<![CDATA[Hydrothermal Synthesis and Visible Light Photocatalytic Properties of Bi <Subscript>2</Subscript>O <Subscript>2</Subscript>CO <Subscript>3</Subscript>/Bi <Subscript>2</Subscript>WO <Subscript>6</Subscript> Composite]]>

Jingjing Ma; Li Tian; Chao Xu; Yimeng Zhang; Tao Zhang; Hongxing Li; Pengfei Zhao; Yaqiu Liang; Jiwei Wang; Xiaoxing Fan

首页> 外文期刊>Catalysis Letters >2O 2CO 3/Bi 2WO 6 Composite]]>

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2O 2CO 3/Bi 2WO 6 Composite]]>

机译：<！[CDATA [水热合成和可见光光催化性能BI <下标> 2 O <下标> 2 CO <下标> 3 / BI <下标> 2 wo 6 composite]]>

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AbstractHere, we report a composite photocatalyst Bi2O2CO3/Bi2WO6which was successfully prepared via a two-step hydrothermal method assisted by Ag nanoparticles. The use of Ag nanoparticles is promoting the production of Bi2O2CO3by oxidizing ethylene glycol and to obtain the most suitable heterogenous structure. The synthesized Bi2O2CO3/Bi2WO6photocatalyst possesses larger specific surface areas than pure Bi2O3and pure Bi2WO6samples. The complex structure of Bi2O2CO3/Bi2WO6benefits the separation of photogenerated electrons and holes since its photoluminescence intensity of emission peaks were dramatically weakened. With larger specific surface areas and lower photogenerated electron–hole pairs recombination rate, Bi2O2CO3/Bi2WO6-3% composite exhibits the highest photocatalytic activity among all samples when photodegrading gaseous pollution under visible light (λ?>?420?nm). The photocatalytic activity of Bi2O2CO3/Bi2WO6-3% composite was 2.05, 3.41 and 10.19 times than that of Bi2O2CO3/Bi2WO6, pure Bi2O3and pure Bi2WO6, respectively. Finally, a possible charge separation mechanism was proposed to explain the improved photocatalytic activity of Bi2O2CO3/Bi2WO6composite.Graphical Abstract

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机译：<！[cdata [ <标题>抽象 ara>在此报告复合光催化剂BI 2 O 2 co <subscript> 3 / bi 2 wo 6 通过Ag纳米粒子辅助的两步水热法。通过氧化乙二醇并获得最合适的异构结构，使用Ag纳米粒子的使用促进Bi <下标> 2 Co <下标> 3 /下标> Co <下标> 3 。合成的Bi <下标> 2 O <下标> 2 CO <下标> 3 / bi <下标> 2 wo <下标> 6 光催化剂拥有比纯BI <下标> 2 O <下标>和纯BI <下标> 2 WO <下标> 6 样本更大的比表面积。 Bi <下标> 2 O <下标> 2 CO <下标> 3 / bi <下标> 2 wo 6 的复杂结构。有益于光生电子和孔的分离，因为其光致发光峰的光致发光强度显着减弱。具有较大的比表面积和较低的光生电子 - 空穴对重组率，Bi <下标> 2 O <下标> 2 CO <下标> 3 / bi <下标> 2 WO <下标> 6 -3％复合材料在可见光下的光降解气态污染时显示所有样品中的最高光催化活动（λ≤420≤nm）。 Bi <下标> 2 O <下标> 2 CO <下标> 3 / bi <下标> 2 WO <下标> 6 的光催化活性。 -3％复合材料为2.05,3.41和10.19次，比Bi <下标> 2 O <下标> 2 CO <下标> 3 / bi <下标> 2 WO <下标> 6 ，纯BI <下标> 2 O 3 和pure bi 2 wo 6 ，分别。最后，提出了一种可能的电荷分离机制，以解释Bi <下标> 2 2 CO <下标> 3 / BI <下标> 2的改善的光催化活性。 /subscript> wo< subscript menscript mencepositift. <标题>图形抽象 ara> <图类别=“标准”浮动=“否”id =“fima”> ]]>

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来源
《Catalysis Letters》 |2018年第1期|共10页
作者
Jingjing Ma; Li Tian; Chao Xu; Yimeng Zhang; Tao Zhang; Hongxing Li; Pengfei Zhao; Yaqiu Liang; Jiwei Wang; Xiaoxing Fan;
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作者单位

School of Physics Liaoning University;

School of Physics Liaoning University;

School of Physics Liaoning University;

School of Physics Liaoning University;

School of Physics Liaoning University;

School of Physics Liaoning University;

School of Physics Liaoning University;

School of Physics Liaoning University;

School of Physics Liaoning University;

School of Physics Liaoning University;

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正文语种 eng
中图分类催化;
关键词
Bi2O2CO3/Bi2WO6composite photocatalyst; Photocatalysis; Degradation of pollutants;

机译：Bi2O2CO3 / Bi2WO6复合光催化剂;光催化;污染物的降解;

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专利

1. 2O 2CO 3/Bi 2WO 6 Composite]]> [J] . Jingjing Ma, Li Tian, Chao Xu, Catalysis Letters . 2018,第1期

机译：<！[CDATA [水热合成和可见光光催化性能BI <下标> 2 O <下标> 2 CO <下标> 3 / BI <下标> 2 wo 6 composite]]>
2. Facile Fabrication of Bi2WO6/Ag2S Heterostructure with Enhanced Visible-Light-Driven Photocatalytic Performances [J] . Rongfeng Tang, Huaifen Su, Yuanwei Sun, Nanoscale Research Letters . 2016,第1期

机译：Bi 2 WO 6 / Ag 2 S异质结构的制备及其光催化性能的提高
3. Synthesis of Fe and N Co-doped Bi2Ti2O7 Nanofiber with Enhanced Photocatalytic Activity Under Visible Light Irradiation [J] . Bitao Liu, Qionghua Mo, Jiali Zhu, Nanoscale Research Letters . 2016,第1期

机译：Fe和N共掺杂Bi 2 Ti 2 O 7 纳米纤维的合成及其在可见光下的光催化活性
4. Normal Shock Wave/Turbulent Boundary Layer Interaction Control using “Smart” Piezoelectric flap actuators improved results. NOMENCLATURE E Young’s Modulus M Mach number t thickness Subscripts n normal s substrate properties Abbreviations [C] . J. S. Couldrick, S. L. Gai, H. A. Holden, RAeS Aerospace Aerodynamics Research Conference . 2004

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5. Some properties of the semimagnetic semiconductor alloy Cd[subscript x]Zn[subscript y]Mn[subscript z]Se (x + y + z = 1) [D] . Manhas, Sudershan 1987

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6. Synthesis of novel and stable g-C3N4-Bi2WO6 hybrid nanocomposites and their enhanced photocatalytic activity under visible light irradiation [O] . Haitao Li, Na Li, Ming Wang, 2018

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7. Characterization of Electronic and Ionic Transport in Li[subscript 1-x]Ni[subscript 0.33]Mn[subscript 0.33]Co[subscript 0.33]O[subscript 2](NMC[subscript 333]) and Li[subscript 1-x]Ni[subscript 0.50]Mn[subscript 0.20]Co[subscript 0.30]O[subscript 2](NMC[subscript 523]) as a Function of Li Content [O] . Amin, Rahul, Chiang, Yet-Ming 2017

机译：Li [下标1-x] Ni [下标0.33] mn [下标0.33] Co [下标0.33] O [下标2]（NmC [下标333]）和Li [下标1-x] Ni的电子和离子输运特征[下标0.50] mn [下标0.20] Co [下标0.30] O [下标2]（NmC [下标523]）作为Li含量的函数

2O 2CO 3/Bi 2WO 6 Composite]]>

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