Luc Alaerts scite author profile

An optimized procedure was designed for the preparation of the microporous metal–organic framework (MOF) [Cu3(btc)2] (BTC=benzene‐1,3,5‐tricarboxylate). The crystalline material was characterized by X‐ray diffraction, optical microscopy, SEM, X‐ray photoelectron spectroscopy, N2 sorption, thermogravimetry, and IR spectroscopy of adsorbed CO. CO adsorbs on a small number of Cu2O impurities, and particularly on the free CuII coordination sites in the framework. [Cu3(btc)2] is a highly selective Lewis acid catalyst for the isomerization of terpene derivatives, such as the rearrangement of α‐pinene oxide to campholenic aldehyde and the cyclization of citronellal to isopulegol. By using the ethylene ketal of 2‐bromopropiophenone as a test substrate, it was demonstrated that the active sites in [Cu3(btc)2] are hard Lewis acids. Catalyst stability, re‐usability, and heterogeneity are critically assessed.

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Patterned Growth of Metal-Organic Framework Coatings by Electrochemical Synthesis

Ameloot

et al. 2009

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Circular economy indicators: What do they measure?

Moraga

Huysveld

Mathieux

et al. 2019

Resources, Conservation and Recycling

788

388

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Highlights Indicators are useful to support circular economy progress. Circular economy has different definitions entailing challenges for indicators. A classification framework to understand what indicators measure is proposed. Most of the analysed indicators focus on the preservation of materials. None of the analysed indicators focuses on the preservation of functions.

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Selective Adsorption and Separation of Xylene Isomers and Ethylbenzene with the Microporous Vanadium(IV) Terephthalate MIL‐47

et al. 2007

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Selective Adsorption and Separation of ortho-Substituted Alkylaromatics with the Microporous Aluminum Terephthalate MIL-53

et al. 2008

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The metal-organic framework MIL-53(Al) was tested for selective adsorption and separation of xylenes and ethylbenzene, ethyltoluenes, and cymenes using batch, pulse chromatographic, and breakthrough experiments. In all conditions tested, MIL-53 has the largest affinity for the ortho-isomer among each group of alkylaromatic compounds. Separations of the ortho-compounds from the other isomers can be realized using a column packed with MIL-53 crystallites. As evidenced by Rietveld refinements, specific interactions of the xylenes with the pore walls of MIL-53 determine selectivity. In comparison with the structurally similar metal-organic framework MIL-47, the selectivities among alkylaromatics found for MIL-53 are different. Separation of ethyltoluene and cymene isomers is more effective on MIL-53 than on MIL-47; the pores of MIL-53 seem to be a more suitable environment for hosting the larger ethyltoluene and cymene isomers than those of MIL-47.

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Luc Alaerts

Probing the Lewis Acidity and Catalytic Activity of the Metal–Organic Framework [Cu₃(btc)₂] (BTC=Benzene‐1,3,5‐tricarboxylate)

Patterned Growth of Metal-Organic Framework Coatings by Electrochemical Synthesis

Circular economy indicators: What do they measure?

Selective Adsorption and Separation of Xylene Isomers and Ethylbenzene with the Microporous Vanadium(IV) Terephthalate MIL‐47

Selective Adsorption and Separation of ortho-Substituted Alkylaromatics with the Microporous Aluminum Terephthalate MIL-53

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Luc Alaerts

Probing the Lewis Acidity and Catalytic Activity of the Metal–Organic Framework [Cu3(btc)2] (BTC=Benzene‐1,3,5‐tricarboxylate)

Patterned Growth of Metal-Organic Framework Coatings by Electrochemical Synthesis

Circular economy indicators: What do they measure?

Selective Adsorption and Separation of Xylene Isomers and Ethylbenzene with the Microporous Vanadium(IV) Terephthalate MIL‐47

Selective Adsorption and Separation of ortho-Substituted Alkylaromatics with the Microporous Aluminum Terephthalate MIL-53

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Product

Resources

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Probing the Lewis Acidity and Catalytic Activity of the Metal–Organic Framework [Cu₃(btc)₂] (BTC=Benzene‐1,3,5‐tricarboxylate)