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Статті в журналах з теми "Metal-Organic Polyhedron"

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Автор: Grafiati
Опубліковано: 7 вересня 2023

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1

Lian, Ting-Ting, Shu-Mei Chen, Fei Wang, and Jian Zhang. "Metal–organic framework architecture with polyhedron-in-polyhedron and further polyhedral assembly." CrystEngComm 15, no. 6 (2013): 1036–38. http://dx.doi.org/10.1039/c2ce26611c.

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2

Kim, Hyehyun, Minhak Oh, Dongwook Kim, Jeongin Park, Junmo Seong, Sang Kyu Kwak, and Myoung Soo Lah. "Single crystalline hollow metal–organic frameworks: a metal–organic polyhedron single crystal as a sacrificial template." Chemical Communications 51, no. 17 (2015): 3678–81. http://dx.doi.org/10.1039/c4cc10051d.

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Анотація:
Single crystalline hollow MOFs with cavity dimensions on the order of several micrometers and hundreds of micrometers were prepared using a metal–organic polyhedron single crystal as a sacrificial hard template.
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3

Park, M., Y. Zou, S. Hong, and M. S. Lah. "A designed metal-organic framework based on a metal-organic polyhedron." Acta Crystallographica Section A Foundations of Crystallography 64, a1 (August 23, 2008): C474. http://dx.doi.org/10.1107/s0108767308084766.

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4

Wu, Jian, Jing-Wen Xu, Wei-Cong Liu, Su-Zhen Yang, Miao-Miao Luo, Yao-Yao Han, Jian-Qiang Liu, and Stuart R. Batten. "Designed metal–organic framework based on metal–organic polyhedron: Drug delivery." Inorganic Chemistry Communications 71 (September 2016): 32–34. http://dx.doi.org/10.1016/j.inoche.2016.06.023.

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5

Zou, Yang, Mira Park, Seunghee Hong, and Myoung Soo Lah. "A designed metal–organic framework based on a metal–organic polyhedron." Chemical Communications, no. 20 (2008): 2340. http://dx.doi.org/10.1039/b801103f.

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6

Guo, Xiangyu, Shanshan Xu, Yuxiu Sun, Zhihua Qiao, Hongliang Huang, and Chongli Zhong. "Metal-organic polyhedron membranes for molecular separation." Journal of Membrane Science 632 (August 2021): 119354. http://dx.doi.org/10.1016/j.memsci.2021.119354.

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7

Li, Mu, Mingxin Zhang, Yuyan Lai, Yuan Liu, Candice Halbert, James F. Browning, Dong Liu, and Panchao Yin. "Solvated and Deformed Hairy Metal–Organic Polyhedron." Journal of Physical Chemistry C 124, no. 28 (June 19, 2020): 15656–62. http://dx.doi.org/10.1021/acs.jpcc.0c05544.

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8

Gong, Ya-Ru, Zhong-Min Su, and Xin-Long Wang. "A polyoxometalate-based metal–organic polyhedron constructed from a {V5O9Cl} building unit with rhombicuboctahedral geometry." Acta Crystallographica Section C Structural Chemistry 74, no. 11 (October 16, 2018): 1243–47. http://dx.doi.org/10.1107/s2053229618010689.

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Анотація:
The design and construction of metal–organic polyhedra has received much attention by chemists due to the intriguing diversity of architectures and topologies that can be achieved. There are several crucial factors which should be considered for the construction of metal–organic polyhedra, such as the starting materials, reaction time and temperature, solvent and suitable organic ligands. Recently, polyoxometalates (POMs), serving as secondary building units to construct POM-based metal–organic polyhedra, have been the subject of much interest. The title compound, dodecakis(dimethylammonium) octakis(μ-benzene-1,3,5-tricarboxylato)hexa-μ-chlorido-tetracosa-μ-oxido-triacontaoxidotriacontavanadium, (NH2Me2)12[(V5O9Cl)6(C9H3O6)8], was synthesized successfully by self-assembly of VOCl3 and benzene-1,3,5-tricarboxylic acid under solvothermal conditions. The title polyhedron has an rdo topology when the {V5O9Cl} building unit and the benzene-1,3,5-tricarboxylate (BTC3−) ligand were simplified into 4-connected and 3-connected vertices. Interestingly, when the {V5O9Cl} building unit and the BTC3− ligand are considered as quadrangular and triangular faces, the structure displays rhombicuboctahedral geometry with an outer diameter of 21.88 Å. The packing of the polyhedra produces a circular channel with a diameter of 8.2 Å. The title compound was characterized by single-crystal X-ray diffraction, elemental analysis, IR spectroscopy, thermogravimetric analysis and powder X-ray diffraction.
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9

Mallick, Arijit, Bikash Garai, David Díaz Díaz, and Rahul Banerjee. "Hydrolytic Conversion of a Metal-Organic Polyhedron into a Metal-Organic Framework." Angewandte Chemie 125, no. 51 (November 7, 2013): 14000–14004. http://dx.doi.org/10.1002/ange.201307486.

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10

Mallick, Arijit, Bikash Garai, David Díaz Díaz, and Rahul Banerjee. "Hydrolytic Conversion of a Metal-Organic Polyhedron into a Metal-Organic Framework." Angewandte Chemie International Edition 52, no. 51 (November 7, 2013): 13755–59. http://dx.doi.org/10.1002/anie.201307486.

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11

Ren, Guo-Jian, Ze Chang, Jian Xu, Zhenpeng Hu, Yan-Qing Liu, Yue-Ling Xu, and Xian-He Bu. "Construction of a polyhedron decorated MOF with a unique network through the combination of two classic secondary building units." Chemical Communications 52, no. 10 (2016): 2079–82. http://dx.doi.org/10.1039/c5cc08941g.

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Анотація:
A decorated metal–organic polyhedron based metal–organic framework with a unique 4,9-connected net is constructed, showing relatively strong interaction toward H2and CO2probably due to the presence of open metal sites in secondary building units.
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12

Omoto, Kenichiro, Nobuhiko Hosono, Mika Gochomori, Ken Albrecht, Kimihisa Yamamoto, and Susumu Kitagawa. "Anisotropic convergence of dendritic macromolecules facilitated by a heteroleptic metal–organic polyhedron scaffold." Chemical Communications 54, no. 41 (2018): 5209–12. http://dx.doi.org/10.1039/c8cc02460j.

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13

Kim, Mu-Seong, John Perry IV, Tamalia C. M. Julien, Elisa Marangon, Cedric Manouat, Jarrod F. Eubank, and Julie P. Harmon. "Zero-periodic metal–organic material, organic polymer composites: tuning properties of methacrylate polymers via dispersion of dodecyloxy-decorated Cu-BDC nanoballs." Journal of Materials Chemistry A 3, no. 25 (2015): 13215–25. http://dx.doi.org/10.1039/c4ta06647b.

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14

Hao, Xiang, Zejian Leng, Dan Sun, Feng Peng, and Akram Yasin. "Photo-regulated supramolecular star with a pillar[6]arene-coated metal–organic polyhedron (MOP) core." Chemical Communications 56, no. 49 (2020): 6676–79. http://dx.doi.org/10.1039/d0cc00536c.

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15

Wang, Rutao, Dongdong Jin, Yabin Zhang, Shijie Wang, Junwei Lang, Xingbin Yan, and Li Zhang. "Engineering metal organic framework derived 3D nanostructures for high performance hybrid supercapacitors." Journal of Materials Chemistry A 5, no. 1 (2017): 292–302. http://dx.doi.org/10.1039/c6ta09143a.

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16

Li, Xuezhao, Jinguo Wu, Cheng He, Rong Zhang, and Chunying Duan. "Multicomponent self-assembly of a pentanuclear Ir–Zn heterometal–organic polyhedron for carbon dioxide fixation and sulfite sequestration." Chemical Communications 52, no. 29 (2016): 5104–7. http://dx.doi.org/10.1039/c6cc00064a.

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Анотація:
An iridium-containing pentanuclear metal–organic polyhedron was constructedviaa subcomponent self-assembly. The three equatorial Zn(ii) ions in the structure induced atmospheric carbon dioxide transformation as carbonate and sulfur dioxide as sulfite with bonding to the three metal centers.
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17

Chen, Wenxia, Wei Wei, Kefeng Wang, Nan Zhang, Guangliang Chen, Yingjie Hu, and Kostya (Ken) Ostrikov. "Plasma-engineered bifunctional cobalt–metal organic framework derivatives for high-performance complete water electrolysis." Nanoscale 13, no. 12 (2021): 6201–11. http://dx.doi.org/10.1039/d1nr00317h.

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18

Lu, Weigang, Daqiang Yuan, Andrey Yakovenko, and Hong-Cai Zhou. "Surface functionalization of metal–organic polyhedron for homogeneous cyclopropanation catalysis." Chemical Communications 47, no. 17 (2011): 4968. http://dx.doi.org/10.1039/c1cc00030f.

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19

Zhang, Mingxin, Yuyan Lai, Mu Li, Tao Hong, Weiyu Wang, Haitao Yu, Lengwan Li, et al. "The Microscopic Structure–Property Relationship of Metal–Organic Polyhedron Nanocomposites." Angewandte Chemie International Edition 58, no. 48 (November 25, 2019): 17412–17. http://dx.doi.org/10.1002/anie.201909241.

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20

Zhang, Mingxin, Yuyan Lai, Mu Li, Tao Hong, Weiyu Wang, Haitao Yu, Lengwan Li, et al. "The Microscopic Structure–Property Relationship of Metal–Organic Polyhedron Nanocomposites." Angewandte Chemie 131, no. 48 (November 25, 2019): 17573–78. http://dx.doi.org/10.1002/ange.201909241.

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21

Wang, Hai-Ning, Xing Meng, Guang-Sheng Yang, Xin-Long Wang, Kui-Zhan Shao, Zhong-Min Su, and Chun-Gang Wang. "Stepwise assembly of metal–organic framework based on a metal–organic polyhedron precursor for drug delivery." Chemical Communications 47, no. 25 (2011): 7128. http://dx.doi.org/10.1039/c1cc11932j.

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22

Augustyniak, A. W., M. Fandzloch, M. Domingo, I. Łakomska, and J. A. R. Navarro. "A vanadium(iv) pyrazolate metal–organic polyhedron with permanent porosity and adsorption selectivity." Chemical Communications 51, no. 79 (2015): 14724–27. http://dx.doi.org/10.1039/c5cc05913e.

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Анотація:
A vanadium(iv) pyrazolate-based open metal–organic polyhedron of [V33-O)O(OH)24-BPD)1.5(μ-HCOO)3] (BDP = benzene-1,4-bipyrazolate) formulation gives rise to a porous crystal structure exhibiting micro and mesoporosity which is useful for selective adsorption of gases.
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23

Liu, Jianqiang, Guoliang Liu, Chuying Gu, Weicong Liu, Jingwen Xu, Baohong Li, and Wenjing Wang. "Rational synthesis of a novel 3,3,5-c polyhedral metal–organic framework with high thermal stability and hydrogen storage capability." Journal of Materials Chemistry A 4, no. 30 (2016): 11630–34. http://dx.doi.org/10.1039/c6ta03675a.

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By using a functionalized ligand strategy, an uncommon (3,3,5)-c polyhedron-based metal–organic framework named GDMU-2 has been constructed, which has a high H2 uptake of 240.7 cm3 g−1 (2.16 wt%) at 77 K and 1 bar.
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24

Ren, Guojian, Shuxia Liu, Feng Wei, Fengji Ma, Qun Tang, and Shujun Li. "A polyhedron-based metal–organic framework with a reo-e net." Dalton Transactions 41, no. 38 (2012): 11562. http://dx.doi.org/10.1039/c2dt31122d.

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25

Gao, Cong-Li. "A Polyhedron-based Metal-Organic Framework showing high CO2 Adsorption Capacity." Zeitschrift für anorganische und allgemeine Chemie 644, no. 16 (July 6, 2018): 883–87. http://dx.doi.org/10.1002/zaac.201800224.

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26

Lee, Jiyoung, Jae Sun Choi, Nak Cheon Jeong, and Wonyoung Choe. "Formation of trigons in a metal–organic framework: The role of metal–organic polyhedron subunits as meta-atoms." Chemical Science 10, no. 24 (2019): 6157–61. http://dx.doi.org/10.1039/c9sc00513g.

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27

Ramaraju, Bendi, Cheng-Hung Li, Sengodu Prakash, and Chia-Chun Chen. "Metal–organic framework derived hollow polyhedron metal oxide posited graphene oxide for energy storage applications." Chemical Communications 52, no. 5 (2016): 946–49. http://dx.doi.org/10.1039/c5cc07621h.

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Анотація:
Cuox–rGO composite was synthesized by sintering a Cu-based metal–organic framework (Cu-MOF) embedded with exfoliated graphene oxide. The obtained material delivers an excellent electrochemical properties with stable cycling performance as an anode material in rechargeable batteries.
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28

Li, Yang, Jing Cao, Lijun Wang, Yongmin Qiao, Yuhong Zhou, Huaqing Xie, and Jing Li. "Nitrogen-doped hollow carbon polyhedron derived from metal-organic frameworks for supercapacitors." Journal of Energy Storage 55 (November 2022): 105485. http://dx.doi.org/10.1016/j.est.2022.105485.

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29

Sánchez-González, Elí, Alfredo López-Olvera, Olivia Monroy, Julia Aguilar-Pliego, J. Gabriel Flores, Alejandro Islas-Jácome, Mónica A. Rincón-Guevara, Eduardo González-Zamora, Braulio Rodríguez-Molina, and Ilich A. Ibarra. "Synthesis of vanillin via a catalytically active Cu(ii)-metal organic polyhedron." CrystEngComm 19, no. 29 (2017): 4142–46. http://dx.doi.org/10.1039/c6ce02621d.

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30

Cheng, Shuangjing, Weichao Chen, Liang Zhao, Xinlong Wang, Chao Qin, and Zhongmin Su. "Synthesis, crystal structure and iodine capture of Zr-based metal-organic polyhedron." Inorganica Chimica Acta 516 (February 2021): 120174. http://dx.doi.org/10.1016/j.ica.2020.120174.

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31

Han, Tianli, Xirong Lin, Junfei Cai, Jinjin Li, Yajun Zhu, Yijing Meng, Chaoquan Hu, and Jinyun Liu. "A novel free-standing metal organic frameworks-derived cobalt sulfide polyhedron array for shuttle effect suppressive lithium–sulfur batteries." Nanotechnology 33, no. 10 (December 13, 2021): 105401. http://dx.doi.org/10.1088/1361-6528/ac3ce5.

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Анотація:
Abstract Metal-organic-frameworks-derived nanostructures have received broad attention for secondary batteries. However, many strategies focus on the preparation of dispersive materials, which need complicated steps and some additives for making electrodes of batteries. Here, we develop a novel free-standing Co9S8 polyhedron array derived from ZIF-67, which grows on a three-dimensional carbon cloth for lithium–sulfur (Li–S) battery. The polar Co9S8 provides strong chemical binding to immobilize polysulfides, which enables efficiently suppressing of the shuttle effect. The free-standing S@Co9S8 polyhedron array-based cathode exhibits ultrahigh capacity of 1079 mAh g−1 after cycling 100 times at 0.1 C, and long cycling life of 500 cycles at 1 C, recoverable rate-performance and good temperature tolerance. Furthermore, the adsorption energies towards polysulfides are investigated by using density functional theory calculations, which display a strong binding with polysulfides.
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32

Li, Ting-Ting, Jinjie Qian, and Yue-Qing Zheng. "Facile synthesis of porous CuO polyhedron from Cu-based metal organic framework (MOF-199) for electrocatalytic water oxidation." RSC Advances 6, no. 81 (2016): 77358–65. http://dx.doi.org/10.1039/c6ra18781a.

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33

Samanta, Soumen K., Damien Moncelet, Volker Briken, and Lyle Isaacs. "Metal–Organic Polyhedron Capped with Cucurbit[8]uril Delivers Doxorubicin to Cancer Cells." Journal of the American Chemical Society 138, no. 43 (October 20, 2016): 14488–96. http://dx.doi.org/10.1021/jacs.6b09504.

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34

Peng, Hai-Jun, Gui-Xia Hao, Zhao-Hua Chu, Ying-Lin Cui, Xiao-Ming Lin, and Yue-Peng Cai. "From Metal–Organic Framework to Porous Carbon Polyhedron: Toward Highly Reversible Lithium Storage." Inorganic Chemistry 56, no. 16 (August 3, 2017): 10007–12. http://dx.doi.org/10.1021/acs.inorgchem.7b01539.

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35

Ma, Sha, Yanfei Niu, Xiaoli Zhao, and Zhiming Duan. "A metal-organic polyhedron based on dibenzothiophene ligand: Gas adsorption and reductive properties." Inorganic Chemistry Communications 70 (August 2016): 10–13. http://dx.doi.org/10.1016/j.inoche.2016.05.009.

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36

Guo, Yu-Qing, Tao Chang, and Xiao-Huan Liu. "A highly porous polyhedron-based metal-organic framework exhibiting large C2H2 storage capability." Inorganic Chemistry Communications 87 (January 2018): 17–19. http://dx.doi.org/10.1016/j.inoche.2017.11.012.

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37

Qin, Yu, Lin-Lin Chen, Wei Pu, Peng Liu, Shi-Xi Liu, Yuan Li, Xiao-Lan Liu, Zhi-Xiang Lu, Li-Yan Zheng, and Qiu-E. Cao. "A hydrogel directly assembled from a copper metal–organic polyhedron for antimicrobial application." Chemical Communications 55, no. 15 (2019): 2206–9. http://dx.doi.org/10.1039/c8cc09000a.

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Анотація:
A hydrogel was directly assembled from a Cu-MOP by a facile procedure without adding any polymers for the first time, and it exhibited excellent antibacterial activity towards both Gram-negative and Gram-positive bacteria.
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38

Karuppasamy, K., Vasanth Rajendiran Jothi, Dhanasekaran Vikraman, K. Prasanna, T. Maiyalagan, Byoung-In Sang, Sung-Chul Yi, and Hyun-Seok Kim. "Metal-organic framework derived NiMo polyhedron as an efficient hydrogen evolution reaction electrocatalyst." Applied Surface Science 478 (June 2019): 916–23. http://dx.doi.org/10.1016/j.apsusc.2019.02.042.

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39

Liu, Wenxian, Wenbin Que, Xuhai Shen, Ruilian Yin, Xilian Xu, Dong Zheng, Jinxiu Feng, et al. "Unlocking active metal site of Ti-MOF for boosted heterogeneous catalysis via a facile coordinative reconstruction." Nanotechnology 33, no. 2 (October 22, 2021): 025401. http://dx.doi.org/10.1088/1361-6528/ac2dc6.

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Анотація:
Abstract Constructing sophisticated hollow structure and exposing more metal sites in metal-organic frameworks (MOFs) can not only enhance their catalytic performance but also endow them with new functions. Herein, we present a facile coordinative reconstruction strategy to transform Ti-MOF polyhedron into nanosheet-assembled hollow structure with a large amount of exposed metal sites. Importantly, the reconstruction process relies on the esterification reaction between the organic solvent, i.e. ethanol and the carboxylic acid ligand, allowing the conversion of MOF without the addition of any other modulators and/or surfactants. Moreover, the surface and internal structure of the reconstructed MOF can be well tuned via altering the conversion time. Impressively, the reconstructed MOF exhibits ∼5.1-fold rate constant compared to the pristine one in an important desulfurization reaction for clean fuels production, i.e. the oxidation of dibenzothiophene.
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40

Gan, Huihui, Shuo Pan, Xiuhang Liu, and Ying Huang. "Enhanced Photocatalytic Removal of Hexavalent Chromium over Bi12TiO20/RGO Polyhedral Microstructure Photocatalysts." Nanomaterials 12, no. 13 (June 22, 2022): 2138. http://dx.doi.org/10.3390/nano12132138.

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Анотація:
A Bi12TiO20/RGO photocatalyst with polyhedron microstructure was fabricated via the template-free hydrothermal method, and the visible-light-induced photocatalytic activity of the prepared Bi12TiO20 was also evaluated by the photocatalytic reduction of heavy metal pollutants. The structures and optical properties of the prepared Bi12TiO20/RGO were characterized by X-ray diffraction (XRD), scanning electron microscopy (SEM), and UV–vis diffuse reflectance spectrum (UV–vis DRS). The effects of the reaction time and mineralizer concentration on the formation of the Bi12TiO20 polyhedral microstructure were analyzed. The enhanced photocatalytic performances of Bi12TiO20/RGO were observed which were ascribed to the combination of the Bi12TiO20 microstructure induced photogenerated charges and the RGO nanostructure as a photogenerated charges carrier. The effect of organic acids, p-hydroxybenzoic acid (PHBA), chloroacetic acid, and citric acid on the Cr(VI) photocatalytic reduction was also discussed. This work provides an insight into the design of the bismuth-based microstructure photocatalyst towards the application for environment purification of heavy metals.
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41

Yang, Juan, Huili Ye, Zhengqiong Zhang, Faqiong Zhao, and Baizhao Zeng. "Metal–organic framework derived hollow polyhedron CuCo2O4 functionalized porous graphene for sensitive glucose sensing." Sensors and Actuators B: Chemical 242 (April 2017): 728–35. http://dx.doi.org/10.1016/j.snb.2016.11.122.

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42

Wei, Wei, Wanlong Li, Xingzhu Wang, and Jieya He. "A Designed Three-Dimensional Porous Hydrogen-Bonding Network Based on a Metal–Organic Polyhedron." Crystal Growth & Design 13, no. 9 (August 5, 2013): 3843–46. http://dx.doi.org/10.1021/cg4009152.

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43

Jin, Kangwoo, Dohyun Moon, Mijin Kim, and Jinhee Park. "Tailoring the extrinsic porosity of a vapochromic metal–organic polyhedron for rapid VOC detection." Sensors and Actuators B: Chemical 393 (October 2023): 134205. http://dx.doi.org/10.1016/j.snb.2023.134205.

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44

Xu, Miao, Lei Han, Yujie Han, You Yu, Junfeng Zhai, and Shaojun Dong. "Porous CoP concave polyhedron electrocatalysts synthesized from metal–organic frameworks with enhanced electrochemical properties for hydrogen evolution." Journal of Materials Chemistry A 3, no. 43 (2015): 21471–77. http://dx.doi.org/10.1039/c5ta05018a.

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45

Camara, Magatte, Insa Badiane, Mamoudou Diallo, Carole Daiguebonne, and Olivier Guillou. "Synthesis and crystal structure of a new coordination polymer based on lanthanum and 1,4-phenylenediacetate ligands." Acta Crystallographica Section E Crystallographic Communications 75, no. 3 (February 22, 2019): 378–82. http://dx.doi.org/10.1107/s2056989019002378.

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Анотація:
Reaction in gel between the sodium salt of 1,4-phenylenediacetic acid (Na2C10O4H8–Na2 p-pda) and lanthanum chloride yields single crystals of the three-dimensional coordination polymer poly[[tetraaquatris(μ-1,4-phenylenediacetato)dilanthanum(III)] octahydrate], {[La2(C10H8O4)3(H2O)4]·8H2O}∞. The LaIII coordination polyhedron can be described as a slightly distorted monocapped square antiprism. One of the two p-pda2− ligands is bound to four LaIII ions and the other to two LaIII ions. Each LaIII atom is coordinated by five ligands, thereby generating a metal–organic framework with potential porosity properties.
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