Separation of Clinical Grade 188Re from 188W Using Polymer Embedded Nanocrystalline Titania

Currently, ¹⁸⁸Re is obtained from ¹⁸⁸W/¹⁸⁸Re chromatographic generator containing alumina which has a limited capacity (~80 mg Wg⁻¹) for ¹⁸⁸W. This results in high bolus volumes of ¹⁸⁸Re, which often needs to be concentrated before radiolabeling. We have demonstrated the feasibility of using polymer embedded nano crystalline titania (TiP), a novel high capacity sorbent material (~300 mg Wg⁻¹), for developing a ¹⁸⁸W/¹⁸⁸Re chromatographic generator. A TiP based chromatographic ¹⁸⁸W/¹⁸⁸Re generator was developed in which ¹⁸⁸Re could be eluted with 0.9% saline solution. About 90% of the ¹⁸⁸Re could be recovered in the first 4–5 mL of total activity with more than 80% yield. The purity of ¹⁸⁸Re is adequate for clinical applications.

     

Specific heat anomaly in the 90 K superconductor HoBa2Cu3O7−y

We report here the results of our heat capacityC _p measurements on a monophasic material HoBa₂Cu₃O_7−y . ΔC _p/T_c, the jump inC _p at the superconducting transition temperature (=91 K) of the material is measured to be 31 mJ/mol-K².     

Untersuchungen über die emulgierende Wirkung von Natriumcholeat

Toluene-in-water emulsions were prepared using sodium choleate as emulgent. The microscopic data revealed the systems flocculating at appreciable rate on ageing and with electrolyte content. Half lives of the dispersions for different concentration of flocculants were determined. The electrophoretic results and the calculated energy data showed the emulsion with high degree of stability. The reversible flocculation occurring in secondary minima is thus concluded. Adsorption constants and free energy of adsorption etc. at isoelectric point were calculated.

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Transforming chiral liquid chromatography methodologies into more sensitive liquid chromatography-electrospray ionization mass spectrometry without losing enantioselectivity

LC-electrospray ionization (ESI) MS conditions were optimized for the individual chiral separation of 19 compounds of pharmaceutical interest using the macrocyclic glycopeptide-based chiral stationary phases in both polar organic and reversed-phase modes (RPM). The influence of mobile phase composition and MS additive type on sensitivity was investigated for all classes of compounds tested. Compounds with amine or amide groups were efficiently separated, ionized, and detected with the addition of 0.1% (w/w) ammonium trifluoroacetate to the solvent system in either the reversed-phase or polar organic mode (POM). Macrocyclic glycopeptide coupled column technology was initially used to screen all chiral compounds analyzed. Baseline resolution of enantiomers was then achieved with relatively short retention times and high efficiencies on Chirobiotic T, Chirobiotic V or Chirobiotic R narrow bore chiral stationary phases. The polar organic mode offered better limits of detection (as low as 100 pg/ml) and sensitivity over reversed-phase methods. An optimum flow-rate range of 200-400 microl/min was necessary for sensitive chiral LC-ESI-MS analysis.     

Analysis of native amino acid and peptide enantiomers by high-performance liquid chromatography/atmospheric pressure chemical ionization mass spectrometry

High-performance liquid chromatography (HPLC) coupled to atmospheric pressure chemical ionization (APCI) mass spectrometry was used for the separation and detection of amino acid and peptide enantiomers. With detection limits as low as 250 pg, 25 amino acids enantiomers were baseline resolved on a Chirobiotic T chiral stationary phase. APCI demonstrated an order of magnitude better sensitivity over electrospray ionization (ESI) for free amino acids and low molecular mass peptides at the high LC flow-rates necessary for rapid analysis. As the peptide chain length increased (peptides with M(r) > or = 300 Da), however, ESI proved to be the more ideal atmospheric pressure ionization source. A mobile phase consisting of 1% (w/w) ammonium trifluoroacetate in methanol and 0.1% (w/w) formic acid in water increased the sensitivity of the APCI method significantly. A step gradient was then used to separate simultaneously all 19 native protein amino acid enantiomers in less than 20 min using extracted ion chromatograms.     

A search for mechanoluminophors capable of pressure-induced thermal population of excited states

During the process of deforming a crystal, a high pressure is developed near the tip of mobile cracks, which may in turn produce a new ground state by thermal electron transfer. Upon sudden release of pressure, the electron can either relax to one atmosphere ground state or remain in the excited state potential well long enough to relax to one atmosphere and radiatively transfer back to the ground state. For analysing the pressure induced thermal population of the excited state, the mechanoluminescence(ML) and high pressure photoluminescence(PL) of several organic and inorganic crystals were measured. The study indicated that usual pressure coefficient of energy shift of the order of 50–100 cm⁻¹/kbar and the stress at the crack-tip of the order of 5–10 kbar, are not sufficient to cause the thermal population of the excited state. If by any means the product of pressure coefficient and stress at the mobile crack-tip can be increased by 50 to 100 times, then the thermal population of the excited states may take place. Using the pressure coefficient of energy shift and the difference in ML and PL spectra, and using independently the change in relative intensities of the vibronic peaks, the pressure at the emitting mechanoluminescent crystal sites is evaluated and it is found to be of the order of several kbar which varies from crystal to crystal.     

Raman scattering from amorphous zones in neutron irradiated silicon

A Raman scattering study of neutron irradiated silicon is presented for the first time. We have observed features in the Raman spectrum arising from amorphous zones produced in the bulk of the sample due to neutron induced defects. We relate these first order Raman modes to the crystalline vibrational density of states averaged over the Brillouin zone.     

A general approach to bosonization

We summarize recent developments in the field of higher dimensional bosonization made by Setlur and collaborators and propose a general formula for the field operator in terms of currents and densities in one dimension using a new ingredient known as a ‘singular complex number’. Using this formalism, we compute the Green function of the homogeneous electron gas in one spatial dimension with short-range interaction leading to the Luttinger liquid and also with long-range interactions that lead to a Wigner crystal whose momentum distribution computed recently exhibits essential singularities. We generalize the formalism to finite temperature by combining with the author’s hydrodynamic approach. The one-particle Green function of this system with essential singularities cannot be easily computed using the traditional approach to bosonization which involves the introduction of momentum cutoffs, hence the more general approach of the present formalism is proposed as a suitable alternative.