Column separation and preconcentration of copper(II), lead(II) and zinc(II) from seawater

Summary The sample of seawater (51) is freed from solid particles, buffered at pH 5.6 and percolated through a column filled with ED₃A. After sample passage 15 ml 1 M hydrochloric acid solution are pumped through the column to dissolve the concentrated ions. The final measurement using flame atomic absorption is carried out in the hydrochloric acid solution. The total labour time is less than 15 min. The standard deviations (4 analyses) for the determination of Cu, Pb and Zn (in the normal concentration range of 2–6 g · l^–1) were 2–5%, 5% and 1–10%, the recoveries 100%, 102% and 104%, respectively. A concentration coefficient of 300–500 was obtained.On leave from Lisbon University, Portugal     

Growth of High‐Quality,Thickness‐Reduced Zeolite Membranes towards N2/CH4 Separation Using High‐Aspect‐Ratio Seeds

Greatly improved zeolite membranes were prepared by using high‐aspect‐ratio zeolite seeds. Slice‐shaped seeds with a high aspect ratio (AR) facilitated growth of thinner continuous SAPO‐34 membranes of much higher quality. These membranes showed N₂ permeances as high as (2.87±0.15)×10⁻⁷ mol m⁻² s⁻¹ Pa⁻¹ at 22 °C while maintaining a decent N₂/CH₄ selectivity (9–11.2 for equimolar mixture). On the basis of these thinner high‐quality SAPO‐34 membranes, fine‐tuning the local crystal structure by incorporating more silicon further increased the N₂ permeance by 1.4 times without sacrificing the N₂/CH₄ selectivity. We expect that application of large AR zeolite seeds might be a viable strategy to grow thin high‐quality zeolite membranes. In addition, fine‐tuning of the crystal structure by changing the crystal composition might be a feasible way for further improving the separating performance of high‐quality zeolite membranes.     

High‐Precision Size Recognition and Separation in Synthetic 1D Nanochannels

Covalent organic frameworks (COFs) allow elaborate manufacture of ordered one‐dimensional channels in the crystal. We defined a superlattice of COFs by engineering channels with a persistent triangular shape and discrete pore size. We observed a size‐recognition regime that is different from the characteristic adsorption of COFs, whereby pore windows and walls were cooperative so that triangular apertures sorted molecules of one‐atom difference and notch nanogrooves confined them into single‐file molecular chains. The recognition and confinement were accurately described by sensitive spectroscopy and femtosecond dynamic simulations. The resulting COFs enabled instantaneous separation of mixtures at ambient temperature and pressure. This study offers an approach to merge precise recognition, selective transport, and instant separation in synthetic 1D channels.     

Embedding and Positioning of Two FeII4L4 Cages in Supramolecular Tripeptide Gels for Selective Chemical Segregation

An unreported d,l ‐tripeptide self‐assembled into gels that embedded Fe^II₄L₄ metal–organic cages to form materials that were characterized by TEM, EDX, Raman spectroscopy, rheometry, UV/Vis and NMR spectroscopy, and circular dichroism. The cage type and concentration modulated gel viscoelasticity, and thus the diffusion rate of molecular guests through the nanostructured matrix, as gauged by ¹⁹F and ¹H NMR spectroscopy. When two different cages were added to spatially separated gel layers, the gel–cage composite material enabled the spatial segregation of a mixture of guests that diffused into the gel. Each cage selectively encapsulated its preferred guest during diffusion. We thus present a new strategy for using nested supramolecular interactions to enable the separation of small molecules.     

Apparatur zur thermokonstanten Elektrophorese oder Fokussierung und ihre Zusatzteile

Zusammenfassung Eine neue Apparatur und ihre Zusatzteile werden beschrieben, die es ermöglicht, in senkrechten, beliebig dicken Gelplatten thermostatiert geladene Moleküle, vor allem Proteine und Nucleinsäuren, im elektrischen Feld zu trennen. Eine Zwischenkühlplatte erlaubt die Verdoppelung der Probenkapazität, ein Adapter z.B. Fokussierungen in Röhrchen und ein diskontinuierlich gespülter präparativer Einsatz die fortlaufende Elution von elektrophoretisch getrennten Proben. Nachweisgrenze für Proteine: etwa 0,1 g; maximale Beladung bei 16 mm dicken Gelen: 1 g. Genaue Arbeitsanweisungen werden gegeben; auf die Kontrolle der Porengröße bei Dialysiermembranen wird hingewiesen.

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Apparatus for thermostated electrophoresis or focusing and its accessories

A new apparatus is described for separation of charged molecules in vertical thermostated adaptable gel slabs including the supplements for electrofocusing, for doubling the capacity of samples and for continuous elution during electrophoresis. The load for proteins detectable ranges between a fraction of a microgram in a slab 1 mm thick and 1 g in the preparative version of 16 mm thickness. Detailed working instructions are given. Attention is paid to the control of pore size in collodium membranes.