Polymorphs of lithium-boron imidazolates: energy landscape and hydrogen storage properties

Baburin, Igor A., Assfour, Bassem, Seifert, Gotthard, Leoni, Stefano

31 March 2014

The topological diversity of lithium-boron imidazolates LiB(imid)4 was studied by combining topological enumeration and ab initio DFT calculations. The structures based on zeolitic rho, gme and fau nets are shown to be stable and have high total hydrogen uptake (6.9–7.8 wt.%) comparable with that of MOF-177. / Dieser Beitrag ist mit Zustimmung des Rechteinhabers aufgrund einer (DFG-geförderten) Allianz- bzw. Nationallizenz frei zugänglich.

Metall-organische Gerüste

MOF

organic frameworks

capture

lithium-boron imidazolates

BIF

ddc:540

rvk:VA 1120

Flexible metal–organic frameworks

Schneemann, Andreas, Bon, Volodymyr, Schwedler, Inke, Senkovska, Irena, Kaskel, Stefan, Fischer, Roland A.

01 August 2014

Advances in flexible and functional metal–organic frameworks (MOFs), also called soft porous crystals, are reviewed by covering the literature of the five years period 2009–2013 with reference to the early pertinent work since the late 1990s. Flexible MOFs combine the crystalline order of the underlying coordination network with cooperative structural transformability. These materials can respond to physical and chemical stimuli of various kinds in a tunable fashion by molecular design, which does not exist for other known solid-state materials. Among the fascinating properties are so-called breathing and swelling phenomena as a function of host–guest interactions. Phase transitions are triggered by guest adsorption/desorption, photochemical, thermal, and mechanical stimuli. Other important flexible properties of MOFs, such as linker rotation and sub-net sliding, which are not necessarily accompanied by crystallographic phase transitions, are briefly mentioned as well. Emphasis is given on reviewing the recent progress in application of in situ characterization techniques and the results of theoretical approaches to characterize and understand the breathing mechanisms and phase transitions. The flexible MOF systems, which are discussed, are categorized by the type of metal-nodes involved and how their coordination chemistry with the linker molecules controls the framework dynamics. Aspects of tailoring the flexible and responsive properties by the mixed component solid-solution concept are included, and as well examples of possible applications of flexible metal–organic frameworks for separation, catalysis, sensing, and biomedicine.

Metall-organische Gerüste

Übersichtsartikel

Metal-organic framework

MOF

review

ddc:540

rvk:VA 1120

Flexible metal–organic frameworks

Schneemann, Andreas, Bon, Volodymyr, Schwedler, Inke, Senkovska, Irena, Kaskel, Stefan, Fischer, Roland A.

01 August 2014

Advances in flexible and functional metal–organic frameworks (MOFs), also called soft porous crystals, are reviewed by covering the literature of the five years period 2009–2013 with reference to the early pertinent work since the late 1990s. Flexible MOFs combine the crystalline order of the underlying coordination network with cooperative structural transformability. These materials can respond to physical and chemical stimuli of various kinds in a tunable fashion by molecular design, which does not exist for other known solid-state materials. Among the fascinating properties are so-called breathing and swelling phenomena as a function of host–guest interactions. Phase transitions are triggered by guest adsorption/desorption, photochemical, thermal, and mechanical stimuli. Other important flexible properties of MOFs, such as linker rotation and sub-net sliding, which are not necessarily accompanied by crystallographic phase transitions, are briefly mentioned as well. Emphasis is given on reviewing the recent progress in application of in situ characterization techniques and the results of theoretical approaches to characterize and understand the breathing mechanisms and phase transitions. The flexible MOF systems, which are discussed, are categorized by the type of metal-nodes involved and how their coordination chemistry with the linker molecules controls the framework dynamics. Aspects of tailoring the flexible and responsive properties by the mixed component solid-solution concept are included, and as well examples of possible applications of flexible metal–organic frameworks for separation, catalysis, sensing, and biomedicine.

Metal-organic framework, MOF, review

info:eu-repo/classification/ddc/540

ddc:540

Electronic magnetism and magnetic shielding in metal-organic frameworks

Trepte, Kai

19 October 2021

In this dissertation, investigations regarding magnetism within metal-organic frameworks (MOFs) based on calculations in the framework of density functional theory (DFT) were carried out. On the one hand, the intrinsic magnetic properties within the MOF DUT-8(Ni) were studied (DUT -- Dresden University of Technology). This MOF is flexible, thus it can exist in two crystal structures named DUT-8(Ni)ppen and DUT-8(Ni)closed. A transition from one structure to the other can be achieved via e.g. gas adsorption, leading to a volume increase of approximately 260 %. The magnetic properties originate from spin-spin interactions between the unpaired electrons at the Ni centers. The magnetic coupling between the Ni ions was found to be low-spin (antiferromagnetic). Considering that MOFs tend to have rather large unit cells (> 100 atoms), model systems (< 30 atoms) were generated. Such models can qualitatively as well as quantitatively describe the coupling inside the crystal structure while drastically reducing computational time. Furthermore, the model systems can be easily altered e.g. to introduce defects. The influence of these alterations on the magnetic coupling was studied. In addition, the metal centers have been exchanged by other 3d-metals to analyze the coupling constant with respect to different magnetic centers. On the other hand, the magnetic shielding of Xe adsorbed into the MOFs UiO-66 and UiO-67 was investigated (UiO -- University of Oslo). Based on high-pressure nuclear magnetic resonance (NMR) measurements, which showed a decrease of the total chemical shift when going from the smaller MOF (UiO-66) to the larger one (UiO-67), a thorough theoretical analysis was carried out. For this purpose the ansatz of Ito and Fraissard, i.e. the chemical shift of Xe being a sum of different contributions, was employed. Accordingly, model systems which describe the influences of the MOFs and adjacent Xe atoms on the magnetic shielding were contructed. After equilibrating the Xe positions using molecular dynamics simulations, these model systems were taken to study the chemical shift of all Xe atoms individually. Thus, an analysis of the chemical shift inside each pore of the MOFs was carried out. This allows a description of different influences (Xe-surface, Xe-Xe) on the chemical shift, explaining the experimental behavior at an atomistic level.

info:eu-repo/classification/ddc/530

ddc:530

Polymorphs of lithium-boron imidazolates: energy landscape and hydrogen storage properties

Baburin, Igor A., Assfour, Bassem, Seifert, Gotthard, Leoni, Stefano

January 2011

The topological diversity of lithium-boron imidazolates LiB(imid)4 was studied by combining topological enumeration and ab initio DFT calculations. The structures based on zeolitic rho, gme and fau nets are shown to be stable and have high total hydrogen uptake (6.9–7.8 wt.%) comparable with that of MOF-177. / Dieser Beitrag ist mit Zustimmung des Rechteinhabers aufgrund einer (DFG-geförderten) Allianz- bzw. Nationallizenz frei zugänglich.

info:eu-repo/classification/ddc/540

ddc:540

Metall-organische Gerüste, MOF

High-throughput screening: speeding up porous materials discovery

Wollmann, Philipp, Leistner, Matthias, Stoeck, Ulrich, Grünker, Ronny, Gedrich, Kristina, Klein, Nicole, Throl, Oliver, Grählert, Wulf, Senkovska, Irena, Dreisbach, Frieder, Kaskel, Stefan

31 March 2014

A new tool (Infrasorb-12) for the screening of porosity is described, identifying high surface area materials in a very short time with high accuracy. Further, an example for the application of the tool in the discovery of new cobalt-based metal–organic frameworks is given. / Dieser Beitrag ist mit Zustimmung des Rechteinhabers aufgrund einer (DFG-geförderten) Allianz- bzw. Nationallizenz frei zugänglich.

Metall-organische Gerüste

MOF

Polymernetzwerke

kombinatorisch

Zeolithgruppe

Porosität

Speicherung

Oberfläche

Poren

metal-organic frameworks

polymer networks

building units

combinatorial

zeolites

porosity

storage

surface

pores

ddc:540

rvk:VA 1120

Application of a chiral metal–organic framework in enantioselective separation

Padmanaban, Mohan, Müller, Philipp, Lieder, Christian, Gedrich, Kristina, Grünker, Ronny, Bon, Volodymyr, Senkovska, Irena, Baumgärtner, Sandra, Opelt, Sabine, Paasch, Silvia, Brunner, Eike, Glorius, Frank, Klemm, Elias, Kaskel, Stefan

31 March 2014

A modular approach for the synthesis of highly ordered porous and chiral auxiliary (Evans auxiliary) decorated metal–organic frameworks is developed. Our synthesis strategy, which uses known porous structures as model materials for incorporation of chirality via linker modification, can provide access to a wide range of porous materials suitable for enantioselective separation and catalysis. Chiral analogues of UMCM-1 have been synthesized and investigated for the enantioseparation of chiral compounds in the liquid phase and first promising results are reported. / Dieser Beitrag ist mit Zustimmung des Rechteinhabers aufgrund einer (DFG-geförderten) Allianz- bzw. Nationallizenz frei zugänglich.

selektive Adsorption

heterogene Katalyse

Xylole-Isomere

MOF

Metall-organische Gerüste

selective adsorption

heterogeneous catalysis

xylene isomers

mil-47

mofs

Metal-Organic Framework

ddc:540

rvk:VA 1120

A highly porous metal–organic framework, constructed from a cuboctahedral super-molecular building block, with exceptionally high methane uptake

Stoeck, Ulrich, Krause, Simon, Bon, Volodymyr, Senkovska, Irena, Kaskel, Stefan

03 April 2014

A highly porous metal–organic framework Cu2(BBCDC) (BBCDC = 9,9′-([1,1′-[b with combining low line]iphenyl]-4,4′-diyl)[b with combining low line]is(9H-[c with combining low line]arbazole-3,6-[d with combining low line]i[c with combining low line]arboxylate) (DUT-49) with a specific surface area of 5476 m2 g−1, a pore volume of 2.91 cm3 g−1, a H2 excess uptake of 80 mg g−1 (77 K, 50 bar), a CO2 excess uptake of 2.01 g g−1 (298 K, 50 bar) and an exceptionally high excess methane storage capacity of 308 mg g−1 (298 K, 110 bar) was obtained using an extended tetratopic linker. / Dieser Beitrag ist mit Zustimmung des Rechteinhabers aufgrund einer (DFG-geförderten) Allianz- bzw. Nationallizenz frei zugänglich.

Oberfläche

Flächeninhalt

Gaslagerung

Metall-organische Gerüste

MOF

Adsorption

Diffraktion

Polyeder

Porösität

surface-area

gas-storage

sites

adsorption

diffraction

capacities

polyhedra

porosity

platform

capture

ddc:540

rvk:VA 1120

A new metal–organic framework with ultra-high surface area

Grünker, Ronny, Bon, Volodymyr, Müller, Philipp, Stoeck, Ulrich, Krause, Simon, Mueller, Uwe, Senkovska, Irena, Kaskel, Stefan

21 July 2014

A new mesoporous MOF, Zn4O(bpdc)(btctb)4/3 (DUT-32), containing linear ditopic (bpdc2−; 4,4′-biphenylenedicarboxylic acid) and tritopic (btctb3−; 4,4′,4′′-[benzene-1,3,5-triyltris(carbonylimino)]tris-benzoate) linkers, was synthesised. The highly porous solid has a total pore volume of 3.16 cm3 g−1 and a specific BET surface area of 6411 m2 g−1, adding this compound to the top ten porous materials with the highest BET surface area.

Metall-organische Gerüste

große innere Oberfläche

Porösität

metal–organic framework

MOF

ultra-high surface area

porous materials

ddc:540

rvk:VA 1120

Zr(IV) and Hf(IV) based metal–organic frameworks with reo-topology

Bon, Volodymyr, Senkovskyy, Volodymyr, Senkovska, Irena, Kaskel, Stefan

09 April 2014

Zr and Hf based MOFs with enhanced pore accessibility for large molecules and good hydrothermal stability were obtained using a bent dithienothiophene dicarboxylate and Zr4+ or Hf4+ source. A modulator (benzoic acid) facilitates formation of an eight-connecting cluster leading to a new framework which adopts reo topology. / Dieser Beitrag ist mit Zustimmung des Rechteinhabers aufgrund einer (DFG-geförderten) Allianz- bzw. Nationallizenz frei zugänglich.

Oberfläche

Flächeninhalt

Adsorption

Metall-organische Gerüste

MOF

Zirconium

Hafnium

surface areas

adsorption

Metal-organic framework

MOF

Zirconium

Hafnium

ddc:540

rvk:VA 1120