Controlled growth of narrowly dispersed nanosize hexagonal MOF rods from Mn(iii)–porphyrin and In(NO3)3 and their application in olefin oxidation

Lee, Da Hee; Kim, Sundol; Hyun, Min Young; Hong, Jin; Huh, Seong; Kim, Cheal; Lee, Suk Joong

doi:10.1039/c2cc31075a

Cited by 65 publications

(32 citation statements)

References 28 publications

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“…Of the past few decades has yielded enormous research efforts in functional metallic nanoparticles (NPs) [1][2][3][4], transition metal oxide-based NPs [5][6][7][8], and coordination polymer-based NPs [9][10][11]. General preparation methods of metallic NPs often require a reducing agent (such as sodium citrate, ascorbic acid, NaBH 4 , or hydrazine hydrate) for the metallic precursors and suitable surface capping ligands to control the dimension and shape [12][13][14][15][16].…”

Section: Introductionmentioning

confidence: 99%

Simple preparation of Pd-NP/polythiophene nanospheres for heterogeneous catalysis

Bae

Kim

Hwang

et al. 2015

Journal of Colloid and Interface Science

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Section: Introductionmentioning

confidence: 99%

Simple preparation of Pd-NP/polythiophene nanospheres for heterogeneous catalysis

Bae

Kim

Hwang

et al. 2015

Journal of Colloid and Interface Science

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“…However, the sizeand shape-controlled synthesis of MOFs has remained largely unexplored. Although a few reports have recently been published, [17][18][19][20][21][22][23][24][25][26] an effective level of control over particle size and shape has not yet been accomplished.…”

Section: Introductionmentioning

confidence: 99%

Size‐ and Shape‐Controlled Synthesis of Hexagonal Bipyramidal Crystals and Hollow Self‐Assembled Al‐MOF Spheres

et al. 2013

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We report an efficient protocol for the synthesis of monodisperse crystals of an aluminum (Al)-based metal organic framework (MOF) while obtaining excellent control over the size and shape solely by tuning of the reaction parameters without the use of a template or structure-directing agent. The size of the hexagonal crystals of the Al-MOF can be selectively varied from 100 nm to 2000 nm by simply changing the reaction time and temperature via its nucleation-growth mechanism. We also report a self-assembly phenomenon, observed for the first time in case of Al-MOF, whereby hollow spheres of Al-MOF were formed by the spontaneous organization of triangular sheet building blocks. These MOFs showed broad hysteresis loops during the CO2 capture, indicating that the adsorbed CO2 is not immediately desorbed upon decreasing the external pressure and is instead confined within the framework, which allows for the capture and subsequent selective trapping of CO2 from gaseous mixtures.

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“…The pore structures of these polymers are formed by the accumulation of small particles, corresponding with SEM images. [27,28] On one hand, the pore structures of CP1-CP7 also verified porphyrin polymerization, due to different interaction between metal ion and H 2 TZP. On the other hand, the pore structures enhanced the surface area of the polymers that also enhanced the reactive sites on the surface of porphyrin polymers during the reaction.…”

Section: T a B L E 3 Oxygenation Of Ethylbenzene With Tbhp Catalyzed mentioning

confidence: 88%

Impact of metalloporphyrin‐based porous coordination polymers on catalytic activities for the oxidation of alkylbenzene

Lü

Du²,

Mele

et al. 2020

Applied Organom Chemis

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Seven metalloporphyrin‐based porous coordination polymers: Feш (TZP)Poly (CP1), CoII (TZP)Poly (CP2), NiII (TZP)Poly (CP3), CuII (TZP)Poly (CP4), ZnII (TZP)Poly (CP5), MnII (TZP)Poly (CP6), PbII (TZP)Poly (CP7) (TZP = 5,10,15,20‐ tetrakis[4‐(2,3,4,5‐tetrazolylphenyl)] porphyrin) were prepared and characterized. CP1−CP7 are amorphous aggregation supported with lower crystallinity by scanning electron microscopy, Brunauer−Emmett−Teller and powder X‐ray diffraction. These coordination polymers exhibit effective dye scavenging and catalytic activities toward the oxidation of alkylbenzene to ketones and can be reused by filtration with a slight decreasing of catalytic activities. Metal atoms metalloporphyrin polymers have a great influence on the catalytic activities of metalloporphyrin polymers.

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Controlled growth of narrowly dispersed nanosize hexagonal MOF rods from Mn(iii)–porphyrin and In(NO3)3 and their application in olefin oxidation

Cited by 65 publications

References 28 publications

Simple preparation of Pd-NP/polythiophene nanospheres for heterogeneous catalysis

Simple preparation of Pd-NP/polythiophene nanospheres for heterogeneous catalysis

Size‐ and Shape‐Controlled Synthesis of Hexagonal Bipyramidal Crystals and Hollow Self‐Assembled Al‐MOF Spheres

Impact of metalloporphyrin‐based porous coordination polymers on catalytic activities for the oxidation of alkylbenzene

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