sg:pub.10.1007/s11244-018-1077-0 - Springer Nature SciGraph

Article Info

DATE

2018-11-07

AUTHORS

Satoshi Ishikawa, Zhenxin Zhang, Toru Murayama, Norihito Hiyoshi, Masahiro Sadakane, Wataru Ueda

ABSTRACT

Four new porous crystalline complex metal oxide families based on group V and VI elements, all of which are synthesized through unit-assembling, are introduced along with crystal structure formation mechanism. Polyoxometalates (POMs) are utilized as building units and assembled for constructing microporous complex metal oxides. Assembling of MoVO-POMs having pentagonal units of [Mo6O21] with {VO} linkers under hydrothermal conditions forms microporous orthorhombic (NH4)4[Mo30V4O106] {VO}6 oxide and trigonal (NH4)3[Mo19.5V1.5O69] {VO}6 oxide. Assembling of ε-Keggin Mo-POMs with bismuth ions as a linker under a hydrothermal condition produces a cubic (NH4)4[Mo9.4V3.6O40] {Bi}2 crystal with cages and channels with the diameter sizes of 0.77 and 0.34 nm, respectively. One dimensional anionic tungstosellenate molecular wire building block, [SeW6O21]2−n, is first formed by linear connection of hexagonal tungstosellenate POM units [SeW6O27] and then linked with the CoII ion to form a crystalline microporous materials, (NH4)0.4 [SeW6O21] {Co(OH)}1.3. [W4O16] building blocks are orderly connected with {VO} linkers to form a microporous framework (K1.5(NH4)0.2H0.3[W4O16]{VO}3) with a pore diameter of 0.43 nm which is fully opened and is accessible to small molecules. These new porous crystalline complex metal oxides showed high catalytic performance for alkane oxidation, aldehyde oxidation, alcohol oxidation, H2O2 oxidation, NH3-SCR, and so on. More... »

PAGES

1-12

References to SciGraph publications

2015-12. Ultrathin inorganic molecular nanowire based on polyoxometalates in NATURE COMMUNICATIONS

2017-07-04. Computational development of the nanoporous materials genome in NATURE REVIEWS MATERIALS

2016-10. Synthesis of Trigonal Mo–V–M3rd–O (M3rd = Fe, W) Catalysts by Using Structure-Directing Agent and Catalytic Performances for Selective Oxidation of Ethane in TOPICS IN CATALYSIS

2018-12. A zeolitic vanadotungstate family with structural diversity and ultrahigh porosity for catalysis in NATURE COMMUNICATIONS

Journal

TITLE

Topics in Catalysis

ISSUE

N/A

VOLUME

N/A

Subjects

FOR: Inorganic Chemistry

FOR: Chemical Sciences

Author Affiliations

Kanagawa University

Tokyo Institute of Technology

Tokyo Metropolitan University

National Institute of Advanced Industrial Science and Technology

Hiroshima University

Identifiers

URI

http://scigraph.springernature.com/pub.10.1007/s11244-018-1077-0

DOI

http://dx.doi.org/10.1007/s11244-018-1077-0

DIMENSIONS

https://app.dimensions.ai/details/publication/pub.1109759621

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43	″	schema:description	Four new porous crystalline complex metal oxide families based on group V and VI elements, all of which are synthesized through unit-assembling, are introduced along with crystal structure formation mechanism. Polyoxometalates (POMs) are utilized as building units and assembled for constructing microporous complex metal oxides. Assembling of MoVO-POMs having pentagonal units of [Mo6O21] with {VO} linkers under hydrothermal conditions forms microporous orthorhombic (NH4)4[Mo30V4O106] {VO}6 oxide and trigonal (NH4)3[Mo19.5V1.5O69] {VO}6 oxide. Assembling of ε-Keggin Mo-POMs with bismuth ions as a linker under a hydrothermal condition produces a cubic (NH4)4[Mo9.4V3.6O40] {Bi}2 crystal with cages and channels with the diameter sizes of 0.77 and 0.34 nm, respectively. One dimensional anionic tungstosellenate molecular wire building block, [SeW6O21]2−n, is first formed by linear connection of hexagonal tungstosellenate POM units [SeW6O27] and then linked with the CoII ion to form a crystalline microporous materials, (NH4)0.4 [SeW6O21] {Co(OH)}1.3. [W4O16] building blocks are orderly connected with {VO} linkers to form a microporous framework (K1.5(NH4)0.2H0.3[W4O16]{VO}3) with a pore diameter of 0.43 nm which is fully opened and is accessible to small molecules. These new porous crystalline complex metal oxides showed high catalytic performance for alkane oxidation, aldehyde oxidation, alcohol oxidation, H2O2 oxidation, NH3-SCR, and so on.
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