Page 28 - 精细化工2019年第10期
P. 28

·1994·                            精细化工   FINE CHEMICALS                                  第 36 卷

                 packaging analysis for determination of volatile organiccompounds[J].   mushroom volatiles[J]. Analytica Chimica Acta, 2013, 770: 1-6.
                 Journal of Chromatography A, 2003, 1020(2): 189-197.     [24]  Li Xiujuan (李秀娟), Zhang Xuena (张雪娜), Ye Changwen (叶长
            [4]   Ezquerro  Ó,  Pons  B,  Tena  M  T.  Multiple  headspace  solid-phase   文).  Multiple  headspace  solid-phase  microextraction  after  matrix
                 microextraction for the quantitative determination of volatile organic   modification  for  the  determination  of  ethyl  carbamate  in  alcoholic
                 compounds in multilayer packagings[J]. Journal of Chromatography   beverages  using  gas  chromatography[J].  Chinese  Journal  of
                 A, 2003, 999(1/2): 155-164.                       Chromatography (色谱), 2011, 29(8): 701-705.
            [5]   Pawliszyn  J.  Solid  phase  microextraction:  theory  and  practice[M].   [25]  Ezquerro  Ó,  Ortiz  G,  Pons  B,  et al.  Determination  of  benzene,
                 Wiley: Handbook of sample preparation, 1995: 81-103.     toluene,  ethylbenzene  and  xylenes  in  soils  by  multiple  headspace
            [6]   Aspromonte  J,  Wolfs  K,  Kahsay  G,  et al.  Characterization  of   solid-phase microextraction[J]. Journal of Chromatography A, 2004,
                 mesoporous  silica  used  for  drug  delivery  by  sorptive  interaction-   1035(1): 17-22.
                 multiple headspace extraction-gas chromatography[J]. Talanta, 2018,   [26]  Carrillo J D, Tena M T. Determination of volatile oak compounds in
                 187: 35-39.                                       aged  wines  by  multiple  headspace  solid-phase  microextraction  and
            [7]   Kfoury  M,  Auezova  L,  Greige-Gerges  H,  et al.  Release  studies  of   gas  chromatography-mass  spectrometry  (MHS-SPME-GC-MS)[J].
                 trans-anethole  from  beta-cyclodextrin solid  inclusion  complexes  by   Analytical and Bioanalytical Chemistry, 2006, 385(5): 937-943.
                 multiple headspace extraction[J]. Carbohydrate Polymers, 2016, 151:   [27]  Pizarro  C,  Perez-del-Notario  N,  Gonzalez-Saiz  J  M.  Multiple
                 1245-1250.                                        headspace solid-phase microextraction for eliminating matrix effect
            [8]   Xie W, Gong Y, Yu K. Enhancing the sensitivity of full evaporation   in the simultaneous determination of haloanisoles and volatile phenols
                 technique  using  multiple  headspace  extraction  analysis[J].   in wines[J]. Journal of Chromatography A, 2007, 1166(1/2): 1-8.
                 Chromatographia, 2017, 80(8): 1263-1268.      [28]  Ye  C,  Zhang  X,  Huang  J,  et al.  Multiple  headspace  solid-phase
            [9]   Suzuki M, Tsuge S, Takeuchi T. Gas chromatographic estimation of   microextraction  of  ethyl  carbamate  from  different  alcoholic
                 occluded  solvents  in  adhesive  tape  by  periodic  introduction   beverages  employing  drying  agent  based  matrix  modification[J].
                 method[J]. Analytical Chemistry, 1970, 42(14): 1705-1708.     Journal of Chromatography A, 2011, 1218(31): 5063-5070.
            [10]  McAucliffe  C.  GC  determination  of  solutes  by  multiple  phase   [29]  Pizarro C, Perez-del-Notario N, Gonzalez-Saiz J M. Determination of
                 equilibration[J]. Chemical Technology, 1971, 46(1): 46-51.     Brett  character  responsible  compounds  in  wines  by  using  multiple
            [11]  Kolb  B.  A  gas  chromatographic  assay  for  quantitative  analysis  of   headspace solid-phase microextraction[J]. Journal of Chromatography
                 volatiles  in  solid  materials  by  discontinuous  gas  extraction[J].   A, 2007, 1143(1/2): 176-181.
                 Chromatographia, 1977, 10(12): 705-711.       [30]  Gomez-Ariza J L, Garcia-Barrera T, Lorenzo F, et al. Use of multiple
            [12]  Kolb B. Quantitative analysis of residual solvents in food packaging   headspace  solid-phase  microextraction  and  pervaporation  for  the
                 printed  films  by  capillary  gas  chromatography  with  multiple   determination of off-flavours in wine[J]. Journal of Chromatography
                 headspace extraction[J]. Chromatography A, 1981, 204: 371-376.     A, 2006, 1112(1/2): 133-140.
            [13]  Kolb B. Multiple headspace extraction—A procedure for eliminating   [31]  Ezquerro  O,  Garrido-Lopez  A,  Tena  M  T.  Determination  of  2, 4,
                 the  influence  of  the  sample  matrix  in  quantitative  headspace,  gas   6-trichloroanisole and guaiacol in cork stoppers by pressurised fluid
                 chromatography[J]. Chromatographia, 1982, 15(9): 587-594.     extraction and gas chromatography-mass spectrometry[J]. Journal of
            [14]  Arthur C L, Pawliszyn J. Solid phase microextraction with thermal   Chromatography A, 2006, 1102(1/2): 18-24.
                 desorption using fused silica optical fibers[J]. Analytical Chemistry,   [32]  Licciardello  F,  Del  Nobile  M  A,  Spagna  G,  et al.  Scalping  of
                 1990, 62: 2145-2148.                              ethyloctanoate and linalool from a model wine into plastic films[J].
            [15]  Louch  D,  Motlagh  S,  Janusz  P.  Dynamics  of  organic  compound   LWT - Food Science and Technology, 2009, 42(6): 1065-1069.
                 extraction  from  water  using  liquid-coated  fused  silica  fibers[J].   [33]  Feng  J,  Sun  M,  Li  L,  et al.  Multiwalled  carbon  nanotubes-doped
                 Analytical Chemistry, 1992, 64(10): 1187-1199.     polymeric  ionic  liquids  coating  for  multiple  headspace  solid-phase
            [16]  Ai J. Solid-phase microextraction in headspace analysis dynamics in   microextraction[J]. Talanta, 2014, 123: 18-24.
                 non-steady-state  mass  transfer[J].  Analytical  Chemistry,  1998,   [34]  Licciardello F, Muratore G, Mercea P, et al. Diffusional behaviour of
                 70(22): 4822-4826.                                essential oil components in active packaging polypropylene films by
            [17]  Martínez-Uruñuela  A,  González-Sáiz  J  M,  Pizarro  C.  Multiple   multiple headspace solid phase microextraction-gas chromatography[J].
                 solid-phase microextraction in a non-equilibrium situation[J]. Journal   Packaging Technology and Science, 2013, 26(3): 173-185.
                 of Chromatography A, 2005, 1089(1/2): 31-38.     [35]  Sgorbini  B,  Bicchi  C,  Cagliero  C,  et al.  Herbs  and  spices:
            [18]  Liu Fei (刘菲),  Wang  Yuanyuan  (王媛媛),  Chen  Jiawei  (陈家玮).   characterization  and  quantitation  of  biologically-active  markers  for
                 Matrix  effect  on  quantitative  analysis  of  mononuclear  aromatics in   routine  quality  control  by  multiple  headspace  solid-phase
                 soil sample[J]. Rock and Mineral Analysis (岩矿测试), 2010, 29(5):   microextraction  combined  with  separative  or  non-separative
                 481-485.                                          analysis[J]. Journal of Chromatography A, 2015, 1376: 9-17.
            [19]  Serrano  E,  Beltran  J,  Hernandez  F.  Application  of  multiple   [36]  Costa  R,  Albergamo  A,  Bua  G  D,  et al.  Determination  of  flavor
                 headspace-solid-phase   microextraction   followed   by   gas   constituents  in  particular  types  of  flour  and  derived  pasta  by
                 chromatography-mass  spectrometry  to  quantitative  analysis  of   heart-cutting  multidimensional  gas  chromatography  coupled  with
                 tomato aroma components[J]. Journal of Chromatography A, 2009,   mass spectrometry and multiple headspace solid-phase microextraction[J].
                 1216(1): 127-133.                                 LWT-Food Science and Technology, 2017, 86: 99-107.
            [20]  San Roman I, Bartolome L, Alonso M L, et al. DATINK pilot study:   [37]  Salazar R, Domenek S, Plessis C, et al. Quantitative determination of
                 An effective methodology for ballpoint pen ink dating in questioned   volatile organic compounds formed during Polylactide processing by
                 documents[J]. Analytica Chimica Acta, 2015, 892: 105-114.     MHS-SPME[J].  Polymer  Degradation  and  Stability,  2017,  136:
            [21]  Rincón A A, Pino V, Ayala J H, et al. Multiple headspace solid-phase   80-88.
                 microextraction for quantifying volatile free fatty acids in cheeses[J].   [38]  Deng  Xiaojun  (邓晓军),  Du  Jiawei  (杜家纬).  Multiple  headspace
                 Talanta, 2014, 129: 183-190.                      solid  phase  microextraction  and  analysis  of  volatiles  from
            [22]  Canellas  E,  Vera  P,  Nerin  C.  Multiple  headspace-solid  phase   Arabidopsis green leaf[J]. Chinese Journal of Ecology (生态学杂志),
                 microextraction  for  the  determination  of  migrants  coming  from  a   2005, 24(8): 970-974.
                 self-stick  label  in  fresh  sausage[J].  Food  Chemistry,  2016,  197:   [39]  Carrillo  J  D,  Tena  M  T.  Determination  of  volatile  compounds  in
                 24-29.                                            antioxidant  rosemary  extracts  by  multiple  headspace  solid-phase
            [23]  Costa  R,  Tedone  L,  De  Grazia  S,  et al.  Multiple  headspace-   microextraction  and  gas  chromatography[J].  Flavour  and Fragrance
                 solid-phase  microextraction:  an  application  to  quantification  of   Journal, 2006, 21(4): 626-633.
   23   24   25   26   27   28   29   30   31   32   33