Your search keyword '"refractometry"' showing total 12,747 results

151. Metasurface Micro/Nano-Optical Sensors: Principles and Applications

Author

Jin Qin, Shibin Jiang, Zhanshan Wang, Xinbin Cheng, Baojun Li, Yuzhi Shi, Din Ping Tsai, Ai Qun Liu, Wei Huang, and Weiming Zhu

Subjects

Optics and Photonics, Refractometry, General Engineering, Reproducibility of Results, General Physics and Astronomy, General Materials Science

Abstract

Metasurfaces are 2D artificial materials consisting of arrays of metamolecules, which are exquisitely designed to manipulate light in terms of amplitude, phase, and polarization state with spatial resolutions at the subwavelength scale. Traditional micro/nano-optical sensors (MNOSs) pursue high sensitivity through strongly localized optical fields based on diffractive and refractive optics, microcavities, and interferometers. Although detections of ultra-low concentrations of analytes have already been demonstrated, the label-free sensing and recognition of complex and unknown samples remain challenging, requiring multiple readouts from sensors

Published

2022

152. Fabry-Pérot based refractometry : development of a transportable refractometer for assessment of gas pressure

Author

Forssén, Clayton and Forssén, Clayton

Abstract

A unified description of physical phenomena through measurement science is one of the foundational pillars in a global society. The International System of Units (SI) is the most widely used system of units and since its redefinition in 2019, all units encompassed by it are based on fundamental physical constants. The units of the SI, such as the second, metre, and kilogram, are realized by the use of primary standards which are used, through calibration chains, to certify the accuracy of measuring devices in our society. Its redefinition enabled the realization of the SI-unit for pressure (pascal) in a novel way; instead of force per area (N/m2), it can alternatively be defined as an energy density (J/m3). Subsequently, this opened up for the use of optical realizations of the pascal (Pa). It has been prophesied that a possible means to do this is by assessing refractivity through the use of Fabry-Pérot (FP) refractometry. Although such instrumentation indeed can assess refractivity, it has unfortunately been found that they in practice are affected by various types of disturbances that aggravate assessments with the required uncertainty. This thesis describes the development of FP-based refractometers utilizing a novel measurement methodology, denoted gas modulation refractometry (GAMOR). By the use of rapid gas modulation and baseline interpolation, GAMOR has the ability to significantly reduce the influence of various types of disturbances, not least drifts and fluctuations. From this, two FP-based refractometers have been developed; one stationary, denoted the SOP, capable of assessing pressure with an uncertainty of [(10 mPa)2 + (10 × 10−6·P)2]1/2, and one transportable, denoted the TOP, with an uncertainty of [(16 mPa)2 + (28 × 10−6·P)2]1/2. Furthermore, it was shown that their mutual short-term precision is excellent, with a deviation of only 0.04 ppm when simultaneously assessing a pressure of 16 kPa. A major part of this thesis was devoted to the construct, En av grundpelarna i ett globalt samhälle är en enad syn på fysikaliska fenomen med förankring i vetenskap. Det Internationella måttenhetssystemet (SI) är det mest använda enhetssystemet och sedan dess omdefiniering 2019 är alla dess enheter baserade på grundläggande fysikaliska konstanter. SI-enheterna, som exempelvis sekund, meter och kilogram, realiseras genom primära standarder. Dessa standarder används, via kalibreringskedjor, för att certifiera noggrannheten av mätinstrument runtom vårt samhälle. Omdefiniering ledde till möjligheten att realisera enheten för tryck (pascal) på ett nytt sätt; i stället för kraft per area (N/m2) går det numera att definiera tryck som energidensitet (J/m3). Detta ledde i sin tur till att optiska realiseringar av pascal (Pa) för gastryck blev en möjlighet. Det har påvisats att detta kan uppnås genom att mäta refraktivitet med hjälp av Fabry-Pérot (FP)-refraktometri. Även om denna teknik kan användas för att bestämma refraktivitet, påverkas den i praktiken av diverse störningar vilket försvårar den nogrannhet som krävs för att ersätta dagens mekaniska tryckstandarder. I denna avhandling beskrivs utvecklingen av FP-baserade refraktometrar som använder sig av en av oss nyutvecklad mätteknik; gasmodulationsrefraktometri (GAMOR). Tekniken bygger på en snabb modulering av gas och baslinje-interpolering, vilket reducerar effekten av snabba likaväl som långsamma störningar. Baserat på detta har två refraktometrar utvecklats; en stationär, SOP, som kan mäta tryck med en osäkerhet på [(10 mPa)2 + (10 × 10−6·P)2]1/2, samt en transportabel, TOP, med en osäkerhet på [(16 mPa)2 + (28 × 10−6·P)2]1/2. Vidare har det visats att deras inbördes korttidsprecision är utmärkt, med en avvikelse på endast 0.04 ppm när de samtidigt mätte ett tryck på 16 kPa. En signifikant del av denna avhandling har ägnats till att konstruera TOP:en, samt att undersöka dess transporterbarhet och prestanda. Den användes i en serie jämförelsemätningar av olika tryckstandard

Published

2023

153. Application of fiber loop ringdown spectroscopy technique for a new approach to beta-amyloid monitoring for Alzheimer Disease's early detection.

Author

Kaya BM, Oz S, and Esenturk O

Subjects

Humans, Optical Fibers, Biomarkers analysis, Refractometry, Equipment Design, Alzheimer Disease diagnosis, Amyloid beta-Peptides analysis, Fiber Optic Technology methods, Peptide Fragments analysis, Early Diagnosis, Biosensing Techniques methods, Spectrum Analysis methods

Abstract

A novel fiber optic biosensor was purposed for a new approach to monitor amyloid beta protein fragment 1-42 (A β 42) for Alzheimer's Disease (AD) early detection. The sensor was fabricated by etching a part of fiber from single mode fiber loop in pure hydrofluoric acid solution and utilized as a Local Optical Refractometer (LOR) to monitor the change A β 42 concentration in Artificial Cerebrospinal Fluid (ACSF). The Fiber Loop Ringdown Spectroscopy (FLRDS) technique is an ultra-sensitive measurement technique with low-cost, high sensitivity, real-time measurement, continuous measurement and portability features that was utilized with a fiber optic sensor for the first time for the detection of a biological signature in an ACSF environment. Here, the measurement is based on the total optical loss detection when specially fabricated sensor heads were immersed into ACSF solutions with and without different concentrations of A β 42 biomarkers since the bulk refractive index change was performed. Baseline stability and the reference ring down times of the sensor head were measured in the air as 0.87% and 441.6 μ s ± 3.9 μ s, respectively. Afterward, the total optical loss of the system was measured when the sensor head was immersed in deionized water, ACSF solution, and ACSF solutions with A β 42 in different concentrations. The lowest A β 42 concentration of 2 ppm was detected by LOR. Results showed that LOR fabricated by single-mode fibers for FLRDS system design are promising candidates to be utilized as fiber optic biosensors after sensor head modification and have a high potential for early detection applications of not only AD but possibly also several fatal diseases such as diabetes and cancer., (© 2024 IOP Publishing Ltd.)

Published

2024

154. Noise Tolerant Photonic Bowtie Grating Environmental Sensor.

Author

Li K, Suliali NJ, Sahoo PK, Silver CD, Davrandi M, Wright K, Reardon C, Johnson SD, and Krauss TF

Subjects

Refractometry, Temperature, Vibration, Salinity, Photons

Abstract

Resonant photonic refractive index sensors have made major advances based on their high sensitivity and contact-less readout capability, which is advantageous in many areas of science and technology. A major issue for the technological implementation of such sensors is their response to external influences, such as vibrations and temperature variations; the more sensitive a sensor, the more susceptible it also becomes to external influences. Here, we introduce a novel bowtie-shaped sensor that is highly responsive to refractive index variations while compensating for temperature changes and mechanical (linear and angular) vibrations. We exemplify its capability by demonstrating the detection of salinity to a precision of 0.1%, corresponding to 2.3 × 10 -4 refractive index units in the presence of temperature fluctuations and mechanical vibrations. As a second exemplar, we detected bacteria growth in a pilot industrial environment. Our results demonstrate that it is possible to translate high sensitivity resonant photonic refractive index sensors into real-world environments.

Published

2024

155. Refractive index adjustable intraocular lens design to achieve diopter control for improving the treatment of ametropia after cataract surgery.

Author

Hong Y, Liu D, Zou H, Jia Q, Tang S, and Lin Q

Subjects

Humans, Lens Implantation, Intraocular, Visual Acuity, Refractometry, Coumarins, Methacrylates, Lenses, Intraocular, Refractive Errors, Cataract

Abstract

Intraocular lens (IOL) implantation is currently the most effective clinical treatment for cataracts. Nevertheless, due to the growth of the eye axis in patients with congenital cataracts during the process of growth and development, the progressive incapacity of an IOL with a fixed focus does not meet the demands of practical usage, leading to the occurrence of ametropia. This work describes an innovative class of an IOL bulk material that offers good biosafety and light-controlled refractive index adjustment. Acrylate materials were synthesized for the preparation of IOLs by free radical polymerization of ethylene glycol phenyl ether methacrylate (EGPEMA), hydrophilic monomer 2-(2-ethoxyethoxy) ethyl acrylate (EA), and functional monomer hydroxymethyl coumarin methacrylate (CMA). Under 365/254 nm ultraviolet (UV) irradiation, the coumarin group could adjust the polymer material's refractive index through reversible photoinduced dimerization/depolymerization. Meanwhile, the potential for the IOL use is enabled by its satisfactory biosafety. Such a light-induced diopter adjustable IOL will be more appropriate for implantation during cataract surgery since it will not require the correction needed for ametropia and will offer more accurate and humane treatment. STATEMENT OF SIGNIFICANCE., Competing Interests: Declarations of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 Acta Materialia Inc. Published by Elsevier Ltd. All rights reserved.)

Published

2024

156. Two-Dimensional SEC-SEC-UV-MALS-dRI Workflow for Streamlined Analysis and Characterization of Biopharmaceuticals.

Author

Barrientos RC, Singh AN, Ukaegbu O, Hemida M, Wang H, Haidar Ahmad I, Hu H, Dunn ZD, Appiah-Amponsah E, and Regalado EL

Subjects

Workflow, Chromatography, Gel, Proteins analysis, Refractometry, Biological Products

Abstract

The emergence of complex biological modalities in the biopharmaceutical industry entails a significant expansion of the current analytical toolbox to address the need to deploy meaningful and reliable assays at an unprecedented pace. Size exclusion chromatography (SEC) is an industry standard technique for protein separation and analysis. Some constraints of traditional SEC stem from its restricted ability to resolve complex mixtures and notoriously long run times while also requiring multiple offline separation conditions on different pore size columns to cover a wider molecular size distribution. Two-dimensional liquid chromatography (2D-LC) is becoming an important tool not only to increase peak capacity but also to tune selectivity in a single online method. Herein, an online 2D-LC framework in which both dimensions utilize SEC columns with different pore sizes is introduced with a goal to increase throughput for biomolecule separation and characterization. In addition to improving the separation of closely related species, this online 2D SEC-SEC approach also facilitated the rapid analysis of protein-based mixtures of a wide molecular size range in a single online experimental run bypassing time-consuming deployment of different offline SEC methods. By coupling the second dimension with multiangle light scattering (MALS) and differential refractive index (dRI) detectors, absolute molecular weights of the separated species were obtained without the use of calibration curves. As illustrated in this report for protein mixtures and vaccine processes, this workflow can be used in scenarios where rapid development and deployment of SEC assays are warranted, enabling bioprocess monitoring, purity assessment, and characterization.

Published

2024

157. Acoustic hologram-induced virtual in vivo enhanced waveguide (AH-VIEW).

Author

Lin Q, Li Z, Wang B, Zhou M, Xie Y, Wang D, Hou C, Wang R, Liu X, Sun X, Shan H, Chen Z, Wu H, Yang Y, Fei C, and Chen Z

Subjects

Mice, Animals, Swine, Phototherapy, Skull, Acoustics, Refractometry, Photoacoustic Techniques methods

Abstract

Optical imaging and phototherapy in deep tissues face notable challenges due to light scattering. We use encoded acoustic holograms to generate three-dimensional acoustic fields within the target medium, enabling instantaneous and robust modulation of the volumetric refractive index, thereby noninvasively controlling the trajectory of light. Through this approach, we achieved a remarkable 24.3% increase in tissue heating rate in vitro photothermal effect tests on porcine skin. In vivo photoacoustic imaging of mouse brain vasculature exhibits an improved signal-to-noise ratio through the intact scalp and skull. These findings demonstrate that our strategy can effectively suppress light scattering in complex biological tissues by inducing low-angle scattering, achieving an effective depth reaching the millimeter scale. The versatility of this strategy extends its potential applications to neuroscience, lithography, and additive manufacturing.

Published

2024

158. A Novel Biosensor for the Detection of Glucose Concentration Using the Dual-Peak Long Period Grating in the Near- to Mid-Infrared.

Author

Sahoo N, Sun B, Tan Y, Zhou K, and Zhang L

Subjects

Humans, Optical Fibers, Refractometry, Glucose, Glucose Oxidase, Biosensing Techniques methods

Abstract

In this article, we demonstrate an improved efficient fibre sensor with a high sensitivity to measure glucose concentrations in the physiological range of human beings, operating in a broad spectral bandwidth from the near- to mid-infrared. The sensor consists of a dual-peak long period grating (DPLPG) with a period of 150 μm inscribed in an optical fibre with a diameter of 80 μm. The investigation of sensing for refractive index results in a sensitivity of ~-885.7 nm/refractive index unit (RIU) and ~2008.6 nm/RIU in the range of 1.30-1.44. The glucose measurement is achieved by the immobilisation of a layer of enzyme of glucose oxidase (GOD) onto the fibre surface for the selective enhancement of sensitivity for glucose. The sensor can measure glucose concentrations with a maximum sensitivity of -36.25 nm/(mg/mL) in the range of 0.1-3.0 mg/mL. To the best of our knowledge, this is the highest sensitivity ever achieved for a measurement of glucose with a long period grating-based sensor, indicating its potential for many applications including pharmaceutical, biomedical and food industries.

Published

2024

159. Real-time simultaneous refractive index and thickness mapping of sub-cellular biology at the diffraction limit.

Author

Burguete-Lopez A, Makarenko M, Bonifazi M, Menezes de Oliveira BN, Getman F, Tian Y, Mazzone V, Li N, Giammona A, Liberale C, and Fratalocchi A

Subjects

Humans, HCT116 Cells, Refractometry

Abstract

Mapping the cellular refractive index (RI) is a central task for research involving the composition of microorganisms and the development of models providing automated medical screenings with accuracy beyond 95%. These models require significantly enhancing the state-of-the-art RI mapping capabilities to provide large amounts of accurate RI data at high throughput. Here, we present a machine-learning-based technique that obtains a biological specimen's real-time RI and thickness maps from a single image acquired with a conventional color camera. This technology leverages a suitably engineered nanostructured membrane that stretches a biological analyte over its surface and absorbs transmitted light, generating complex reflection spectra from each sample point. The technique does not need pre-existing sample knowledge. It achieves 10 -4 RI sensitivity and sub-nanometer thickness resolution on diffraction-limited spatial areas. We illustrate practical application by performing sub-cellular segmentation of HCT-116 colorectal cancer cells, obtaining complete three-dimensional reconstruction of the cellular regions with a characteristic length of 30 μm. These results can facilitate the development of real-time label-free technologies for biomedical studies on microscopic multicellular dynamics., (© 2024. The Author(s).)

Published

2024

160. Two-in-one sensor of refractive index and Raman scattering using hollow-core microstructured optical waveguides for colloid characterization.

Author

Merdalimova A, Barmin R, Vorobev V, Aleksandrov A, Terentyeva D, Estifeeva T, Chernyshev V, German S, Maslov O, Skibina Y, Rudakovskaya P, and Gorin D

Subjects

Colloids, Spectrum Analysis, Raman, Refractometry

Abstract

Hollow-core microstructured optical waveguides (HC-MOW) have recently emerged in sensing technologies, including the gas and liquid detection for industrial as well as clinical applications. Antiresonant HC-MOW provide capabilities for applications in refractive index (RI) sensing, while the long optical path for analyte-light interaction in HC-MOW leads to increased sensitivity of sensor based on Raman scattering signal measurements. In this study, we developed a two-in-one sensor device using HC-MOW for RI and Raman scattering detection. The performance of the sensor was evaluated by characterizing protein-copolymer multicomponent colloids, specifically, bovine serum albumin (BSA) and poly(N - vinyl-2 -pyrrolidone-co-acrylic acid) P(VP-AA) nano-sized complexes and microbubbles of the corresponding shell. Monocomponent solutions showed linear dependencies of RI and characteristic Raman peak intensities on mass concentration. Multicomponent Raman sensing of BSA@P(VP-AA) complexes and microbubbles revealed that changes in P(VP-AA) characteristic peak intensities can describe interactions between components needed to produce colloid systems. RI sensing of multicomponent colloids demonstrated linear dependence on total mass concentrations for BSA@P(VP-AA) complexes, while corresponding BSA@P(VP-AA) microbubbles can be detected with concentrations as high as 4.0 × 10 8 MB/mL. Therefore, the developed two-in-one sensor of RI and Raman scattering can be used the robust characterization of albumin-based colloids designed for therapeutic and diagnostic needs., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 Elsevier B.V. All rights reserved.)

Published

2024

161. Evaluation of quality parameters in commercial beverages with added sugar content

Author

Esteban Pérez-López, Valeria Amores Monge, and Alison Loría León

Subjects

bebidas comerciales, commercial beverages, refractometry, pH, contenido de azúcares, Brix degrees, General Medicine, Grados Brix, refractometría, sugar content

Abstract

Resumen: La ingesta de azúcar de manera no controlada acarrea severos problemas a la salud, que ya han sido profundamente estudiados en múltiples investigaciones. En este sentido, el alto contenido de azúcar etiquetado y contenido en las bebidas comerciales se tornan en foco de interés continuo a nivel de la salud, por los consumidores de distintas edades y estratos sociales que se aferran a hábitos nocivos de consumo de tales productos. El objetivo de esta investigación fue indagar sobre el contenido de azúcares y el pH en las principales bebidas comerciales adquiridas en el mercado costarricense. Se aplicaron metodologías analíticas de laboratorio para la determinación experimental directa de °Brix y pH en las principales bebidas seleccionadas para el estudio. Como resultados se obtuvieron valores de pH que oscilan entre 2,50 y 4,50 en todas las categorías seleccionadas de refrescos para este estudio, y con respecto a los grados Brix, se obtuvieron datos en el rango de 4,5 y 14,1, lo cual está relacionado directamente con el porcentaje de sólidos disueltos totales en las bebidas, en este caso azúcares mayoritariamente. Se refleja cierto grado de acidez en las bebidas analizadas experimentalmente, lo cual es típico en las bebidas comerciales por los componentes de la formulación y se reflejó alto contenido de azúcares en las bebidas, pero considerado dentro de lo normal para el contenido de azúcares en dichos productos. Abstract: The intake of sugar in an uncontrolled way leads to severe health problems, which have already been deeply studied in multiple investigations. In this sense, the high content of labeled sugar and content in commercial beverages become a focus of continuous interest at the health level, by consumers of different ages and social strata who cling to harmful habits of consumption of such products. The objective of this research was to investigate the sugar content and pH in the main commercial beverages purchased in the Costa Rican market. Laboratory analytical methodologies were applied for the direct experimental determination of °Brix and pH in the main beverages selected for the study. As results, pH values ranging between 2.50 and 4.50 were obtained in all the selected categories of soft drinks for this study, and with respect to Brix degrees, data in the range of 4.5 and 14.1 were obtained, which is directly related to the percentage of total dissolved solids in beverages, in this case mostly sugars. A certain degree of acidity is reflected in the experimentally analyzed beverages, which is typical in commercial beverages due to the components of the formulation and a high sugar content was reflected in the beverages but considered within the normal range for the sugar content in said beverages products.

Published

2023

162. PRELIMINARY STUDY OF BOVINE COLOSTRUM QUALITY IN LATVIA.

Author

Baltrukova, Svetlana, Zagorska, Jelena, and Eihvalde, Indra

Subjects

*COLOSTRUM, *IMMUNOGLOBULINS, *REFRACTOMETRY, *CATTLE parturition, *INFECTIOUS disease transmission

Abstract

Bovine colostrum is a mammary gland secret which, due to its high immunoglobulin concentration, is necessary for the transfer of passive immunity to the calf, preventing diseases caused by microbial infections in the newborn ruminants. Colostrum, however, may contain pathogens and can be an infection transmitter, affecting morbidity and mortality rates of calves in the farms. Total plate count and immunoglobulin concentration are two main factors affecting colostrum quality, therefore the aim of the study was to analyse Latvian dairy herd colostrum quality. Colostrum was collected from Holstein Black cows within the first six hours after calving, lactation period of animals ranged from 1st to 4th lactation. Colostrum samples (n=51, 50 mL) were collected from December 2018 to February 2019. Immunoglobulin concentration (n=51) was defined by colostrometer (COLOSTROMETERtm Biogenics, USA), total solids content by optical refractometer (Model BX, UK). Staphylococcus spp. colony-forming unit (CFU) (LVS EN ISO 6888-1+A1:2007), the presence of Listeria spp. (LVS EN ISO 11290-1+A1:2007) and Salmonella spp. (LVS EN ISO 6579-1:2017) were examined in the colostrum samples (n=20). Despite the high immunoglobulin concentration in the analysed samples, our research findings demonstrate suboptimal colostrum quality received by calves. That indicates the necessity for regular colostrum quality control and better management practise providing on the farm. [ABSTRACT FROM AUTHOR]

Published

2019

163. Alcohol Determination in Protein Fractionation Intermediates by Steam Distillation and Digital Refractometry.

Author

Anderle, Heinz, Spork, Matthias, Horn, David, Bauer, Theresa, Gnauer, Lucia, and Weber, Alfred

Subjects

*PROTEIN fractionation, *REFRACTOMETRY, *ALCOHOL analysis, *BIOTHERAPY, *IMMUNODEFICIENCY

Abstract

Almost 75 years after implementing the industrial ethanol fractionation process, based on the pioneering work of Edwin J. Cohn's research group, this niche biotechnology process has not lost its importance in helping to supply patients with life-saving biotherapies. Clearly, the focus has shifted from albumin, which was first used, to the indispensable immunoglobulin preparations produced for the effective, long-term treatment of patients suffering from immunodeficiencies. In addition, the widespread and safe therapeutic use of immunoglobulins has paved the way for the development of monoclonal antibodies, now used not only for the treatment of various autoimmune diseases, but also for cancer treatment. The Cohn fractionation process, based on the different solubilities of plasma proteins, depends on the five parameters of ethanol concentration, pH, temperature, protein, and salt concentration, which are the basis of this development. Ethanol concentration can clearly be considered an essential critical parameter for this process. Therefore, it is surprising that even after the advent of process analytical technology, there is still no fast, precise, and accurate procedure at hand to determine the alcohol content of Cohn fractionation intermediates. In this paper, we will describe the implementation of an old methodology for a new purpose, which is designed to close this gap. [ABSTRACT FROM AUTHOR]

Published

2020

164. Optical characterization of ethane droplets in the vicinity of critical pressure.

Author

Kanjanasakul, Chanisa, Grisch, Frédéric, Saengkaew, Sawitree, and Gréhan, Gérard

Subjects

ETHANES, REFRACTOMETRY, HIGH pressure (Technology), ETHANOL, THERMODYNAMICS

Abstract

The characterization of the properties of fuel droplets around the critical pressure is an experimental challenge. The aim of this study is to measure the size and the refractive index of droplets in high pressure conditions, close to the ones of the critical point. For this purpose, an experimental facility of injection of quasi-monodispersed droplets at high pressure has been developed. Rainbow refractometry has been used to probe droplets in the pressure range 1-50 bar. For water and ethanol droplets, evolutions of their index of refraction with pressure were obtained. For measurements with a liquid fluid near its critical point, ethane was selected because its critical point is 48.7 bar and 32.2 °C. Refractive index measurements on ethane droplets were carried out in the range of pressure and temperature 40-46 bar and 18-25 °C respectively. These unique results show that the rainbow refractometry diagnosis offers undeniable potentials for studying fuel injection under transcritical thermodynamic conditions. [ABSTRACT FROM AUTHOR]

Published

2020

165. La evaluación bioquímica de la proteinuria de caninos en el laboratorio de análisis clínicos veterinarios.

Author

JOAQUÍN VALENTÍN, RODRÍGUEZ, CORA, COLLA, MELINA BEATRIZ, GINÉS, and GISEL, SCHRÖDER

Subjects

ANIMAL diseases, KIDNEY diseases, PROTEINURIA, THERAPEUTICS, PATHOLOGICAL laboratories, FELIDAE

Abstract

Copyright of Analecta Veterinaria is the property of Universidad Nacional de La Plata and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2020

166. Variability among four refractometers for the measurement of urine specific gravity and comparison with urine osmolality in dogs.

Author

Rudinsky, Adam J., Wellman, Maxey, Tracy, Gaemia, Stoltenberg, Lisa, DiBartola, Stephen P., and Chew, Dennis J.

Subjects

GRAVIMETRY, REFRACTOMETERS, OSMOLALITY, URINE, SPECIFIC gravity

Abstract

Background: Refractometry is often used in clinical veterinary medicine to estimate urine concentration. Variability among commonly‐used refractometers has not been critically evaluated. Objective: This study aimed to evaluate the variability of urine specific gravity (USG) among four refractometers and compare results of USG measurements with those of urine osmolality (Uosm), the gold standard for determining urine concentrations. Methods: USG was determined in 100 dogs using three optical refractometers, the American Optical Abbe refractometer 10450, Reichert TS 400 refractometer, and Heska Veterinary refractometer 2737‐E02, and one digital refractometer, the Misco Palm Abbe Digital refractometer #PA203. Results were compared between each pair of refractometers and between each refractometer and urine osmolality determined by freezing point depression using a Multi‐Osmette 2430E osmometer. Results were analyzed with Bland‐Altman plots and Passing‐Bablok regression analysis. Results: The Reichert, Heska, and Misco refractometers provide USG measurements that can be used interchangeably based on small differences, consistently less than 0.002, between the USG measurements. The AO refractometer measured USG values with much larger differences, which were deemed clinically significant by the study parameters. None of the refractometers were able to accurately predict Uosm or vice versa within a clinically acceptable range. Conclusions: Varying degrees of differences were seen in the USG measurements among the different refractometers. These differences were refractometer‐dependent, and the results from one instrument could affect clinical decisions. [ABSTRACT FROM AUTHOR]

Published

2019

167. Hydroxyethyl starch 130/0.4 (6%) and succinylated gelatine (4%) interfere with refractometry in dogs with haemorrhagic shock.

Author

Yam, Elodie, Boyd, Corrin J., Hosgood, Giselle, Claus, Melissa A., Raisis, Anthea L., Sharp, Claire R., and Smart, Lisa

Subjects

*HYDROXYETHYL starch, *DOGS, *SPECIFIC gravity, *BLOOD proteins, *MOLECULAR weights, *GELATIN

Abstract

To determine if low molecular weight synthetic colloid fluids administered to dogs interfere with refractometric estimates of total plasma protein (TPPr) and urine osmolality (UOsm). Experimental study. Eighteen healthy Greyhound dogs. Anaesthetized Greyhounds subjected to haemorrhage for 60 minutes were given 80 mL kg–1 of Plasma-Lyte 148 (CRYST), or 20 mL kg–1 of hydroxyethyl starch 130/0.4 (HES) or succinylated gelatine (GELO) (n = 6 per group) intravenously over 20 minutes. Refractometric (TPPr) and biuret total plasma protein (TPPb) were measured before haemorrhage (Baseline), at end of shock (Shock), immediately (T20), then 40 minutes (T60), 100 minutes (T120) and 160 minutes (T180) after fluid administration. Urine specific gravity (USG) and UOsm were measured at all time points except T20. Estimated UOsm (eUOsm) was calculated from USG. Bias and limits of agreement (LOA) for TPPr versus TPPb, and eUOsm versus UOsm were calculated at each time point. For dogs given CRYST and GELO, median TPPr and TPPb decreased in parallel, with a small consistent TPP bias (CRYST range of bias, 0.38−0.67 g dL–1; GELO range of bias, 0.42−0.58 g dL–1). Dogs given HES showed divergence between median TPPr and TPPb after T20, with a peak bias at T20 of 1.62 g dL–1 (LOA 1.29−1.95). Dogs given HES and GELO had markedly increased USG [HES peak median USG at T180 of 1.119 (Q1−Q3 1.103−1.122); GELO peak median USG at T120 of 1.114 (Q1−Q3 1.082−1.119)], with large increases in bias between eUOsm and UOsm [HES peak bias at T60 of 2995 mOsm kg–1 (LOA 2032−3958 mOsm kg–1); GELO peak bias at T120 of 2465 mOsm kg–1 (LOA 940−3990 mOsm kg–1)]. Administration of HES and GELO to dogs with haemorrhagic shock interferes with refractometric measurements for at least 3 hours after administration. [ABSTRACT FROM AUTHOR]

Published

2019

168. RESEARCH ON FRUITS QUALITY OF DIFFERENT TOMATO (Lycopersicon esculentum Mill.) CULTIVARS IN VIDRA AREA, ILFOV COUNTY.

Author

MÂNDRU, Iuliana, COSTACHE, Marcel, ŞOVĂREL, Gabriela, CROITORU, Mihaela, HOZA, Dorel, and CRISTEA, Stelica

Subjects

*TOMATO yields, *FRUIT quality, *VITAMIN C, *CARBOHYDRATES, *REFRACTOMETRY

Abstract

Under field conditions, during 2016, were studied 15 cultivars of tomatoes. When the fruit reached commercial maturity, the following quality indices were determined: water content and total dry substance (gravimetric method), soluble dry substance (refractometric method), titratable acidity (titrimetric method), total carbohydrates (Fehling Soxhlet method) and vitamin C (iodometric method). The best results on the quality of tomato fruits were obtained with the following cultivars: St. Pierre (7.33% total dry substance, 4.2% soluble dry substance, 0.67% acidity, 3.50% carbohydrate and 19.36 mg vitamin C), Caspar F1 (5.98% total dry substance, 3.8% soluble dry substance, 0.60% acidity, 3.20% carbohydrate and 21.12 mg vitamin C), Mirsini F1 (5.68% total dry substance, 4.0% soluble dry substance, 0.64% acidity, 3.30% carbohydrate and 21.12 mg vitamin C), Heintz (5.67% total dry substance, 3.7% soluble dry substance, 0.80% acidity, 3.10% carbohydrate and 24.64 mg vitamin C) and Darsirius (5.21% total dry substance, 3.9% soluble dry substance, 0.69% acidity, 3.20% carbohydrate and 19.36 mg vitamin C). [ABSTRACT FROM AUTHOR]

Published

2019

169. Nuevos cultivares de caña de azúcar para iniciar zafra en el ingenio Ofelina de Panamá.

Author

González Marrero, Alberto N., Suárez, Héctor Jorge, Menéndez Sierra, Antonio, and Vera Méndez, Antonio

Subjects

*SUGARCANE, *CULTIVARS, *HARVESTING, *GENETICS, *REFRACTOMETRY

Abstract

Efficient production in the sugar industry requires the use of cultivars with high sucrose content. The objective of the work was to characterize the agronomic response of 70 new sugarcane cultivars (Saccharum spp.) introduced in the clonal stage of selection and initial period of the sugar harvest in the Ofelina sugarmill (La Estrella SA, CALESA, Republic of Panama). The characters evaluated were the refractometric brix, number of stems m-1, t cane ha-1, incidence of harmful agents, flowering, thickness and height of the stem. A randomized block design with three repetitions was used. Analysis of random effect variances was performed to estimate the genetic and environmental components, fixed and to establish the differences among cultivars. With the individuals selected, a cluster analysis was performed. The difference among the groups formed was verified with another analysis of variances of fixed effects and the Tukey test. Inheritance, Genetic Coefficient of Variation (CGV) and standard error for each variable evaluated were also estimated. It was shown that the genetic variance was greater than that of the error, except in the diameter, which confirms the importance of the genetic component at this stage of selection. The CGV was higher for agricultural performance variables in the 2011 and 2010 selection, the Brix was comparable to the height and higher than the diameter. It were selected 38 new cultivars that were recommended for the final stage of selection. [ABSTRACT FROM AUTHOR]

Published

2019

170. Microcavity In-Line Mach–Zehnder Interferometers Fabricated in Single-Mode Fibers and Fiber Tapers for Visible (VIS) and Near-Infrared (NIR) Operation.

Author

Eftimov, Tinko A., Janik, Monika, and Bock, Wojtek J.

Abstract

In this paper, we analyze the performance of single-mode fiber (SMF) microcavity in-line Mach–Zehnder interferometers (μIMZI) in the visible (VIS) and near-infrared (NIR) spectral ranges. Furthermore, we study the causes leading to a seeming paradox that NIR SMFs for the VIS range perform better in the NIR range and vice versa. We propose the use of short double tapers to improve the spectral range and visibility of the micro-interferometers. The sensitivities to surrounding refractive index obtained were as high as 11,400 nm/RIU. [ABSTRACT FROM AUTHOR]

Published

2019

171. Absolute molar mass determination in mixed solvents. 1. Solving for the SEC/MALS/DRI "trivial" case.

Author

Striegel, André M. and Sinha, Pritish

Subjects

*MOLAR mass, *SOLVENTS, *CHROMATOGRAPHIC analysis, *REFRACTOMETRY, *TETRAHYDROFURAN

Abstract

Abstract Size-exclusion chromatography (SEC) with on-line static light scattering, specifically multi-angle static light scattering (MALS), and differential refractometry (DRI) detection remains the premier method by which to determine absolute, calibrant-independent molar masses of polymers. The method is restricted to the use of either neat solvents or solvents with a small amount of additive. In mixed solvents, preferential solvation (i.e., the enrichment, within the solvated volume of the polymer in solution, of one solvent over the other as compared to the solvent ratio outside said volume) leads to errors in the areas of the MALS and DRI chromatograms, as the solvent baseline does not accurately represent the solvent contribution to these detectors' peaks. A seemingly trivial way by which to overcome this problem is through the use of an isorefractive solvent pair. This "trivial" solution is complicated by the fact that the solvents in the pair must be miscible with each other in all proportions; the individual solvents as well as the mix must be able to fully dissolve the analyte; the solvents must possess sufficient optical contrast with the solution so as to generate an adequate detector signal; the solvent mix must be compatible with the chromatographic stationary phase, such that enthalpic contributions to the separation are minimal and analyte recovery from the columns is quantitative; and the difference in the Rayleigh factors of the solvents can be ignored. Herein, we present the analysis of narrow dispersity polystyrene (PS) and poly(methyl methacrylate) (PMMA) samples, across a four-fold range in molar mass, using SEC/MALS/DRI in a mix of tetrahydrofuran (THF) and methyl isoamyl ketone (MIAK), solvents which are shown to be isorefractive with each other at the temperature and wavelength of the experiments. Molar mass averages and dispersities are demonstrated to be statistically independent of solvent composition and to correspond well to the values in neat THF. The experiments were augmented by the use of on- and off-line quasi-elastic light scattering and of off-line MALS and DRI, to study the effect of solvent composition on polymer size in solution and on dilute solution thermodynamics. Additionally, 1H nuclear magnetic resonance spectroscopy was used to study the effect of tacticity on the insolubility of PMMA100 in 100% MIAK. We believe this constitutes the first example of obtaining accurate molar masses of polymers by SEC/MALS/DRI employing mixed solvents. The value of these experiments to other forms of macromolecular liquid chromatographic separations is also noted. Graphical abstract Image 1 Highlights • Absolute molar mass determination for polymers in mixed solvents. • Determination is normally compromised by selective solvation of polymer coil. • Selective solvation can be circumvented by use of isorefractive solvent pair. • Size-exclusion chromatography can successfully address experimental issues. • On-line light scattering and refractometry detection are needed. [ABSTRACT FROM AUTHOR]

Published

2019

172. Larger-Than-Unity External Optical Field Confinement Enabled by Metamaterial-Assisted Comb Waveguide for Ultrasensitive Long-Wave Infrared Gas Spectroscopy

Author

Weixin Liu, Yiming Ma, Xinmiao Liu, Jingkai Zhou, Cheng Xu, Bowei Dong, and Chengkuo Lee

Subjects

Refractometry, Electricity, Spectrophotometry, Infrared, Mechanical Engineering, General Materials Science, Bioengineering, General Chemistry, Condensed Matter Physics

Abstract

Nanophotonic waveguides that implement long optical pathlengths on chips are promising to enable chip-scale gas sensors. Nevertheless, current absorption-based waveguide sensors suffer from weak interactions with analytes, limiting their adoptions in most demanding applications such as exhaled breath analysis and trace-gas monitoring. Here, we propose an all-dielectric metamaterial-assisted comb (ADMAC) waveguide to greatly boost the sensing capability. By leveraging large longitudinal electric field discontinuity at periodic high-index-contrast interfaces in the subwavelength grating metamaterial and its unique features in refractive index engineering, the ADMAC waveguide features strong field delocalization into the air, pushing the external optical field confinement factor up to 113% with low propagation loss. Our sensor operates in the important but underdeveloped long-wave infrared spectral region, where absorption fingerprints of plentiful chemical bonds are located. Acetone absorption spectroscopy is demonstrated using our sensor around 7.33 μm, showing a detection limit of 2.5 ppm with a waveguide length of only 10 mm.

Published

2022

173. Reconstructing Chromatic-Dispersion Relations and Predicting Refractive Indices Using Text Mining and Machine Learning

Author

Jiuyang Zhao and Jacqueline M. Cole

Subjects

Machine Learning, Refractometry, Light, General Chemical Engineering, Data Mining, General Chemistry, Library and Information Sciences, Refraction, Ocular, Computer Science Applications

Abstract

Predicting the properties of materials prior to their synthesis is of great significance in materials science. Optical materials exhibit a large number of interesting properties that make them useful in a wide range of applications, including optical glasses, optical fibers, and laser optics. In all of these applications, refraction and its chromatic dispersion can directly reflect the characteristics of the transmitted light and determine the practical utility of the material. We demonstrate the feasibility of reconstructing chromatic-dispersion relations of well-known optical materials by aggregating data over a large number of independent sources, which are contained within a material database of experimentally determined refractive indices and wavelength values. We also employ this database to develop a machine-learning platform that can predict refractive indices of compounds without needing to know the structure or other properties of a material of interest. We present a web-based application that enables users to build their customized machine-learning models; this will help the scientific community to conduct further research into the discovery of optical materials.

Published

2022

174. Evaluación indirecta de absorción de inmunoglobulinas calostrales en crías Holstein en un sistema de lechería especializada en el norte de Antioquia.

Author

Betancur Ángel, Raúl A., Múnera Bedoya, Óscar D., and Herrera Rios, Ana C.

Abstract

Antecedentes: los terneros nacen desprovistos de inmunoglobulinas (Ig) en el suero sanguíneo‚ lo que los hace completamente dependientes del calostro‚ lo que se denomina transferencia de inmunidad pasiva. Objetivo: analizar la transferencia de inmunidad pasiva mediante la medición del número de inmunoglobulinas G (IgG) y la concentración de proteína sérica total (PST) utilizando refractometría en neonatos que recibieron leche de un banco de calostro. Métodos: 48 neonatos fueron incluidos en el estudio. Se tomaron muestras del calostro del primer ordeño de vacas recién paridas en la Granja Experimental Betania de la compañía Solla S.A‚ ubicada en Santa Rosa de Osos‚ Antioquia. El calostro del primer ordeño fue evaluado a través del método del calostrómetro que mide el nivel de IgG en el calostro. Calostros con niveles altos de IgG fueron incluidos en el banco de calostro de la granja. Evaluación de la concentración de grados BRIX en el suero sanguíneo de las crías dos horas posteriores al suministro del calostro fue realizada siguiendo el método del refractómetro. Los datos fueron analizados en el software R (R Core Team. (2020) mediante análisis de varianza (ANOVA) y modelo de regresión lineal permitiendo analizar las variables respuesta en función de factores como: sexo‚ hora nacimiento y consumo de calostro. Resultados: se encontró una correlación positiva (0‚31) entre el porcentaje de refractometría y número de IG indicando que un aumento en una unidad de IgG repercute en una mejor trasferencia de inmunidad pasiva. El ANOVA para la variable IgG encontró que el sexo de las crías y el horario de nacimiento tuvieron un efecto significativo (p < 0,005) en la transferencia de inmunidad pasiva. Las crías hembras mostraron una mejor transferencia‚ y las crías nacidas durante el día tuvieron una respuesta inmunitaria más adecuada. La variable refractometría no encontró una significancia estadística Conclusión: la cantidad‚ calidad y hora de consumo del calostro (día o noche) repercute en la respuesta inmunitaria del animal. Los resultados obtenidos proporcionan información sobre el manejo del neonato y el programa de encalostrado en la granja Betania. [ABSTRACT FROM AUTHOR]

Published

2024

175. Polarization-independent hollow nanocuboid metasurfaces with robust quasi-bound states in the continuum.

Author

Algorri, J.F., Dmitriev, V., Hernández-Figueroa, H.E., Rodríguez-Cobo, L., Dell'Olio, F., Cusano, A., López-Higuera, J.M., and Zografopoulos, D.C.

Subjects

*QUASI bound states, *RESONANT states, *BRILLOUIN zones, *RAMAN spectroscopy, *ELECTRIC fields

Abstract

All-dielectric metasurfaces supporting resonant quasi-bound states in the continuum (qBIC) offer an ideal platform for various applications relying on intense light–matter interaction in highly localized and enhanced fields. Here, we propose a dielectric metasurface composed of hollow GaP nanocuboid quadrumers periodically arranged on a silica substrate. The metasurface supports a qBIC resonant mode with an antiferroelectric field configuration, which is very robust to large perturbations of the cuboid structure thanks to its perpendicular electric dipole field profile. The perturbed quadrumer arrangement retains C 4 v symmetry, thus allowing for polarization-independent optical response for normally incident planewaves. In addition, the resonant mode dispersion is investigated, revealing interesting features, such as low birefringence along the Γ M contour of the Brillouin zone and very low dispersion for the TM polarization along the Γ X direction. The metasurface is designed to resonate close to 785 nm , which is highly relevant for Raman spectroscopy, leveraging the strong field enhancement at the interface with the overlayer material. Moreover, its performance as a bulk refractometric sensor is discussed. The proposed dielectric metasurface is promising for emerging photonic phenomena where strong light–matter interaction plays a key role. [Display omitted] • Polarization-independent GaP metasurfaces with robust quasi-BIC resonances. • Very low dispersion for the TM polarization in the Γ X direction of the Brillouin zone. • High sensitivity for bulk refractometry of an overlayer analyte. • Strong near-field confinement for quasi-BIC enhanced Raman spectroscopy. [ABSTRACT FROM AUTHOR]

Published

2024

176. Analytical study of optical dielectric interfaces for sensing applications.

Author

Caro, German E., Acosta, Eduardo O., Veiras, Francisco E., and Perez, Liliana I.

Subjects

*OPTICAL sensors, *REFRACTIVE index, *DIELECTRICS

Abstract

Dynamic optical sensors, as those based on the reflectivity of isotropic dielectrical interfaces, can be useful for measuring small changes in the refractive index of fluid media. Exact and approximated explicit formulas for their sensitivity are developed. These expressions clarify the influence of each of the constructive parameters of the device, both in partial and in total reflection. It is analytically found that sensitivities are always greater when the angle of incidence approaches the angle of total reflection. It is also demonstrated that close to the critical angle for both types of reflection, the sensitivity of the p mode is greater than that of the s mode. [ABSTRACT FROM AUTHOR]

Published

2023

177. Determination of Local Refractive Index for Protein and Virus Crystals in Solution by Mach-Zehnder Interferometry

Author

Cole, T, Kathman, A, Koszelak, S, and Mcpherson, A

Subjects

Analytical Chemistry, Biochemistry and Cell Biology, Chemical Sciences, Biological Sciences, Bioengineering, Interferometry, Mosaic Viruses, Nucleic Acids, Proteins, Refractometry, Solutions, Other Chemical Sciences, Biochemistry & Molecular Biology, Biochemistry and cell biology, Analytical chemistry

Abstract

To establish the importance of, and quantitatively evaluate, the macromolecular concentration gradients in the neighborhood of growing protein, virus, and nucleic acid crystals, a convenient, accurate, and nonintrusive method has been devised. This approach should prove particularly relevant in the rigorous comparison of crystals grown in a conventional laboratory setting with those grown in a microgravity environment. The method is based on precise determination of the local refractive index using Mach-Zehnder interferometry. Presented here are data for five protein and three virus systems. From data for these and other systems, optical monitoring experiments to measure local growth conditions and growth kinetics in liquid-liquid diffusion, batch, and vapor diffusion crystal growth experiments can be designed.

Published

1995

178. Diagnostic Value of Measurement Specific Gravity by Refractometric and Dipstick Method in Differentiation between Transudate and Exudate in Pleural and Peritoneal Fluid

Author

Alireza Abdollahi and Zoreh Nozarian

Subjects

specific gravity, refractometry, dipstick, transudate, exudate, pleural and peritoneal fluid, Pathology, RB1-214

Abstract

Background: Accumulation of pleural and peritoneal fluid is seen in some diseases. In order to diagnose the disease and start the treatment, one of the most important actions will be to differentiate between exudates and transudates. The objective of this study was to determine the diagnostic value of measuring the specific gravity of the fluid through refractometer and strip in differentiation of exudates from transudates. Methods: The serum of patients was evaluated for protein, LDH, cholesterol, bilirubin and albumin. The fluid was evaluated for the number of white blood cells, protein, LDH, cholesterol, bilirubin and albumin. Then the fluids were divided into exduate and transudate categories based on Light and Gradient criteria. Finally, the specific gravity of the fluids was measured by refractometer, Erma, Japan and Medi-Test Combi II. The categorized fluids were compared with Gold Standards (final diagnosis) so that the sensitivity and specificity of Light and Gradient criteria in the transudate-exudate differentiation were specified. Results: In comparison with Light criteria, the cut off level of 1022 specific gravity measured by refractometer for pleural effusion has sensitivity, specificity of 92.1%, 68.1%respectively. In evaluation of peritoneal fluid considering cut off point 1023, measured by refractometer has reliable sensitivity 92.4%, specificity 70.4 compared with standard gradient method. Conclusion: Differentiating transudate from exudates by measuring its special gravity by refractometer will have acceptable sensitivity and specificity, and when rapidity is necessary or access to lab equipment is limited, this method could be used.

Published

2016

179. Fast, Economical, and Reproducible Sensing from a 2D Si Wire Array: Accurate Characterization by Single Wire Spectroscopy

Author

Ken-ichi Saitow and Masanori Sakamoto

Subjects

Refractometry, Silicon, Spectrum Analysis, Reproducibility of Results, Analytical Chemistry

Abstract

Silicon (Si) is promising as a field enhancement material because of its high abundance, low toxicity, and high refractive index. The field enhancement effect intensifies light-matter interactions, which improves photocatalysis, solar cell performance, and sensor sensitivity. To manufacture field enhancement materials on a production scale, the fabrication technique must be simple, cost-effective, fast, and highly reproducible and must produce a high enhancement factor (EF). Herein, we report on an economical and efficient fabrication method for a field enhancement substrate consisting of a two-dimensional Si wire array (2D-SiWA). This substrate was demonstrated as a fluorescence sensor with high sensitivity (EF200) and composed of a large area (6.0 mm

Published

2022

180. Hollow-Core Microstructured Optical Fiber Based Refractometer: Numerical Simulation and Experimental Studies

Author

N. Ayyanar, G. Thavasi Raja, Skibina Y. S., Yashar E. Monfared, Zanishevskaya A. A., Shuvalov A. A., and Gryaznov A. Yu

Subjects

Photons, Refractometry, Biomedical Engineering, Pharmaceutical Science, Medicine (miscellaneous), Bioengineering, Biosensing Techniques, Equipment Design, Electrical and Electronic Engineering, Optical Fibers, Computer Science Applications, Biotechnology

Abstract

In this paper, we numerically and experimentally propose a novel hollow-core microstructured optical fiber (HC-MOF) biosensor for refractive index determination. The sensing mechanism of the proposed sensor is based on photonic bandgap effect and the location of transmission maxima of the fiber, which is strongly depend on the liquid analyte RI filled in the fiber core. The proposed HC-MOF biosensor demonstrates the spectral sensitivity of 5636.3 nm/RIU with a RI detection range of 1.333 to 1.3385 for different ratios of plasma in blood serum in our experimental studies. The HC-MOF proposed here can detect similar liquid analytes with RI close to 1.33. The proposed sensor with a high sensitivity, ease of operation and the possibility of real-time sensing has a strong potential for detection of liquid analytes and biomolecules with possible applications in medicine, chemistry, and biology.

Published

2022

181. Modeling of High-Performance SPR Refractive Index Sensor Employing Novel 2D Materials for Detection of Malaria Pathogens

Author

Puspa Devi Pukhrambam and Abinash Panda

Subjects

Materials science, business.industry, Multiphysics, Transfer-matrix method (optics), Biomedical Engineering, Pharmaceutical Science, Medicine (miscellaneous), Bioengineering, Biosensing Techniques, Surface Plasmon Resonance, Malaria, Computer Science Applications, Refractometry, Nanolithography, Electric field, Humans, Optoelectronics, Graphite, Prism, Electrical and Electronic Engineering, Surface plasmon resonance, business, Biosensor, Refractive index, Biotechnology

Abstract

The present work exhibits a novel design of surface plasmon resonance (SPR) biosensor, which comprises CaF2 prism, TiO2, metal (Ag/Au), PtSe2, 2D materials (graphene/ transition metal dichalcogenides (MoS2/WS2)) and sensing medium, for point-of-care detection of various stages of malaria diseases. The transfer matrix method (TMM) is employed to examine the angular reflectivity of the proposed structure after judiciously optimizing the layer thicknesses and layer numbers. Phase interrogation technique is utilised to validate the position of occurrence of resonance angles. Additionally, the proposed SPR structure is designed using COMSOL Multiphysics, to assay the electric field intensity and electric field enhancement factor near the edge of 2D material-sensing layer interface. Simulation upshots revealed that the use of new class of 2D materials catapult the sensor performance to a new height compared to the traditional SPR configuration. A maximum sensitivity of 240.10°/RIU, quality factor of 78.46 RIU-1 and detection accuracy of 1.99 is attained for Ag-based SPR configuration with bilayer of WS2. Sensing parameters are compared with previously reported works to prove the superiority of the present research. Moreover, the real-time and label-free detection of malaria diseases makes the suggested sensor worth to fabricate as a SPR chip with the recent nanofabrication technologies.

Published

2022

182. Directivity-Enhanced Detection of a Single Nanoparticle Using a Plasmonic Slot Antenna

Author

Bei Wu, Yuanhao Lou, Dan Wu, Qiuhong Min, Xinchen Wan, Hongyuan Zhang, Yarong Yu, Jian Ma, Gangzheng Si, and Yuanjie Pang

Subjects

Refractometry, Light, Optical Tweezers, Mechanical Engineering, Nanoparticles, General Materials Science, Bioengineering, General Chemistry, Condensed Matter Physics

Abstract

In situ refractive index sensors integrated with nanoaperture-based optical tweezers possess stable and sensitive responsivity to single nanoparticles. In most existing works, detection events are only identified using the total light intensity with directivity information ignored, leading to a low signal-to-noise ratio. Here, we propose to detect an optically trapped 20 nm silica particle by monitoring directivity of a plasmonic antenna. The main and secondary radiation lobes of the antenna reverse upon trapping because the particle-induced perturbation negates the relative phase between two antenna elements, leading to a significant change of the antenna front-to-back ratio. As a result, we obtain a signal-to-noise ratio of 20, with an order-of-magnitude improvement as compared to the intensity-only detection scheme.

Published

2022

183. Analysis of Surface Patterns and Electric Field Simulation of Antireflective Green Lacewing Wings

Author

Kazunari Yoshida, Yuro Katsurashima, and Leona Takahashi

Subjects

Refractometry, Electricity, Fourier Analysis, Electrochemistry, Animals, Wings, Animal, Computer Simulation, General Materials Science, Surfaces and Interfaces, Condensed Matter Physics, Spectroscopy

Abstract

The structural coloration and decoloration are problems of scientific interest for a long time. Hence, the fundamental investigations on structures and the optical properties of insect wings have been performed. As a part of such studies, we elucidate the optical properties of green lacewing wings via observation and simulation. First, we elucidate the surface pattern of green lacewing wings using a two-dimensional fast Fourier transform. A cross-shaped pattern of a Fourier spectrum is obtained, and the concise wing model with the surface protrusions arranged in a square grid on a base substrate is constructed in reference to the obtained Fourier spectrum. Next, we perform a finite-difference time-domain (FDTD) simulation to elucidate a light path through wings with and without surface protrusions. The FDTD simulation results indicate that the surface protrusions of a wing increase and decrease the intensity of the transmitted and reflected light, respectively, which is an antireflection behavior. This phenomenon was also observed in the case of 45° incident light. The intensity of transmitted light coupled to wings is induced by surface protrusions with a stepwise refractive index between air and a substrate, which induces antireflection. In particular, transmitted light is increased by the surface protrusions of wings in the range of 500-800 nm wavelength. The intensities of transmitted and reflected light are affected by the direction of incident electric field (polarization) in the case of wings with protrusions arranged in the same direction (parallel). Hence, the surface protrusions are arranged in a square grid to reduce the influence of the polarization direction.

Published

2022

184. Multifunctional Oxazolone Derivative as an Optical Amplifier, Generator, and Modulator

Author

Adam Szukalski, Przemysław Krawczyk, Bouchta Sahraoui, and Beata Jędrzejewska

Subjects

Equipment Failure Analysis, Refractometry, Amplifiers, Electronic, Oxazolone, Materials Chemistry, Equipment Design, Physical and Theoretical Chemistry, Surfaces, Coatings and Films

Abstract

An optical control of many working optoelectronic systems (real-time sensors, optical modulators, light amplifiers, or phase retarders) giving efficient optical gain or remote signal modulation is currently included as scientifically and industrially interesting. In here, an oxazolone derivative as the multifunctional organic system is given in this contribution. The molecule possesses a stilbene group and an oxazolone heteroatomic ring, which implies effective refractive index manipulation and multimode lasing action, respectively. The light modulation is repeatable and stable, also in the hundreds of Hz regime. On the other hand, the amplified optical signal can be easily generated by an external optical pumping source. Thus, signal control is fully available, as is read-in and read-out of the information in real time. Furthermore, this third-order, nonlinear, optical phenomenon using a third harmonic generation technique was also observed. We discovered that only by changing the energy and time regime of the supplied optical signal is the optical or nonlinear optical response observed. Two heteroenergetic molecular states (

Published

2022

185. Plasmon-Enhanced Refractometry Through Cladding Mode Excitation by a Fiber Bragg Grating in Photonic Crystal Fiber

Author

Francis Berghmans, Karima Chah, Hugo Thienpont, Tigran Baghdasaryan, Pawel Mergo, Olga Rusyakina, Thomas Geernaert, Christophe Caucheteur, Applied Physics and Photonics, Faculty of Engineering, Technology Transfer & Interface, and IR Academic Unit

Subjects

Materials science, business.industry, Physics::Optics, fiber optics sensors, PHOTONIC CRYSTAL FIBERS, Cladding mode, Atomic and Molecular Physics, and Optics, Fiber Bragg grating, Fiber bragg gratings, fiber optics sensors, photonic crystal fibers, refractive index measurement, surface plasmon resonance, Fiber Bragg gratings, Optoelectronics, A fibers, business, Refractometry, surface plasmon resonance, Excitation, Plasmon, refractive index measurement, Photonic-crystal fiber

Abstract

We report on an extrinsic surface plasmon-enhancedrefractometer based on cladding mode resonance excitation in a photonic crystal fiber (PCF) equipped with a straight fiber Bragggrating (FBG). First, we show that the lattice pitch and the air hole diameter of the PCF microstructure define the spectral locationof the excited cladding mode resonances. Second, we demonstrate that if the PCF parameters are properly selected, those resonancesare sensitive to increases in steps of 1×10−4 refractive index units(RIU) of the refractive index value close to that of water. To thebest of our knowledge, this is the first time that the sensitivity of PCF cladding mode resonances to refractive index changesin water-based solutions is reported. We achieved experimental values of 40.3 nm/RIU in terms of wavelength sensitivity and −801dB/RIU in terms of amplitude sensitivity. The performance of our sensor is therefore comparable to that of tilted FBGs in step-indexfibers used for water refractometry, which indicates the potential ofour PCF sensor for biosensing. In addition, the sensor fabricationdoes not require any post-processing such as etching or polishing,which allows preserving the integrity of the fiber probe. Finally, thenarrowspectrum within which the PCF operates, allows envisagingmulti-target detection with a single fiber probe by using cascadedwavelength-multiplexed gratings.

Published

2022

186. Multi-Analyte Detection Based on Integrated Internal and External Sensing Approach

Author

Rajib Ahmed, Firoz Haider, Rakib Haider, Rifat Ahmmed Aoni, Moqbull Hossen, Tanvir Ahmed, Md. Mashrafi, and Ghafour Amouzad Mahdiraji

Subjects

Photons, Analyte, Materials science, business.industry, Biomedical Engineering, Pharmaceutical Science, Medicine (miscellaneous), Bioengineering, Biosensing Techniques, Equipment Design, Surface Plasmon Resonance, Finite element method, Computer Science Applications, Refractometry, Wavelength, Optoelectronics, Multiplex, Electrical and Electronic Engineering, Surface plasmon resonance, business, Refractive index, Plasmon, Biotechnology, Photonic-crystal fiber

Abstract

Highly sensitive, simple and multiplex detection capabilities are key criteria of point-of-care (POC) diagnosis in clinical samples. Here, a simple and highly sensitive multi-analyte detection technique is proposed by using photonic crystal fiber (PCF) based surface plasmon resonance (SPR) sensor that employs both internal and external sensing approaches. The proposed sensor can detect two different analytes simultaneously by the internal and external plasmonic micro-channels. The light propagation through the sensor is controlled by the scaled-down air-holes to excite the free electrons of the plasmonic metal layers. The light-guiding and sensing properties of the sensor is numerically analyzed by using the Finite Element Method (FEM). The proposed sensor shows the maximum wavelength sensitivities (WS) of 12,000 nm/refractive index unit (RIU), and 10,000 nm/RIU, for the internal and external sensing approaches, respectively, and corresponding resolution of 8.33×10-6 RIU and 1.0×10-5 RIU. Moreover, the hybrid sensor is applicable to detect unknown analyte refractive index (RI) in the range of 1.33 to 1.40 which covers extensively investigating analytes such as viruses, different cancer cells, glucose, proteins and DNA/RNA. Due to high sensing performance with multi-analyte detection capability, the proposed sensor can play a significant role to detect bio targets at the POC platform.

Published

2022

187. A multi-functional microfluidic device compatible with widefield and light sheet microscopy

Author

Wesley R. Legant, Ana T. Nogueira, Yu Shi, Klaus M. Hahn, Ellen C. O’Shaughnessy, Regan P Moore, and Katelyn M Heath

Subjects

Microscopy, Fabrication, Materials science, business.industry, Microfluidics, Biomedical Engineering, Structured illumination microscopy, High resolution, Bioengineering, General Chemistry, Biochemistry, Article, Refractometry, chemistry.chemical_compound, Fluorinated ethylene propylene, chemistry, Lab-On-A-Chip Devices, Light sheet fluorescence microscopy, Optoelectronics, business, Refractive index, Lenses

Abstract

We present a microfluidic device compatible with high resolution light sheet and super-resolution microscopy. The device is a 150 μm thick chamber with a transparent fluorinated ethylene propylene (FEP) cover that has a similar refractive index (1.34) to water (1.33), making it compatible with top-down imaging used in light sheet microscopy. We provide a detailed fabrication protocol and characterize the optical performance of the device. We demonstrate that the device supports long-term imaging of cell growth and differentiation as well as the rapid addition and removal of reagents while simultaneously maintaining sterile culture conditions by physically isolating the sample from the dipping lenses used for imaging. Finally, we demonstrate that the device can be used for super-resolution imaging using lattice light sheet structured illumination microscopy (LLS-SIM) and DNA PAINT. We anticipate that FEP-based microfluidics, as shown here, will be broadly useful to researchers using light sheet microscopy due to the ability to switch reagents, image weakly adherent cells, maintain sterility, and physically isolate the specimen from the optics of the instruments.

Published

2022

188. Whispering gallery mode resonators in continuous flow: spectral assignments and sensing with monodisperse microspheres

Author

Bryan C. Paulus, Jenny K. Banh, Kirk D. Rector, Benjamin W. Stein, and Laura M. Lilley

Subjects

Refractometry, General Chemical Engineering, General Engineering, Microspheres, Analytical Chemistry

Abstract

Whispering gallery mode resonator (WGMR) microspheres yield highly structured optical spectra that are extremely sensitive to their environment and are of intense interest for use in a variety of sensing applications. Many efforts to leverage the unique sensitivities of WGMRs have relied on stringent experimental requirements to correlate specific spectral shifts/changes to an analyte/stimulus such as (1) precise positional knowledge, (2) reference spectra for each microsphere, and (3) high mechanical stability. Consequently, these factors can hinder adequate mixing or incorporation of analytes and can create challenges for remote sensing. This work describes a continuous flow technique for measuring whispering gallery mode (WGM) spectra of dye-doped microspheres suspended in solution and an accompanying analysis scheme that can extract the local refractive index without

Published

2022

189. Highly sensitive metal ion sensing by graphene oxide functionalized micro-tapered long-period fiber grating

Author

Ruiduo Wang, Xin Kang, Depeng Kong, Man Jiang, Zhaoyu Ren, Baowen Hu, and Zhengquan He

Subjects

Ions, Refractometry, Metals, Electrochemistry, Environmental Chemistry, Graphite, Biochemistry, Spectroscopy, Analytical Chemistry

Abstract

An accurate as well as highly sensitive label-free chemical sensing platform for the detection of various metal ions was demonstrated. The chemical sensor was derived from the micro-tapered long-period fiber grating (MLPG) by depositing graphene oxide (GO) by chemical-bonding and optical-tweezer effects. The enhancement in refractive index (RI) sensitivity as well as reusability was obtained by evaluating the deposition thickness in the range of approximately 97.7 to 158.9 nm. Based on the analysis of adsorption principles, the enhanced RI sensitivity leads to a limit of detection as low as 3.2 ppb. The highest sensitivities for the cases studied using sodium and manganese ions in a wide concentration range of 1 ppb to 1 × 10

Published

2022

190. REFRACTOMETRIC SENSOR IN POLYMER OPTICAL FIBERS.

Author

Hu, X., Luo, B., Caucheteur, C., Zhao, M., Pun, C.-F. J., Zhong, N., Tam, H.-Y., and Fang, S.

Subjects

OPTICAL fibers, POLYMERS, BIOSENSORS, REFRACTOMETRY, BRAGG gratings, BIOCHEMISTRY

Abstract

Polymer optical fibers (POFs) have many advantages. Because of their biocompatibility, they can be used as biosensors. In this paper, we report three types of refractometric sensors in poly(methyl methacrylate) PMMA POFs. They are based on different technologies, i.e. tilted fiber Bragg gratings (TFBGs), TFBGs with a thin gold layer and non-clad POFs. All the three sensors are sensitive to surrounding refractive indices showing great potential for (bio)chemical sensing. [ABSTRACT FROM AUTHOR]

Published

2018

191. Development of an asymmetrical flow field-flow fractionation system for the size characterization of starch granules

Author

Tiange Song, Haiyang Dou, Qian Yu, Yuxi Guo, and Yushan Sun

Subjects

Chromatography, Chemistry, Starch, General Chemical Engineering, Organic Chemistry, Size-exclusion chromatography, Multiangle light scattering, Fractionation, Biochemistry, Fractionation, Field Flow, Analytical Chemistry, Molecular Weight, Refractometry, chemistry.chemical_compound, Dynamic light scattering, Chemical engineering, Amylose, Amylopectin, Electrochemistry, Potato starch

Abstract

Starch occurs naturally in the form of semicrystalline granules, and is composed of two types of carbohydrate molecules, amylose (AM) and amylopectin (AP). Starch granules and starch molecules have sizes in the range of 1-100 μm and 20-250 nm, respectively; these size ranges are among the key factors affecting the functional properties of starch. Asymmetrical flow field-flow fractionation (AF4) is a size-based separation technique. The major difference between AF4 and dynamic light scattering or microscopy techniques is that AF4 enables the separation of particles based on their size; consequently, the elution profile can be converted to the size distribution of the samples. In the last two decades, AF4 systems, when coupled online with multiangle light scattering (MALS) and differential refractive index (dRI) detectors (AF4-MALS-dRI), have demonstrated to be applicable for the size characterization of starch at the molecular level. Unlike size exclusion chromatography (SEC), AF4 systems use an open channel that does not require a stationary phase or packing materials. Thus, the shear scission of AP molecules during AF4 separation is minimized. The size detection range of a commercial AF4 system ranges from 1 nm to 10 μm, which is smaller than the size range of starch granules. In this study, a home-made AF4 system was developed, and its capability for the size characterization of starch granules extracted from sweet potato, lotus seed, and rice was investigated. The performance of the developed AF4 system was evaluated by running a mixture of polystyrene (PS) with diameter of 2, 6, 12, and 20 μm, respectively. Baseline separation of four PS samples was achieved, and the resolution for 6 μm PS and 12 μm PS was 1.40. The detection limit of the developed AF4 system was higher than that of commercial AF4 systems. Thus, the developed AF4 system is promising for the separation and characterization of starch granules. The effect of the composition of the carrier liquid on the AF4 separation of starch granules was also studied. Moreover, the accuracy of AF4 in terms of size characterization of the starch granules was evaluated by optical microscopy (OM). The results revealed that the type of dispersant and viscosity of the carrier liquid affect the accuracy of size characterization of the starch granules. The size distribution of rice starch granules obtained using a carrier liquid containing 0.01% (w/v) sodium dodecyl sulfate (used as a dispersant), 0.02% (w/v) NaN3 (used as a bactericide), and 0.001% (w/v) hydroxypropylmethylcellulose (used to adjust the viscosity of the carrier liquid) was in agreement with that obtained from OM. Furthermore, a commercial AF4 system coupled with MALS and dRI detectors was employed for the separation and characterization of starch molecules. A molecularly dispersed solution is necessary for the reliable molecular characterization of starch. The effect of the starch dissolution temperature on the AF4 characterization of starch was also investigated. The optimal dissolution temperature for lotus seed and rice starch granules was 75 ℃, while that for sweet potato starch granules was 78 ℃; this difference is mainly attributed to the different botanical origins of the granules. The results showed that the ratio of the radius of gyration (Rg) to the hydrodynamic radius (Rh) of rice starch and sweet potato starch is in the range of 0.9-1.1 over the molar mass range of 10 6-108 g/mol. For rice starch, the Rg/Rh ratio is between 1.2 and 1.4. Rice starch has the highest apparent density among the three starches, indicating that rice starch molecules have a dense structure. The results demonstrated that the AF4 system developed in this study is rapid and accurate for the size characterization of starch granules. The developed AF4 system, when combined with commercial AF4 systems coupled online with MALS and dRI detectors, can provide technical support to study the relationship between the size from the nanoscale to the microscale and functional properties of starch.

Published

2021

192. Surface Plasmon Resonance-based Refractometry Using Whispering Gallery Modes in Bent Metalized Single-mode Optical Fibers.

Author

Dyshlyuk, Anton V., Mitsai, Evgeniy V., and Vitrik, Oleg B.

Subjects

*SURFACE plasmon resonance, *REFRACTOMETRY, *OPTICAL fibers, *OPTICAL fiber cladding, *REFRACTIVE index

Abstract

The work is devoted to the numerical and experimental study of surface plasmon resonance in a bent singlemode optical fiber with metalized cladding. It was shown that with a proper combination of metal film thickness and bend radius one can achieve coupling between fundamental and surface plasmon modes through an intermediary of whispering gallery mode supported by the bent fiber's optical cladding. This brings about a dip in the transmission spectrum of the fiber at the resonant wavelength which depends strongly on the external medium refractive index, so that refractometric measurements can be performed with a sensitivity of ~5 μm/RIU and resolution ~4·10-6. [ABSTRACT FROM AUTHOR]

Published

2017

193. Detección de la falla de transferencia pasiva en potrillos mediante dos pruebas serológicas rápidas.

Author

Palomino, J. A.

Subjects

BLOOD proteins, VETERINARY hospitals, GLUTARALDEHYDE, FOALS, BLOOD coagulation

Abstract

Copyright of Revista Veterinaria is the property of Universidad Nacional del Nordeste and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2021

194. Fresnel coherent diffraction tomography

Author

Harry M. Quiney, Keith A. Nugent, Corey T. Putkunz, Ian McNulty, Andrew G. Peele, Brian Abbey, M. A. Pfeifer, and Garth J. Williams

Subjects

Physics, Tomographic reconstruction, business.industry, ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, Iterative reconstruction, Image Enhancement, Atomic and Molecular Physics, and Optics, Edge detection, Diffraction tomography, Refractometry, Optics, Image Interpretation, Computer-Assisted, Medical imaging, Tomography, business, Projection (set theory), Phase retrieval, Algorithms, Tomography, Optical Coherence

Abstract

Tomographic coherent imaging requires the reconstruction of a series of two-dimensional projections of the object. We show that using the solution for the image of one projection as the starting point for the reconstruction of the next projection offers a reliable and rapid approach to the image reconstruction. The method is demonstrated on simulated and experimental data. This technique also simplifies reconstructions using data with curved incident wavefronts.

Published

2023

195. Realisation of an optical pressure standard by a multi-reflection interferometric technique

Author

D. Mari, M. Pisani, M. Astrua, M. Zucco, S. Pasqualin, A. Egidi, M. Bertinetti, and A. Barbone

Subjects

Absolute distance, Refractometry, Pressure metrology, Applied Mathematics, Vacuum standard, Laser interferometry, Electrical and Electronic Engineering, Condensed Matter Physics, Instrumentation

Published

2023

196. Рефрактометричний прилад для визначення типу моторної оливи

Author

Дорожинська, Ганна Василівна

Subjects

reflective index, motor oil, моторна олива, рефрактометрія, critical angle, показник заломлення, критичний кут, refractometry

Abstract

Метою дипломного проєкту є створення приладу для визначення типу моторних олив внаслідок їх експлуатації в двигуні автомобіля. Об’єкт дослідження – моторна олива різних типів для двигунів внутрішнього згорання. Предметом дослідження – створення приладу для експресного визначення типу моторних олив. Для виконання поставленої мети необхідно вирішити такі завдання: ─ Розглянути способи визначення типу моторних олив. ─ Виконати огляд аналогів. ─ Обґрунтувати структуру приладу. ─ Виконати опис конструкції. ─ Виконати розрахунок схеми електричної принципової та обґрунтувати вибір елементної бази. ─ Виконати розрахунок похибок. Методи дослідження: рефрактометричний метод, теорія похибок. Для проєктування приладу застосовано: вторинне джерело, стабілізатори напруги та струму, підсилювачі, кроковий двигун, аналогово- цифровий перетворювач з мікроконтролером та цифровий індикаторний пристрій. Робота складається із вступу, 4 розділів, висновків, 26 рисунків, 12 таблиць, списку використаних джерел із 17 позицій. Загальний обсяг роботи – 83 сторінки, з яких основна частина викладена на 72 сторінках. Ключові слова: моторна олива, рефрактометрія, показник заломлення, критичний кут. The goal of the diploma project is to create a device for determining the type of motor oils due to their use in a car engine. The object of research is motor oil of various type in an internal combustion engine. The subject of the research is the creation of a device for the express determination of the type of motor oils. To fulfill the set goal, the following tasks must be solved: ─Consider methods of determining the type of motor oils. ─Review analogues ─To justify the structure of the device. ─Complete the design description. ─Perform the calculation of the electrical principle diagram and justify the choice of element base. ─ Calculate errors. Research methods: refractometric method, uncertainty theory. For the development of the device, the following was used: a secondary source, voltage and current stabilizers, amplifiers, a stepper motor, an analog-to- digital converter with a microcontroller, and a digital indicator device. The work consists of an introduction, 4 chapters, conclusions, 26 figures, 12 tables, a list of used sources with 17 items. The total volume of the work is 83 pages, of which the main part is laid out on 72 pages. Key words: motor oil, refractometry, reflective index, critical angle.

Published

2023

197. LOW FREQUENCY ACOUSTIC PRESSURE MEAUREMENTS BASED ON A FABRY PEROT REFRACTOMETER

Author

Rezki, Amazigh, Silvestri, Zaccaria, Wallerand, Jean-Pierre, Guianvarc’h, Cécile, Himbert, Marc, Laboratoire commun de métrologie LNE-CNAM (LCM), Laboratoire National de Métrologie et d'Essais [Trappes] (LNE )-Conservatoire National des Arts et Métiers [CNAM] (CNAM), HESAM Université - Communauté d'universités et d'établissements Hautes écoles Sorbonne Arts et métiers université (HESAM)-HESAM Université - Communauté d'universités et d'établissements Hautes écoles Sorbonne Arts et métiers université (HESAM), Laboratoire Ondes et Milieux Complexes (LOMC), Université Le Havre Normandie (ULH), Normandie Université (NU)-Normandie Université (NU)-Centre National de la Recherche Scientifique (CNRS), and European Project: 19ENV03,Infra-AUV

Subjects

[SPI]Engineering Sciences [physics], optical microphone, Fabry Perot, opto-acoustic sensor, Fabry Perot infrasonic pressure refractometry optical microphone opto-acoustic sensor, infrasonic pressure, refractometry

Abstract

International audience; This paper presents the development, the operating principle, and the experimental results of an innovative technique for the measurement of acoustic pressures in the range of 40 mHz up to 5 Hz. This new measurement technique is based on the use of a Fabry Perot refractometer in which the air density variations related to an acoustic wave can be tracked and determined by measuring the optical frequency variations of a laser locked on a longitudinal mode of the Fabry Perot cavity. This approach covers a wider range in the low and infrasonic frequencies compared to conventional sensors.

Published

2023

198. High Quantum Yield Amino Acid Carbon Quantum Dots with Unparalleled Refractive Index.

Author

Kumar VB, Mirsky SK, Shaked NT, and Gazit E

Subjects

Amino Acids, Carbon chemistry, Water, Arginine, Refractometry, Quantum Dots chemistry

Abstract

Carbon quantum dots (CQDs) are one of the most promising types of fluorescent nanomaterials due to their exceptional water solubility, excellent optical properties, biocompatibility, chemical inertness, excellent refractive index, and photostability. Nitrogen-containing CQDs, which include amino acid based CQDs, are especially attractive due to their high quantum yield, thermal stability, and potential biomedical applications. Recent studies have attempted to improve the preparation of amino acid based CQDs. However, the highest quantum yield obtained for these dots was only 44%. Furthermore, the refractive indices of amino acid derived CQDs were not determined. Here, we systematically explored the performance of CQDs prepared from all 20 coded amino acids using modified hydrothermal techniques allowing more passivation layers on the surface of the dots to optimize their performance. Intriguingly, we obtained the highest refractive indices ever reported for any CQDs. The values differed among the amino acids, with the highest refractive indices found for positively charged amino acids including arginine-CQDs (∼2.1), histidine-CQDs (∼2.0), and lysine-CQDs (∼1.8). Furthermore, the arginine-CQDs reported here showed a nearly 2-fold increase in the quantum yield (∼86%) and a longer decay time (∼8.0 ns) compared to previous reports. In addition, we also demonstrated that all amino acid based CQD materials displayed excitation-dependent emission profiles (from UV to visible) and were photostable, water-soluble, noncytotoxic, and excellent for high contrast live cell imaging or bioimaging. These results indicate that amino acid based CQD materials are high-refractive-index materials applicable for optoelectronic devices, bioimaging, biosensing, and studying cellular organelles in vivo. This extraordinary RI may be highly useful for exploring cellular elements with different densities.

Published

2024

199. A Label-Free Optical Biosensor Based on an Array of Microring Resonators for the Detection of Human Serum Albumin.

Author

Chen X, Li M, Wang Z, Zhao K, Gu J, Li Q, and He JJ

Subjects

Humans, Limit of Detection, Refractometry, Biosensing Techniques

Abstract

We introduced a label-free sensing system based on an array of microring resonators (MRRs) which was successfully employed for human serum albumin (HSA) detection. The sensing-ring surface was functionalized to immobilize anti-HSA, facilitating HSA binding. Our refractive index sensing system demonstrates high sensitivity at 168 nm/RIU and a low limit of detection (LOD) of 63.54 ng/mL, closely comparable to current HSA detection methods. These findings confirm the potential of MRRs as biocompatible sensors for HSA detection. This system holds great promise as an innovative platform for the detection of HSA, carrying significant importance in medical diagnostics.

Published

2024

200. Development and Validation of a Method for Trace Level Zinc Quantification in Pharmaceutical Zinc Supplements Using a Carboxyl Functional Group Packed Column and Refractive Index Detector.

Author

Vanga NR, Kesamsetty VR, Ummiti K, Ratnakaram VN, and Bapatu HR

Subjects

Drug Stability, Dietary Supplements, Pharmaceutical Preparations, Chromatography, High Pressure Liquid methods, Reproducibility of Results, Zinc, Refractometry

Abstract

Background: Zinc helps with cell division, growth, wound healing, and carbohydrate breakdown. Humanbeings have to obtain zinc from food or supplements because our bodies do not produce it naturally. In view of the greater advantages (such as low cost, time of analysis, and stability-indicating) compared to other quantification methods (titration, ion chromatography, Atomic absorption spectroscopy) proposed in the literature, a refractive index detector coupled with HPLC has been used in quantification of zinc., Objective: The goal of this research is to develop and validate a sensitive, low-cost, high-resolution, and stability- indicating method for detecting and quantifying zinc levels in zinc supplement pharmaceutical products (injectables, tablets, and capsules)., Methods: A novel isocratic reverse-phase HPLC method with a refractive index detector (with sensitivity 64, detector temperature 35°C, and positive polarity) was developed using a carboxyl functional group packed column and 0.8% (v/v) formic acid as the mobile phase to detect and quantify zinc content., Results: The reported method has a good optimal sensitivity (LOQ: 0.006 mg/mL and LOD: 0.002 mg/mL). The correlation coefficient (r) obtained from the zinc calibration plot was greater than 0.998, indicating that the method was linear and that there was a strong correlation between zinc concentration (0.006 mg/mL to 0.375 mg/mL) and peak response. The accuracy at LOQ level was found to be 95-105% and 97-103% at the remaining levels (50, 100, and 150%)., Conclusion: The proposed method was successfully developed and validated as per International council for harmonisation (ICH) guidelines. Therefore, this method can be used for the quantitative testing of zinc in the QC laboratory., Highlights: A novel method was developed for zinc levels determination in pharmaceutical products using HPLC with a refractive index detector. The present approach has a quick run time of 10 min and is inexpensive., (© The Author(s) 2023. Published by Oxford University Press on behalf of AOAC INTERNATIONAL. All rights reserved. For permissions, please email: journals.permissions@oup.com.)

Published

2024