7,360 research outputs found
Substrate effect on the growth of iron clusters in Y zeolite
Investigation of the decomposition process and of the thermolytic products obtained from Fe(CO)5/faujasite adducts by thermogravimetric, IR-spectroscopic, Mössbauer spectroscopic and X-ray absorption measurements (EXAFS) provides evidence for a substrate effect on the growth process of iron clusters. CsY substrate increases the Fe---CO bond strength. The stabilized intermediates generated by this effect upon thermolysis at 500 K are easily oxidized to small iron(III) oxide clusters, whereas with NaY substrate to a large extent iron(O) particles are generated. The latter show Mössbauer effect and EXAFS spectra comparable to those obtained from bulk iron. An inner oxidation process is assumed to be involved in the generation of the zeolite-supported iron oxide
Photolytic and thermolytic decomposition products from iron pentacarbonyl adsorbed on Y zeolite
Zeolite supported iron systems obtained by photolysis and thermolysis of Fe(CO)5/Na---Y adducts are characterized via evaluation of the respective magnetic isotherms taken with a FONER magnetometer at T = 4.2 K. Thermolysis under fast heating in inert gas and under fluidized shallow bed conditions completes within a few minutes at not, vert, similar 500 K, and gives iron clusters of which at least 70 to 90 wt% is smaller than 1 nm. Prolonged photolysis at 290 K in the same fluidized bed conditions does not result in the formation of ‘naked’ iron(O) clusters, but gives a limited fraction of magnetically coupled Fex(CO)y entities. Photodimerization cannot be excluded to be the main reaction path
Energy Saving In Data Centers
Globally CO2 emissions attributable to Information Technology are on par with those resulting from aviation. Recent growth in cloud service demand has elevated energy efficiency of data centers to a critical area within green computing. Cloud computing represents a backbone of IT services and recently there has been an increase in high-definition multimedia delivery, which has placed new burdens on energy resources. Hardware innovations together with energy-efficient techniques and algorithms are key to controlling power usage in an ever-expanding IT landscape. This special issue contains a number of contributions that show that data center energy efficiency should be addressed from diverse vantage points. © 2017 by the authors. Licensee MDPI, Basel, Switzerland
Zeolite crystal layers coupled to piezoelectric sensors
Microporous zeolite crystals were successfully coupled onto the gold electrodes of
quartz crystal microbalances (QCM). A self-assembled monolayer of thiol-alkoxysilane
coupling agent on the gold surface was used as the interfacial layer to promote adhesion of
the zeolite crystals to the QCM. The resulting, densely packed single layers of zeolite
crystals were stable to at least 625 K. Transient sorption behavior of organic vapor
pulses, dynamic vapor sorption isotherms and nitrogen sorption isotherms at liquid
nitrogen temperature were examined to characterize the zeolite-coated QCMs. Depending on
the type of zeolite coating, the resonance frequency response to vapor pulses could be
increased up to 500-fold compared to the bare QCM. The regular micropores (0.3-0.8
nm) of the QCM-attached zeolite crystals were found to control molecular access into the
extensive intrazeolite volume. Selectivity of the frequency response in excess of 100:1
toward molecules of different size and/or shape could be demonstrated. An additional
recognition mechanism based upon intrazeolite diffusion rates was also established
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