Inside Cover: A Strategy for Breaking Polyoxometalate‐based MOFs To Obtain High Loading Amounts of Nanosized Polyoxometalate Clusters to Improve the Performance of Dye‐sensitized Solar Cells (Chem. Eur. J. 37/2017)

A huge 3D model of the metal‐organic framework, [Ni(bpp)(H2O)2]3[P2W18O62]⋅24 H2O, in which P2W18 clusters are the nodes in the MOF, appears at the top of the image. Many 3D models of P2W18 clusters fall from top to bottom of the image, which could symbolize that the POM‐based MOFs are broken to obt...

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Bibliographic Details
Published inChemistry : a European journal Vol. 23; no. 37; p. 8769
Main Authors Zheng, Xiaotao, Chen, Weilin, Chen, Li, Wang, Yijing, Guo, Xiangwei, Wang, Jiabo, Wang, Enbo
Format Journal Article
LanguageEnglish
Published Weinheim Wiley Subscription Services, Inc 03.07.2017
Subjects
Acetal resins
Clusters
Dye-sensitized solar cells
high dispersion
Metal-organic frameworks
nanoparticles
Nickel
Nodes
photoanode
Photovoltaic cells
polyoxometalates
Polyoxometallates
Solar cells
Three dimensional models
Titanium oxides
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Summary:A huge 3D model of the metal‐organic framework, [Ni(bpp)(H2O)2]3[P2W18O62]⋅24 H2O, in which P2W18 clusters are the nodes in the MOF, appears at the top of the image. Many 3D models of P2W18 clusters fall from top to bottom of the image, which could symbolize that the POM‐based MOFs are broken to obtain nanosized POM clusters. A wide 3D model of the TiO2 photoanode appears at the bottom of picture to show nanosized POM clusters applied at the photoanode of a DSSC. More information can be found in the Full Paper by W. Chen, E. Wang et al. on page 8871.
ISSN:0947-6539
1521-3765
DOI:10.1002/chem.201701559