Page 175 - 精细化工2020年第2期
P. 175

2+
             第 2 期                   贺娇娇,等:  高吸附量纤维素膜的制备及其对 Pb 的吸附性能                                  ·377·

            [23]  Mohamed M A, Salleh W N W, Jaafar J, et al. Feasibility of recycled   [35]  Xu  Lianlian  (徐莲莲).  Preparation  and  application  of  Canadian
                 newspaper  as  cellulose  source  for  regenerated  cellulose  membrane   Solidago cellulose membrane[D]. Shanghai: Donghua University (东
                 fabrication[J]. China Pulp & Paper Industry, 2015, 132(43): 1-10.     华大学), 2013.
            [24]  Xiong  X,  Duan  J.  Dissolution  and  application  of  cellulose  in   [36]  Xiong Bi (熊碧). Nuclear magnetic resonance study on the dissolution
                 NaOH/Urea aqueous solution[M]. New Jersey: John Wiley & Sons   mechanism  of  cellulose  in  alkali/urea  system[D].  Wuhan:  Wuhan
                 Inc, 2012: 205-240.                               University (武汉大学), 2014.
            [25]  Zhang  Shuai  (张帅).  Preparation  of  regenerated  cellulose  fiber  by   [37]  Nan Penglin (南鹏林), Zhang Weilei (张维磊), Zhao Yansheng (赵
                 new  solvent  and  its  structural  properties[D].  Shanghai:  Donghua   彦生),  et al.  Preparation  and  properties  of  modified  polyaspartic
                 University (东华大学), 2010.                          acid/polyacrylic acid/carboxymethyl cellulose composite superabsorbent
            [26]  Zhang Feiran (张菲然). Preparation and study of nanocellulose based   resin[J]. Fine Chemicals (精细化工), 2017, 34(7): 751-759.
                 on  sodium  hydroxide/urea/thioureasystem[D].  Hohhot:  Inner   [38]  Bai  Qian  (白倩),  Wang  Wei  (王玮),  Liang  Tao  (梁涛),  et al.
                 Mongolia Agricultural University (内蒙古农业大学), 2018.     Preparation of aminated porous regenerated cellulose membrane and
            [27]  Gu  Wenjuan,  Gu  Wenchao,  Li  Ying,  et al.  Silica  sol  modified   its  adsorption  properties[J].  Journal  of  Cellulose  Science  and
                 cellulose film[J]. Acta Optica Sinica, 2014, 34(B12): 309-313.     Technology (纤维素科学与技术), 2017, 25(2): 30-37.
            [28]  Sengupta  A  K.  Heavy  metal  chelation  and  polymeric  ligand   [39]  Li  Rongchao  (李荣超),  Guo  Xianying  (郭宪英).  Study  on  the
                 exchange[M]. New Jersey: John Wiley & Sons Inc, 2017: 391-416.     solubility  of  cellulose  in  NaOH/urea/thiourea  composite  solvent
            [29]  Fan Zuwei (凡祖伟), Xiao Changfa (肖长发), Huang Qinglin (黄庆  system(English)[J]. Science Technology and Engineering (科学技术
                 林),  et al.  Study  on  enhanced  cellulose  hollow  fiber  membrane[J].   与工程), 2011, 11(10): 2372-2375.
                 Function Materials (功能材料), 2014, 45(11): 11132-11136.     [40]  Wang  Xin  (王新).  Method  for  rapidly  determining  polymerization
            [30]  Yang Lingling (杨玲玲), Lu Lixin (卢立新), Yu Yongtao (余永涛), et   degree  of  alkali  cellulose[J].  New  Technology  &  New  Products  of
                 al. Effect of coagulation bath temperature on properties of cellulose   China (中国新技术新产品), 2010, (16): 128-129.
                 membrane  in  NMMO  process[J].  Packaging  Engineering  (包装工  [41]  Yao Jin (姚进), Li  Zhihan (李知函), Shi Junhua  (史军华),  et al.
                 程), 2013, 34(9): 1-5.                             Separation and film forming properties of nanocellulose in camellia
            [31]  Ye  Manhui  (叶满辉), Wang  Li (王丽), Du  Huiqin (杜慧琴).   oleifera husk[J]. Fine Chemicals (精细化工), 2018, 35(11): 1853-1858.
                 Performance  of  adsorption  and  desorption  of  Pb( Ⅱ )  by   [42]  Yao Wenrun (姚文润), Xu Qinghua (徐清华), Jin Liqiang (靳丽强),
                 polyasparticacid/lignocellulose  hydrogels[J].  Polymer  Materials   et al. Effect of TEMPO/NaBr/NaClO oxidation on the properties of
                 Science  and  Engineering  (高分子材料科学与工程),  2016,  32(11):   nanocrystalline  cellulose[J].  Chemistry  and  Industry  of  Forest
                 63-69.                                            Products (林产化学与工业), 2015, 35(2): 31-37.
            [32]  Wichaita W, Samart C, Yoosuk B, et al. Cellulose graft poly(acrylic acid)   [43]  Piltonen P, Hildebrandt N C, Westerlind B, et al. Green and efficient
                 and polyacrylamide: grafting efficiency and heavy metal adsorption   method  for  preparing  all-cellulose  composites  with  NaOH/urea
                 performance[J]. Macromolecular Symposia, 2015, 354(1): 84-90.        solvent[J]. Composites Science & Technology, 2016, 135: 153-158.
            [33]  Hu  Jiaqi  (扈佳琪), Wang  Li (王丽).  Carboxymethylated  salix   [44]  Zhang Die (张碟), Cai Jie (蔡杰), Xu Wei (徐威), et al. Study on the
                 psammophila powder supported nanoscale zero-valent iron: Preparation   structure  and  adsorption  properties  of  cellulose  nanofiber
                                       2+
                 and  adsorption  behavior  toward  Pb   in  aqueous  solution[J].  Fine   hydrogel[J]. Journal of Forestry Engineering (林业工程学报), 2019,
                 Chemicals (精细化工), 2018, 35(7): 1227-1233, 1239.     4(2): 92-98.
            [34]  Xiong Lei (熊磊),  Yu  Weidong  (于伟东).  Microscopic  infrared   [45]  Leng Erwei (冷尔唯), Gong Xun (龚勋), Zhang Yang (张扬), et al.
                 spectroscopy  analysis  of  molecular  structure  of  cellulose  after  acid   Advances in cellulose pyrolysis mechanism: cellulose evolution with
                 treatment[J]. Journal of Cellulose Science and Technology (纤维素  intermediate cellulose as Core[J]. CIESC Journal (化工学报), 2017,
                 科学与技术), 2013, 21(2): 59-62.                       69(1): 239-248.




            (上接第 338 页)                                        [27]  Gong  X  R,  Xi  G  L,  Liu  Z  Q.  Activity  of  coumarin  oxadiazole
                                                                   appended  phenol  in  inhibiting  DNA  oxidation  and  scavenging
            [22]  Ren  J,  Yang  M,  Liu  H,  et al.  Multi-substituted  8-aminoimidazo   radical[J]. Tetrahedron Letters, 2015, 56, 6257-6261.
                 [1,2-a]pyrazines by Groebke-Blackburn-Bienayme reaction and their   [28]  Xi Gaolei (席高磊), Xu Kejing (许克静), Wang Hongwei(王宏伟),
                 Hsp90  inhibitory  activity[J].  Organic  &  Biomolecular  Chemistry,   et al.  Antioxidant  properties  of  4-methyl-7-hydroxycoumarin  and
                 2015, 13(5): 1531-1535.                           derivative [J] Fine Chemicals (精细化工), 2019, 36(6): 1159-1165.
            [23]  Kishore K G, Basavanag U M V, Islas-Jácome A, et al. Synthesis of   [29]  Top S, Vessieres A, Cabestaing C, et al. Studies on organometallic
                 imidazo[1,2-a]pyridin-chromones by a MW assisted Groebke-Blackburn-   selective estrogen receptor modulators. (SERMs) Dual activity in the
                 Bienaymé process[J]. Tetrahedron Letters, 2015, 56(11): 155-158.   hydroxy-ferrocifen  series[J].  Journal  of  Organometallic  Chemistry,
            [24]  Lamberth  C.  First  synthesis  of  3-amino-2-arylimidazo[1,2-b]pyrid-  2001, 637: 500-506.
                 azines by Groebke–Blackburn reaction[J]. Cheminform, 2011, 2011   [30]  Xi G L, Liu Z Q. Coumarin sharing the benzene ring with quinoline
                 (12): 1740-1744.                                  for  quenching  radicals  and  inhibiting  DNA  oxidation[J].  European
            [25]  Shahrisa A, Esmati S. Three novel sequential reactions for the facile   Journal of Medicinal Chemistry, 2015, 95: 416-423.
                 synthesis  of  a  library  of  bisheterocycles  possessing  the  3-aminoi-  [31]  Xi G  L,  Liu  Z  Q.  Coumestan  inhibits  radical-induced  oxidation  of
                 midazo[1,2-a]pyridine  core  catalyzed  by  bismuth(III)  chloride[J].   DNA:  Is  hydroxyl  a  necessary  functional  group?[J].  Journal  of
                 Cheminform, 2013, 24(5): 595-602.                 Agricultural and Food Chemistry, 2014, 62(24): 5636-5642.
            [26]  Wang Rui (王瑞). Study on the property of antioxidants prepared by   [32]  Yang X H, Shang Q Q, Bo C Y, et al. Facile synthesis and antioxidant
                 multicomponent reactions[D]. Changchun:Jilin University (吉林大  activity of lignin-related imidazo[1,2-a]pyridine derivatives[J]. Arkivoc,
                 学),2015: 77-81.                                   2018, 2018(5): 184-193.
   170   171   172   173   174   175   176   177   178   179   180