MOFs as New Catalytic Platform for Covalent Adaptable Networks: Catalysis Meets Reinforcement
Angewandte Chemie International Edition, EarlyView.A novel heterogeneous catalytic platform for covalent adaptable networks (CANs) is introduced by immobilizing bases of low molecular weight on metal‐organic frameworks (MOFs). The obtained catalyst UiO‐TBD benefits from the high loading capacity of the MOF and demonstrates a higher thermal stability relative to free TBD.
Simon Renner +9 more
wiley +1 more source
Driving Hydrolysis and Acetolysis of Poly(ethylene terephthalate) (PET) by Microwave and Thermal Energy Inputs: A Comparative Study. [PDF]
ACS OmegaPereira P +7 more
europepmc +1 more source
RuKY Catalyst-Packed Permeation Membrane for Quantitative Ammonia and d3-Ammonia Dehydrogenation to Ultrapure Hydrogen. [PDF]
ChemistryOpenKoch CJ +7 more
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Design-Oriented Degradation Mapping and Hyperelastic Model-Switch Guidelines for Nitrile-Butadiene Rubber Seals. [PDF]
Polymers (Basel)Choi NY, Kim DS, Zhang SU.
europepmc +1 more source
Radiative Defects in Chloride-Activated CdSe Thin Films. [PDF]
ACS Energy LettAbudulimu A +14 more
europepmc +1 more source
Exploring the Theoretical Foundation with Rupture and Delayed Rupture Experiments. [PDF]
MacromoleculesSiavoshani AY +6 more
europepmc +1 more source
Theoretical and experimental study of thermo electrical coupling mechanisms in coal bearing rocks. [PDF]
Sci RepZhao X +6 more
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The Arrhenius Equation Revisited
Critical Reviews in Food Science and Nutrition, 2012The Arrhenius equation has been widely used as a model of the temperature effect on the rate of chemical reactions and biological processes in foods. Since the model requires that the rate increase monotonically with temperature, its applicability to enzymatic reactions and microbial growth, which have optimal temperature, is obviously limited. This is
Micha Peleg, Maria G Corradini
exaly +3 more sources
The compensated Arrhenius formalism is applied to ionic conductivities in alcohol-based electrolytes at concentrations where the salt makes a non-negligible contribution to the static dielectric constant of the solution. The temperature-dependent behavior of the conductivity depends on the amount of added salt.
Allison M. Fleshman +5 more
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This chapter discusses how rate constants of most reactions increase with increasing temperature. It introduces the ‘Arrhenius equation’, which captures this temperature dependence by using two parameters that can be determined experimentally. It also reviews the exploration of the dependence of reaction rates on temperature that leads to the ...
Peter Atkins +2 more
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