Page 161 - 《精细化工》2022年第8期

P. 161

第 8 期郭晓萍，等: 手性钨酸离子液体空心介孔硅球用于苯乙烯双羟化反应 ·1661·

in hydrophilic/hydrophobic nanomaterials functionalized Brönsted acidic Chemical Society, 2005, 127(2): 530-531.
ionic liquid as highly active catalyst in the selective aerobic oxidation [32] SHI X Y, WANG P M, LIU K Y, et al. Peroxophosphotungstate held
of alcohols in water[J]. Molecular Catalysis, 2020, 497: 111202. in an ionic liquid brush: An efficient and reusable catalyst for the
[22] AKRAMI S, KARAMI B, FARAHI M. A new and green approach dihydroxylation of olefins with H 2O 2 in neat water[J]. Applied
for regiospecific synthesis of novel chromeno-triazolopyrimidin Organometallic Chemistry, 2014, 28(10): 760-763.
using tungstic acid immobilized MCM-41 as a reusable catalyst[J]. [33] SOFIA L, KRISHNAN A, SANKAR M, et al. Immobilization of
Journal of Heterocyclic Chemistry, 2020, 57(6): 1-9. phosphotungstic acid (PTA) on imidazole functionalized silica:
[23] ZHU R, SHAN C, TIAN Y Y, et al. A “three-in-one” water treatment Evidence for the nature of PTA binding by solid state NMR and
material: Nitrogen-doped tungstic acid[J]. Chemical Communications, reaction studies[J]. Journal of Physical Chemistry C, 2009, 113(50):
2013, 49(51): 5787-5789. 21114-21122.
[24] ZHANG Y J, CHENG X L, ZHANG X F, et al. Ionic liquid-assisted [34] BUJOK S, HODAN J, BENE H. Effects of immobilized ionic liquid
synthesis of tungsten oxide nanoparticles with enhanced NO 2 sensing on properties of biodegradable polycaprolactone/LDH nanocomposites
properties at near room temperature[J]. Applied Surface Science, prepared by in situ polymerization and melt-blending techniques[J].
2020, 505: 144533. Nanomaterials, 2020, 10(5): 10050969.
[25] MA R L, GUO J R, WANG D H, et al. Preparation of highly [35] SUO H B, XU L L, XU C, et al. Enhanced catalytic performance of
dispersed WO 3/few layer g-C 3N 4 and its enhancement of catalytic lipase covalently bonded on ionic liquids modified magnetic alginate
oxidative desulfurization activity[J]. Colloids and Surfaces A, 2019, composites[J]. Journal of Colloid and Interface Science, 2019, 553:
572(5): 250-258. 494-502.
[26] XIAO J, WANG L, RAN J R, et al. Quaternary ammonium [36] LAW K Y. Contact angle hysteresis on smooth/flat and rough
functionalized polyacrylonitrile fiber supported phosphotungstic acid surfaces: Interpretation, mechanism, and origin[J]. Accounts of Material
as efficient heterogeneous catalyst: Hydrophobic tuning of the catalytic Research, 2022, 3: 1-7.
microenvironment[J]. Journal of Cleaner Production, 2020, 274(27): [37] LUO K J (骆开均), JIN J (晋军), XIE M G (谢明贵), et al.
122473. Synthesis, characterization and CD spectrum of porphyrin derivatives
[27] AZIZ M, PUAD K, TRIWAHYONO S, et al. Transesterification of with circularly polarized property[J]. Acta Chimica Sinica (化学学
croton megalocarpus oil to biodiesel over WO 3 supported on silica 报), 2007, 65(10): 977-982.
mesoporous-macroparticles catalyst[J]. Chemical Engineering Journal, [38] EGIDI F, RUSSO R, CARNIMEO I, et al. The electronic circular
2017, 316(15): 882-892. dichroism of nicotine in aqueous solution: A test case for continuum
[28] PERUZZOLO T M, STIVAL J F, BAIKA L M, et al. Efficient and mixed explicit-continuum solvation approaches[J]. Journal of
esterification reaction of palmitic acid catalyzed by WO 3–x/mesoporous Physical Chemistry A, 2015, 119(21): 5396-5404.
silica[J]. Biofuels, 2020, 5: 1-11. [39] CLAYTON P M, VAS C A, BUI T, et al. Spectroscopic studies on
[29] ZHANG M, ZHU W S, LI H P, et al. Fabrication and characterization nicotine and nornicotine in the UV region[J]. Chirality, 2013, 25(5):
of tungsten-containing mesoporous silica for heterogeneous oxidative 288-293.
desulfurization[J]. Chinese Journal of Catalysis, 2016, 37(6): 971-978. [40] KORTZ U, SAVELIEFF M G, GHALI F Y A, et al.
Ⅲ
Ⅲ
Ⅳ
Ⅳ
Ⅲ
[30] ABDALLA Z E, LI B S, TUFAIL A. Direct synthesis of mesoporous Heteropolymolybdates of As , Sb , Bi , Se , and Te functionalized
(C 19H 42N) 4H 3(PW 11O 39)/SiO 2 and its catalytic performance in oxidative by amino acids[J]. Angewandte Chemie International Edition, 2002,
desulfurization[J]. Colloids & Surfaces A: Physicochemical & 41(21): 4070-4073.
Engineering Aspects, 2009, 341(1/2/3): 86-92. [41] JAHIER C, CANTUEL M, MCCLENAGHAN N D, et al. Enantiopure
[31] YAMAGUCHI K, YOSHIDA C, UCHIDA S, et al. Peroxotungstate dendritic polyoxometalates: Chirality transfer from dendritic wedges
immobilized on ionic liquid-modified silica as a heterogeneous to a POM cluster for asymmetric sulfide oxidation[J]. Chemistry A
epoxidation catalyst with hydrogen peroxide[J]. Journal of the American European Journal, 2009, 15: 8703-8708.

（上接第 1640 页） [29] WU D S, CHEN Y H, LIU D, et al. Structural characterization and
[23] ZHAO B T, ZHANG J, GUO X, et al. Microwave-assisted extraction, hypoglycemic effect of green alga Ulva lactuca oligosaccharide by
chemical characterization of polysaccharides from Lilium davidii var. regulating microRNAs in Caenorhabditis elegans[J]. Algal Research,
unicolor Salisb and its antioxidant activities evaluation[J]. Food 2020, 51: 102083.
Hydrocolloids, 2013, 31(2): 346-356. [30] DING X, FENG S, CAO M, et al. Structure characterization of
[24] SONG S (宋珅), ZHAO B T (赵保堂), LIU Q (刘琴), et al. polysaccharide isolated from the fruiting bodies of Tricholoma
Extraction and separation of polysaccharides from uatermelon seeds matsutake[J]. Carbohydrate Polymers, 2010, 81(4): 942-947.
and its monosaccharide composition analysis by GC-MS[J]. Food [31] WANG Y T, LIU Y, YU H, et al. Structural characterization and
and Fermentation Industries (食品与发酵工业), 2013, 39(5): 238-245. immuno-enhancing activity of a highly branched water-soluble
[25] WANG Z J (王志娟), ZHANG W (张炜), TIAN G (田格), et al. β-glucan from the spores of Ganoderma lucidum[J]. Carbohydrate
Ultrahigh pressure extraction technology of saponins from quinoa Polymers, 2017, 167: 337-344.
husk[J]. Chinese Journal of Cereals and Oils (中国粮油学报), 2020, [32] WEI W ( 魏威 ). Preparation and properties of polysaccharide
35(6): 45-50. components smart hydrogels[D]. Nanjing: Nanjing University of
[26] LIU Y (刘颖). The technology of sweet potato protein separation Science and Technology (南京理工大学), 2017.
using foam fractionation and the research on it's properties[D]. [33] ZHAO Y Y (赵岩岩), WU S L (吴赛乐), ZHANG H (张浩), et al.
Fuzhou: Fujian Agriculture and Forestry University (福建农林大学), Effects of dynamic high pressure microfluidization-assistant extraction
2013. on the antioxidation of polysaccharide from carp scales[J]. Science
[27] SHI R Q (史瑞琴), LIANG J J (梁静静), LI D W (李大伟), et al. and Technology of Food Industry (食品工业科技), 2020, 41(14):
Isolation, purification and physicochemical properties of polysaccharides 46-51.
from Chlorella[J]. Food Science (食品科学), 2020, 41(20): 61-67. [34] GAO W H, LIN P Z, ZENG X A, et al. Preparation, characterization
[28] MATHLOUTHI M, KOENIG J L. Vibrational spectra of carbohydrates[J]. and antioxidant activities of litchi (Litchi chinensis Sonn.) polysaccharides
Advances in Carbohydrate Chemistry and Biochemistry, 1987, 44: extracted by ultra-high pressure[J]. International Journal of Food
7-89. Science & Technology, 2017, 52(8): 1739-1750.

156 157 158 159 160 161 162 163 164 165 166