Izabela Olszowska scite author profile

Izabela Olszowska

2Publications

19Citation Statements Received

60Citation Statements Given

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Affiliations

Institute of Physical Chemistry, Polish Academy of Sciences

Publications

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An alternative carrier solvent for fingermark enhancement reagents

Olszowska

Deacon

Lindsay

et al. 2018

Forensic Science International

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Solstice Performance Fluid (PF), trans-1-chloro-3,3,3-trifluoropropene, is presented as an alternative to HFE7100, methoxy-nonafluorobutane, as a carrier solvent in a number of chemical formulations used for the visualisation of latent fingermarks. The supply of HFE7100 may be at risk due to a recent European Union regulation to control global warming. Laboratory trials using split depletions and a pseudo-operational trial of 1000 porous samples have shown that Solstice PF is a viable alternative to HFE7100 for the chemical formulations of ninhydrin and 1,2-indanedione. Other preliminary trials have also indicated that Solstice PF can be used as a carrier solvent for the zinc toning of marks found using ninhydrin as well as the α-naphtholflavone fixative solution for iodine developed marks. Results from the pseudo-operational trial demonstrate that the number of marks detected by ninhydrin and 1,2-indanedione formulations for each carrier solvent is comparable. When compared to HFE7100, advantages of Solstice PF include a very low global warming potential and atmospheric lifetime in addition to a higher wetting index and lower costs. This study also provides a validation study that supports the potential replacement of DFO with 1,2-indanedione.

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Zinc oxide quantum dots embedded in hydrophobic silica particles for latent fingermarks visualization based on time-gated luminescence measurements

Olszowska

Leśniewski

Kelm

et al. 2020

Methods Appl. Fluoresc.

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In this work we demonstrate a composite material based on silica particles. The particles have been doped with zinc oxide quantum dots which possess long living luminescence. The surface of the particles has been functionalized with phenyl groups using sol-gel process. The new material has been successfully applied for visualization of natural latent fingermarks on several surfaces, in particular, those showing their own luminescence and intensive background staining while using powder dusting, what is of the vital interest of forensic science. The time-gated imaging allows to overcome the background luminescence problem and surface functionalization increases the affinity of the particles to the fingermarks, what improves the selectivity of a new developing agent. The main novelty of the presented approach is the use of composite material that combines two main features—long lifetime luminescence and the ability to preferentially attach to the fingermark, due to hydrophobic interactions. Moreover,the utilization of deposition from the suspension instead of simple powder dusting allows for development of latent fingermarks on the surfaces that are difficult to work with powders (e.g. sticky side of the adhesive tape).

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