Page 34 - 《精细化工》2020年 第10期
P. 34
·1964· 精细化工 FINE CHEMICALS 第 37 卷
progress of hollow structural materials prepared via templating Materials, 2016, 225: 9-25.
method[J]. Journal of Inorganic Materials (无机材料学报), 2013, [60] DENG Y H, WEI J, SUN Z K, et al. Large-pore ordered mesoporous
28(5): 459-468. materials templated from non-pluronic amphiphilic block
[39] BAO Y, WANG C, MA J Z. Morphology control of ZnO copolymers[J]. Chemical Society Reviews, 2013, 42(9): 4054-4070.
2
microstructures by varying hexamethylenetetramine and trisodium [61] ZOU Y D, ZHOU X R, ZHU Y H, et al. sp -Hybridized
citrate concentration and their photocatalytic activity[J]. Materials & carbon-containing block copolymer templated synthesis of
Design, 2016, 101: 7-15. mesoporous semiconducting metal oxides with excellent gas sensing
[40] BAO Y (鲍艳), YANG Y Q (杨永强), MA J Z (马建中). Fabrication property[J]. Accounts of Chemical Research, 2019, 52(3): 714-725.
of hollow silica microsphere using zinc oxide as template and its [62] CHEN A B, YU Y F, LV H J. Synthesis of hollow mesoporous silica
effect on polyacrylate film properties[J]. Journal of the Chinese spheres and carambola-like silica materials with a novel resin sphere
Ceramic Society (硅酸盐学报), 2014, 42(7): 914-919. as template[J]. Materials Letters, 2014, 135: 43-46.
[41] DAI Y, YANG D, YU D P. Engineering of monodisperse core-shell [63] LIU R, WANG C A. Synthesis of hollow mesoporous silica spheres
up-conversion dendritic mesoporous silica nanocomposites with a with radially aligned mesochannels and tunable textural properties[J].
tunable pore size[J]. Nanoscale, 2020, 8(12): 5075-5083. Ceramics International, 2015, 41(1): 1101-1106.
[42] PARK M, HUH S. Facile preparation of mesoporous silica vesicles [64] LONG B H, ZHENG Y, LIN L H, et al. Cubic mesoporous carbon
with large surface holesand their protein sequestration[J]. Materials nitride polymers with large cage-type pores for visible light
Letters, 2019, 243(5): 30-33. photocatalysis[J]. Journal of Materials Chemistry A, 2017, 5(31):
[43] WANG T, BAO Y, GAO Z P. Synthesis of mesoporous 16179-16188.
silica-shell/oil-core microspheres for common waterborne polymer [65] GE P, LI F T, YANG H, et al. Adsorption characteristics of four acid
coatings with robust superhydrophobicity[J]. Progress in Organic dyes on reaming functionali-zed mesoporous material[J]. Advanced
Coatings, 2019, 132: 275-282. Materials Research, 2012, 550/551/552/553: 2301-2307.
[44] CHONG X D, JIN H H, FEI L. Ultrafast room-temperature synthesis [66] YANG H D, PENG L, MA X X, et al. Facile synthesis of
of hierarchically porous metal-organic frameworks by a versatile mesoporous carbons with tailored porosity by a fast
cooperative template strategy[J]. Journal of Materials Science, 2018, polymerization[J]. Journal of Porous Materials, 2018, 26(2):
53(12): 16276-16287. 561-565.
[45] WEI J, YUE Q, SUN Z K. Synthesis of dual-mesoporous silica using [67] YU C Z, TIAN B Z, FAN J. Salt effect in the synthesis of
non-ionic diblock copolymer and cationic surfactant as co-templates[J]. mesoporous silica templated by non-ionic block copolymers[J].
Angewandte Chemie-International Edition, 2012, 25(51): 6149-6153. Chemical Communications, 2001, 24: 2726-2727.
[46] BAO Y, YANG Y Q, SHI C H. Fabrication of hollow silica spheres [68] KANG Q L, BAO Y, LI M. Effect of wall thickness of hollow TiO 2
and their application in polyacrylate film forming agent[J]. Journal of spheres on properties of polyacrylate film: Thermal insulation,
Materials Science, 2014, 49(24): 8215-8225. UV-shielding and mechanical property[J]. Progress in Organic
[47] YANG Y Q (杨永强). Synthesis and application of polyacrylate/ Coatings, 2017, 112: 153-161.
hollow silica composite leather finishing agent for leather [69] QU L (屈玲), TONG D M (佟大明), LIU Y M (刘永梅). Advance in
finishing[D]. Xi'an: Shaanxi University of Science & Technology (陕 pore size controlling technology of mesoporous molecular sieve[J].
西科技大学), 2014. Chemical Industry and Engineering Progress (化工进展), 2002,
[48] MARTÍN G B, REGAZZONI A E. Amylase-functionalized 21(11): 855-859.
mesoporous silica thin films as robust biocatalyst platforms[J]. ACS [70] MA N, ZHANG Y, YANG J L, et al. Facile preparation of
Applied Materials & Interfaces, 2010, 2(2): 360-365. hollow-structured mesoporous silica spheres with large and ordered
[49] HE X Y, LIU Z R, FAN F H, et al. Poly(ionic liquids) hollow mesochannels[J]. International Journal of Applied Ceramic
nanospheres with PDMAEMA as joint support of highly dispersed Technology, 2017, 14(5): 915-920.
gold nanoparticles for thermally adjustable catalysis[J]. Journal of [71] DU X, HE J H. Fine-tuning of silica nanosphere structure by simple
Nanoparticle Research, 2015, 17: 74. regulation of the volume ratio of cosolvents[J]. Langmuir, 2010,
[50] BAO Y, SHI C H, YANG Y Q. Effect of hollow silica spheres on 26(12): 10057-10062.
water vapor permeability of polyacrylate film[J]. RSC Advances, [72] DR D V, TUGULU S, FRICKE M, et al. Morphosynthesis of
2015, 5(15): 11485-11493. star-shaped titania-silica shells[J]. Angewandte Chemie International
[51] KIM T W, CHUNG P W, LIN S Y. Facile synthesis of monodisperse
spherical MCM-48 mesoporous silica nanoparticles with controlled Edition, 2010, 42(1): 58-61.
particle size[J]. Chemistry of Materials, 2010, 22(17): 5093-5104. [73] HAN S H (韩书华), HOU W G (侯万国), XU J (许军). Effect of
[52] HAO N J, LI L F, TANG F Q, et al. Facile and tunable synthesis of cosurfactants on pore size of mesoporous silica[J]. Chemical Journal
of Chinese Universities (高等学校化学学报), 2004, 25(3): 509-511.
hierarchical mesoporous silica materials ranging from flower [74] CAO Y (曹渊), WEI H J (魏红娟), WANG X (王晓). Methods and
structure with wrinkled edges to hollow structure with coarse
surface[J]. Journal of Nanoparticle Research, 2017, 14(5): 915-920. mechanisms of tuning pore size of mesoporous materials[J].
[53] SUN Y Y, ZHANG C Y, MAO Y J. General microemulsion synthesis Materials Reports (材料导报), 2010, 24(11): 27-31.
of organic-inorganic hybrid hollow mesoporous silica spheres with [75] SAIKIA D, DEKA J R, WU C E, et al. pH Responsive selective
enlarged pore size[J]. New Journal of Chemistry, 2019, 28(43): protein adsorption by carboxylic acid functionalized large pore
11164-11170. mesoporous silica nanoparticles SBA-1[J]. Materials Science and
[54] ZHAO J X (赵加旭). Preparation of mesoporous titanium dioxide Engineering: C, 2019, 94: 344-356.
using block copolymers as templates[D]. Jinan: Jinan University (济 [76] WANG T H, CHEN D D, MA J J, et al. Synthesis and
南大学), 2017. characterisation of pore-expanded mesoporous silica materials[J].
[55] JIANG Y (江钰), NIU D C (牛德超), LI Y S (李永生). Regulation of Micro & Nano Letters, 2018, 10(2): 140-144.
morphology and pore structure of silicon oxide nanoparticles and [77] SANTOS S M, CECILIA J A, VILARRASA G E, et al. The effect of
their influence on drug transport performance[J]. Journal of East structure modifying agents in the SBA-15 for its application in the
China University of Science and Technology (华东理工大学学报), biomolecules adsorption[J]. Microporous and Mesoporous Materials,
2019, 45(1): 1-10. 2016, 232: 53-64.
[56] NIU D C, MA Z L, LI Y S. Synthesis of core-shell structured dual- [78] LEBEDEVA I I, KONDRASHOVA N B, KARMANOV V I, et al.
mesoporous silica spheres with tunable pore size and controllable The effect of composition of the reaction medium on the
shell thickness[J]. Journal of the American Chemical Society, 2010, structural-textural characteristics of mesoporous silicon dioxide[J].
132(43): 15144-15147. Russian Journal of Applied Chemistry, 2010, 83(8): 1413-1416.
[57] BUSH A M, FORD H O, GAO F, et al. Tunable mesoporous films [79] TIAN D, YONG G P, TONG H W, et al. Facile H 2O 2 hydrothermal
from copolymers with degradable side chains as membrane synthesis of bimodal mesoporous silica MCM-48 spheres[J]. Chinese
precursors[J]. Journal of Membrane Science, 2018, 1(567): 104-114. Journal of Chemical Physics, 2010, 23(4): 479-483.
[58] YANG B (羊彬). Controllable synthesis of mesoporous materials [80] YANG J P, CHEN W Y, SHEN D K, et al. Controllable fabrication of
templated by triblock copolymer[D]. Beijing: Institute of Process dendritic mesoporous silica-carbon nanospheres for anthracene
Engineering, Chinese Academy of Sciences (中国科学院过程工程 removal[J]. Journal of Materials Chemistry A, 2014, 2(29):
研究所), 2007. 11045-11048.
[59] HUANG M L, LI L, ZHENG S X, et al. Mesoporous silica with [81] ALVAREZ S, FUERTES A B. Template synthesis of mesoporous
block copolymer templates: Modulation of porosity via block carbons with tailorable pore size and porosity[J]. Carbon, 2004,
copolymer reaction with silica[J]. Microporous and Mesoporous 42(2): 433-436.