Achim Müller scite author profile

Using quasielastic neutron scattering, we have investigated the water dynamics of powders of the compound with the stoichiometry of [Mo 72 Fe 30 O 252 (CH 3 COO) It contains about 150 crystal water molecules in the voids between the spherical {Mo 72 Fe 30 } nanocapsules, which are considered unique polytropic inorganic acids with well-defined hydrophilic surfaces due to the presence of H 2 O and O atoms. It has been proposed that {Mo 72 Fe 30 } can be used as a structurally wellconstrained experimental model of oxide mineral surfaces for earth scientists. 1 In this respect, it is of fundamental importance to understand the dynamics of the water molecules at the surface of the nanoclusters. Our measurements show that the dynamics of these water molecules is as expected profoundly different from that of bulk water at the same temperature, especially because of the strong hydrogen bonding between the crystal and cluster surface water molecules. In fact, our data show a non-Debye relaxation behavior. The momentum transfer dependence of the dynamics is close to that expected for a purely diffusive motion. This suggests that the nonexponentiality of the dynamics originates from a distribution of relaxation times, probably related to the different local environments experienced by the water molecules. The dynamics of the crystal water in the voids between the well-defined and arrayed nanocages is significantly slower than that of bulk water at the same temperature that has often been reported for interfacial water. In the investigated range, the temperature dependence of the relaxation time can be described in terms of an Arrhenius law, indicating that the dynamics is triggered by the breaking of the bonds connecting the crystal water molecules with the hydrophilic nanocage surfaces.

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Reductive condensation of methyl arylglyoxylates. Direct synthesis of 2,3-bis(carbomethoxy)stilbene oxides and related systems

Müller¹,

Nishiyama²,

Griffin³

et al. 1982

J. Org. Chem.

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Polyoxometalate Chemistry From Topology via Self-Assembly to Applications

Pope¹,

Müller²

2002

160

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Preparation of polymers with polycarbonate sequences and their depolymerization; an example of thermodynamic recycling

Keul¹,

Müller²,

Höcker³

1993

Makromolekulare Chemie. Macromolecular Symposia

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Initiators based on hydroxytelechelic polyethylene oxide, polytetrahydrofuran and polydimethylsiloxane were used for the anionic ring‐opening polymerization of 2.2‐dimethyltrimethylene carbonate (DTC). Under suitable conditions high yields of block copolymers of the AB and ABA types were obtained, depending on the initiator used. Ring‐closing depolymerization of poly(2.2‐dimethyltrimethylene carbonate) [poly(DTC)] and of copolymers containing poly(DTC) blocks with catalysts based on potassium or tin results under suitable conditions in DTC.

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Bringing inorganic chemistry to life

Müller¹

2003

Chem. Commun.

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Achim Müller

Dynamics of Water in Voids between Well-Defined and Densely Packed Spherical Nanocages Acting as Polyprotic Inorganic Acids

Reductive condensation of methyl arylglyoxylates. Direct synthesis of 2,3-bis(carbomethoxy)stilbene oxides and related systems

Polyoxometalate Chemistry From Topology via Self-Assembly to Applications

Preparation of polymers with polycarbonate sequences and their depolymerization; an example of thermodynamic recycling

Bringing inorganic chemistry to life

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