SrCO_3纳米材料的制备及在环境治理中的应用研究进展
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摘要
比较了SrCO_3纳米材料各制备方法的优缺点,分析了SrCO_3纳米材料在环境治理领域表现出的特殊性质,开启了SrCO_3纳米材料在环境领域的应用,并展望了SrCO_3纳米材料在环境治理领域的应用进展。
The advantages and disadvantages of the preparation methods of SrCO_3 nanomaterials are compared,and the special properties of SrCO_3 nanomaterials in the field of environmental management are analyzed.Opening up the application of SrCO_3 nanomaterials in the environmental field.The application progress of SrCO_3 nanostructures in environmental management is reviewed and forecasted.
The advantages and disadvantages of the preparation methods of SrCO_3 nanomaterials are compared,and the special properties of SrCO_3 nanomaterials in the field of environmental management are analyzed.Opening up the application of SrCO_3 nanomaterials in the environmental field.The application progress of SrCO_3 nanostructures in environmental management is reviewed and forecasted.
引文
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[26] Hiroyuki Ishikawa,Makiko Enoki,Tatsumi Ishihara,et al.Mechanically activated self-propagating high-temperature synthesis of La0.9Sr0.1Ga0.8Mg0.2O3-δ as an electrolyte for SOFC[J].Journal of Alloys & Compounds,2009,488(1):238-242.
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[33] Wen C,Li J,Fan D,et al.Highly efficient performance and conversion pathway of photocatalytic NO oxidation on SrO-clusters@amorphous carbon nitride[J].International Journal of Hydrogen Energy,2013,38(25):10746-10753.
[34] Liu S,Wang L,Dai G,et al.Fabrication of Ag2CO3/SrCO3 rods with highly bficient visible-light photocataiytic activity[J].Rare Metal Materials & Engineering,2017,46(2):312-316.
[35] Jin S,Dong G,Luo J,et al.Improved photocatalytic NO removal activity of SrTiO3 by using SrCO3 as a new co-catalyst[J].Applied Catalysis B:Environmental,2018,227:24-34.
[36] Márquezherrera A,Ovandomedina V M,Castilloreyes B E,et al.Facile synthesis of SrCO3-Sr(OH)2/PPy nanocomposite with enhanced photocatalytic activity under visible light[J].Materials,2016,9(1):30-43.
[37] Omata K,Kobayashi Y,Yamada M.Artificial neural network aided screening and optimization of additives to Co/SrCO3,catalyst for dry reforming of methane under pressure[J].Energy & Fuels,2009,23(4):1931-1935.
[2] 田文玉,赵美玲,李林建,等.重庆地区锶盐产业可持续发展对策研究[J].资源调查与环境,2007,28(3):187-190.
[3] Ptáek P,Bartoníková E,?vec J,et al.The kinetics and mechanism of thermal decomposition of SrCO3 polymorphs[J].Ceramics International,2015,41(1):115-126.
[4] Setoudeh N,Welham N J,Azami S M.Dry mechnochemical conversion of SrSO4 to SrCO3[J].Journal of Alloys and Compounds,2010(492):389-391.
[5] 邹兴武,段东平,王树轩,等.球形碳酸锶制备研究进展[J].盐湖研究,2015(3):63-67.
[6] Erdemo?lu M,Aydo?an S,Canbazo?lu M.A kinetic study on the conversion of celestite (SrSO4) to SrCO3 by mechanochemical processing[J].Hydrometallurgy,2007,86(1):1-5.
[7] Bingól D,Aydo?an S,Bozba? S K.Production of SrCO3 and (NH4)2SO4 by the dry mechanochemical processing of celestite[J].Journal of Industrial & Engineering Chemistry,2012,18(2):834-838.
[8] Tahmasian A,Safarifard V,Morsali A,et al.Sonochemical syntheses of a new fibrous-like nano-scale strontium(II) 3D coordination polymer;precursor for the fabrication of a strontium carbonate nanostructure[J].Polyhedron,2014,67(1):81-88.
[9] Davar F,Salavati-Niasari M,Baskoutas S.Temperature controlled synthesis of SrCO3 nanorods via a facile solid-state decomposition rout starting from a novel inorganic precursor[J].Applied Surface Science,2011,257(9):3872-3877.
[10] Wang Z,He G,Yin H,et al.Evolution of controllable urchin-like SrCO3 with enhanced electrochemical performance via an alternative processing[J].Applied Surface Science,2017,411:197-204.
[11] Ni S,Yang X,Li T.Hydrothermal synthesis and photoluminescence properties of SrCO3[J].Materials Letters,2011(65):766-768.
[12] Zhu W,Liang Z,Liu X,et al.Soft-template self-assembly of hierarchical mesoporous SrCO3 by low-temperature hydrothermal route and their application as adsorbents for methylene blue and heavy metal ions[J].Powder Technology,2012(226):165-172.
[13] Wang W S,Zhen L,Xu C Y,et al.Room temperature synthesis of hierarchical SrCO3 architectures by a surfactant-free aqueous solution route[J].Crystal Growth & Design,2008,8(5):1734-1740.
[14] 曹怡,王海滨.碳酸锶粒子的形貌控制研究[J].无机盐工业,2008,40(11):18-20.
[15] Guo G,Yan G,Wang L,et al.Crystallization of strontium carbonate in alcohol or water solution containing mixed nonionic/anionic surfactants[J].Materials Letters,2008,62(24):4018-4021.
[16] 陈先勇,唐琴,刘代俊.绒毛球状碳酸锶的沉淀法制备与表征[J].人工晶体学报,2012,41(4):1000-1005.
[17] Thongtem T,Tipcompor N,Phuruangrat A,et al.Characterization of SrCO3 and BaCO3 nanoparticles synthesized by sonochemical method[J].Materials Letters,2010,64(4):510-512.
[18] Sivakumar M,Gedanken A,Zhong W,et al.Nanophase formation of strontium hexaferrite fine powder by the sonochemical method using Fe(CO)5[J].Journal of Magenetism and Magnetic Materials,2004,268(1/2):95-104.
[19] 贾上远,刘相果,彭晓东,等.用超声波技术制备高纯SrCO3[J].重庆大学学报:自然科学版,2004,27(11):8-10.
[20] Thongtem T,Tipcompor N,Phuruangrat A,et al.Characterization of SrCO3 and BaCO3 nanoparticles synthesized by cyclic microwave radiation[J].Materials Letters,2012(87):153-156.
[21] Ma M G,Zhu Y J.Microwave synthesis of SrCO3 one-dimensional nanostructures assembled from nanocrystals using ethylenediamine additive[J].Materials Letters,2008(62):2512-2515.
[22] Du J,Liu Z,Li Z,et al.Synthesis of mesoporous SrCO3 spheres and hollow CaCO3 spheres in room-temperature ionic liquid[J].Microporous Mesoporous Materials,2005(83):145-149.
[23] Li L,Lin R,Tong Z,et al.Crystallization control of SrCO3 nanostructure in imidazolium-based temperature ionic liquids[J].Materials Research Bulletin,2012(47):3100-3106.
[24] 朱文坤,牟涛,段涛,等.微生物矿化制备碳酸锶晶体[J].人工晶体学报,2014,43(1):129-134.
[25] Ni S,Yang X,Li T.Hydrothermal synthesis and photoluminescence properties of SrCO3[J].Materials Letters,2011,65(4):766-768.
[26] Hiroyuki Ishikawa,Makiko Enoki,Tatsumi Ishihara,et al.Mechanically activated self-propagating high-temperature synthesis of La0.9Sr0.1Ga0.8Mg0.2O3-δ as an electrolyte for SOFC[J].Journal of Alloys & Compounds,2009,488(1):238-242.
[27] Liu M,Zhang F,Wang P,et al.Preparation and characterization of silk fibroin/strontium carbonate film through rapid formation[J].Materials Letters,2017,189(3):46-49.
[28] Pan X,Chen X,Yi Z.Photocatalytic oxidation of methane over SrCO3 decorated SrTiO3 nanocatalysts via a synergistic effect[J].Physical Chemistry Chemical Physics,2016,40(2):163-181.
[29] Wu S,Yin S,Cao H,et al.Glucosan controlled biomineralization of SrCO3 complex nanostructures with superhydrophobicity and adsorption properties[J].Journal of Materials Chemistry,2011,21(24):8734-8741.
[30] Lu P,Hu X,Li Y,et al.One-step preparation of a novel SrCO3/g-C3N4 nano-composite and its application in selective adsorption of crystal violet[J].RSC Advances,2018,8(12):6315-6325.
[31] Song L,Zhang S,Chen B.A novel visible-light-sensitive strontium carbonate photocatalyst with high photocatalytic activity[J].Catalysis Communications,2009(10):1565-1568.
[32] 郭丽梅,匡元江,杨晓丹,等.偏硼酸锶/碳酸锶复合催化剂光催化还原CO2生成CH4的研究[J].物理化学学报,2013,29(7):1558-1565.
[33] Wen C,Li J,Fan D,et al.Highly efficient performance and conversion pathway of photocatalytic NO oxidation on SrO-clusters@amorphous carbon nitride[J].International Journal of Hydrogen Energy,2013,38(25):10746-10753.
[34] Liu S,Wang L,Dai G,et al.Fabrication of Ag2CO3/SrCO3 rods with highly bficient visible-light photocataiytic activity[J].Rare Metal Materials & Engineering,2017,46(2):312-316.
[35] Jin S,Dong G,Luo J,et al.Improved photocatalytic NO removal activity of SrTiO3 by using SrCO3 as a new co-catalyst[J].Applied Catalysis B:Environmental,2018,227:24-34.
[36] Márquezherrera A,Ovandomedina V M,Castilloreyes B E,et al.Facile synthesis of SrCO3-Sr(OH)2/PPy nanocomposite with enhanced photocatalytic activity under visible light[J].Materials,2016,9(1):30-43.
[37] Omata K,Kobayashi Y,Yamada M.Artificial neural network aided screening and optimization of additives to Co/SrCO3,catalyst for dry reforming of methane under pressure[J].Energy & Fuels,2009,23(4):1931-1935.
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