Irina Kriukova scite author profile

Irina Kriukova

3Publications

27Citation Statements Received

88Citation Statements Given

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100

Affiliations

Moscow Engineering Physics Institute, University of Reims Champagne-Ardenne

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Intranasal Concentrations of Orally Administered Flavors

Frasnelli¹,

Ruth²,

Kriukova³

et al. 2005

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The odorants emanating from the oral cavity during eating and drinking reach the olfactory mucosa via the pharynx (retronasal olfaction). It is unclear which variables influence the perception of intraorally applied substances. The aim of the present study was to determine the temporal profiles of volatile odor concentrations at different locations in the nasal cavity during consumption of liquid and solid custard samples using proton transfer reaction mass spectrometry. Intranasal odor concentrations were measured at least twice in nine subjects (six female, three male) at four nasal positions during the consumption of liquid and solid custards. The low-viscosity custard was swallowed earlier than the more solid one. The compounds were found to reach the nose in different concentrations. Largest maximal amplitudes were measured in the nasopharynx, whereas lowest concentrations were found in the region of the olfactory cleft. In addition, different odorants reached the different regions in the nasal cavity in varying concentrations, indicated by a significant interaction between factors "position" and "compound". Furthermore, the compounds were found to reach the positions within the nasal cavity with different latencies. These results indicate that different volatile flavor compounds exhibit different temporal and spatial profiles in terms of their intranasal distribution.

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Enhanced spontaneous emission from two-photon-pumped quantum dots in a porous silicon microcavity

et al. 2020

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Photoluminescence (PL)-based sensing techniques have been significantly developed in practice due to their key advantages in terms of sensitivity and versatility of the approach. Recently, various nanostructured and hybrid materials have been used to improve the PL quantum yield and the spectral resolution. The near-infrared (NIR) fluorescence excitation has attracted much attention because it offers deep tissue penetration and it avoids the autofluorescence of the biological samples. In our study, we have shown both spectral and temporal PL modifications under two-photon excitation of quantum dots (QDs) placed in one-dimensional porous silicon photonic crystal (PhC) microcavities. We have demonstrated an up-to-4.3-fold Purcell enhancement of the radiative relaxation rate under two-photon excitation. The data show that the use of porous silicon PhC microcavities operating in the weak coupling regime permits the enhancement of the PL quantum yield of QDs under two-photon excitation, thus extending the limits of their biosensing applications in the NIR region of the optical spectrum.

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Near-infrared photoluminescent hybrid structures based on freestanding porous silicon photonic crystals and PbS quantum dots

2021

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Irina Kriukova

Intranasal Concentrations of Orally Administered Flavors

Enhanced spontaneous emission from two-photon-pumped quantum dots in a porous silicon microcavity

Near-infrared photoluminescent hybrid structures based on freestanding porous silicon photonic crystals and PbS quantum dots

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