Solid-Phase Room-Temperature Phosphorescence

This paper presents new determination methods for five tetracycline antibiotics by solid surface-room temperature phosphorescence with filter paper and polyamide membrane treated with sucrose as solid substrates and TlAc or TlNO, as heavy atom salts. Various factors affecting RTP intensity of tetrac

A flow-through optosensor for tetracyclines based on the tetracycline-europium chelate room temperature phosphorescence energy transfer is proposed. The sensor is developed in conjunction with ti flow-injection analysis system and is based on the transient immobilization on a non-ionic resin (packed

Room-temperature phosphorescence (RTP) characteristics of 27 banned drugs in sport on Whatman No. 1 filter paper were studied. Several heavy-atom perturbers, including I-, TI + and Pb 2+, and the effect of pH were investigated. Optimum experimental conditions for every case were evaluated. The phase

Room temperature phosphorimetric studies were made on two important fluorescent probes: 8-~linonaph~~ene-lsulfonate (ANS) and 6-toluidinylnaphthalene-2-sulfonate (TNS). The two dyes gave proper RTP signals using solid-substrate room temperatnre phosphorimetry (SS-RTP) and micellar-stabilized room te

The use of a spin-forbidden transition enhancer as dimethylmercury allows one to measure phoqhorescencc spectra in a fluid medium at room temperature. As an example, the T1 + So radiative transition ofoct~hcficcne.