Yuan Jianli (袁建丽), Qu Hao (屈皓), Liu Bingbing (刘冰冰), et al.   [22]  Guo Junhong (郭军红), Wang Xinyuan (王心远), Lu Fuyou (路富
                 Preparation of intumescent flame retardant by hydrolyzed starch as   有), et al. Preparation and properties of phosphorus-containing flame
                 the carbon source and its application[J]. New Chemical Materials (化  retardant waterborne polyurethane emulsion[J]. Fine Chemicals (精
                 工新型材料), 2016, 44(5): 154-156.                     细化工), 2015, 32(5): 578-582.

            （上接第 1955 页）                                           Bioelectronics, 2015, 71: 470-475.
                                                               [16]  Gupta V, Chaudhary N, Srivastava R. Luminscent graphene quantum
            [8]   Zhang Guanghua,  Zheng Hua, Guo  Mingyuan,  et al. Synthesis  of
                                                                   dots for organic photovoltaic devices[J]. Journal of the American
                 polymeric fluorescent brightener based on coumarin and its
                 performances on paper as light stabilizer, fluorescent brightener and   Chemical Society, 2011, 133(26) : 9960-9963.
                 surface sizing agent[J]. Applied Surface Science,  2016, 367:  167-   [17]  Li Yan, Hu  Yue, Zhao  Yang,  et al.  An electrochemical avenue to
                                                                   green-luminescent  graphene quantum dots as potential electron-
                 173.
            [9]   Yang Xudong, Yang Xue, Li Zhenyu, et al. Photoluminescent carbon   acceptors  for photovoltaics[J].  Advanced Materials, 2011, 23(6):
                 dots synthesized by microwave treatment for selective image of cancer   776-780.
                                                               [18]  Zhang Guanghua, Zheng Hua, Liu  Guojun,  et al. Synthesis and
                 cells[J]. Journal of Colloid & Interface Science, 2015, 456: 1-6.
            [10]  Liang Qinghua, Ma  Wangjing, Shi Yao,  et al. Easy synthesis of   application of a multifunctional fluorescent polymer  based on
                 highly fluorescent carbon quantum  dots from gelatin and their   coumarin[J]. Bioresources, 2015, 11(1): 373-384.
                 luminescent properties and applications[J]. Carbon, 2013, 60:   [19]  Tian Ruixue (田瑞雪). The surface groups regulation and properties
                 421-428.                                          research of carbon quantum dots[D]. Taiyuan: North University of
            [11]  Li Libo, Yu Bin, You Tianyan. Nitrogen and sulfur co-doped carbon   China(中北大学), 2014.
                 dots for highly selective and sensitive detection of Hg(Ⅱ) ions[J].   [20]  Hou Juying,  Tian Zhengbin, Xie Huizhi,  et al. A fluorescence
                 Biosensors & Bioelectronics, 2015, 74: 263-269.   resonance energy transfer sensor based on quaternized carbon dots
            [12]  Kong Weiguang, Wu Huizhen, Ye Zhenyu, et al. Optical properties of   and Ellman's test for  ultrasensitive detection of dichlorvos[J].
                 pH-sensitive carbon-dots with different modifications[J]. Journal of   Sensors & Actuators B Chemical, 2016, 232: 477-483.
                 Luminescence, 2014, 148: 238-242.             [21]  Zhong Dan, Zhuo Yan, Feng Yuanjiao, et al. Employing carbon dots
            [13]  Tian Jian, Leng Yanhua, Zhao Zhenhuan,  et al. Carbon quantum   modified with vancomycin for assaying gram-positive bacteria like
                 dots/hydrogenated TiO 2 nanobelt  hetero structures and their broad   staphylococcus aureus[J]. Biosensors  & Bioelectronics,  2015, 74:
                 spectrum photocatalytic properties under UV, visible, and   546-553.
                 near-infrared irradiation[J]. Nano Energy, 2015, 11: 419-427.     [22]  Pan Dengyu, Zhang Jingchun, Li Zhen,  et al. Observation of pH-,
            [14]    Alam  Al-Mahmnur, Liu  Yanan, Park Mira,  et al. Preparation and   solvent-, spin-, and excitation-dependent blue photoluminescence
                 characterization of optically transparent and  photoluminescent   from carbon nanoparticles[J]. Chemical Communications, 2010,
                 electrospun  nanofiber composed of carbon  quantum dots and   46(21): 3681-3683.
                 polyacrylonitrile blend with polyacrylic acid[J]. Polymer, 2015, 59:   [23]  Zhang Guanghua (张光华), Xu Hailong (徐海龙), Guo Jinge (郭锦
                 35-41.                                            鸽), et al. Synthesis and properties of new yellowing inhibitor with
            [15]  Barati Ali, Shamsipur Mojtaba, Abdollahi Hamid. Hemoglobin   fluorescence whitening[J]. CIESC Journal (化工学报), 2012, 63(10):
                 detection using carbon dots as a fluorescence probe[J]. Biosensors &   3358-3364.