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Search results for: biosensors , metasurfaces , sensors , graphene , optical sensors , sensitivity , refractive index

  • Doped Nanocrystalline Diamond Films as Reflective Layers for Fiber-Optic Sensors of Refractive Index of Liquids

    Publication

    - Materials - Year 2019

    This paper reports the application of doped nanocrystalline diamond (NCD) films—nitrogen-doped NCD and boron-doped NCD—as reflective surfaces in an interferometric sensor of refractive index dedicated to the measurements of liquids. The sensor is constructed as a Fabry–Pérot interferometer, working in the reflective mode. The diamond films were deposited on silicon substrates by a microwave plasma enhanced chemical vapor deposition...

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  • Low-Coherence Interferometric Fiber-Optic Sensors with Potential Applications as Biosensors

    Publication

    - SENSORS - Year 2017

    Fiber-optic Fabry-Pérot interferometers (FPI) can be applied as optical sensors, and excellent measurement sensitivity can be obtained by fine-tuning the interferometer design. In this work, we evaluate the ability of selected dielectric thin films to optimize the reflectivity of the Fabry-Pérot cavity. The spectral reflectance and transmittance of dielectric films made of titanium dioxide (TiO2) and aluminum oxide (Al2O3) with...

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  • Low-Coherence Interferometric Fiber-Optic Sensors with Potential Applications as Biosensors

    Publication

    - Year 2019

    Fiber-optic Fabry-Pérot interferometers (FPI) can be applied as optical sensors, and excellent measurement sensitivity can be obtained by fine-tuning the interferometer design. In this work, we evaluate the ability of selected dielectric thin films to optimize the reflectivity of the Fabry-Pérot cavity. The spectral reflectance and transmittance of dielectric films made of titanium dioxide (TiO2) and aluminum oxide (Al2O3) with...

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  • Combined Long-Period Fiber Grating and Microcavity In-Line Mach–Zehnder Interferometer for Refractive Index Measurements with Limited Cross-Sensitivity

    Publication
    • M. Janik
    • M. Koba
    • K. Król
    • P. Mikulic
    • W. J. Bock
    • M. Śmietana

    - SENSORS - Year 2020

    This work discusses sensing properties of a long-period grating (LPG) and microcavity in-line Mach–Zehnder interferometer (µIMZI) when both are induced in the same single-mode optical fiber. LPGs were either etched or nanocoated with aluminum oxide (Al2O3) to increase its refractive index (RI) sensitivity up to ≈2000 and 9000 nm/RIU, respectively. The µIMZI was machined using a femtosecond laser as a cylindrical cavity (d = 60...

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  • Optical investigations of electrochemical processes using a long-period fiber grating functionalized by indium tin oxide

    Publication

    - SENSORS AND ACTUATORS B-CHEMICAL - Year 2019

    he growing needs for fast and reliable sensing devices stimulate development of new technological solutions. In this work a new multi-domain sensing method is demonstrated where optical sensing device has been applied to enhance amount of data received during electrochemical analysis. Thin, optically transparent, high-refractive-index, and electrically conductive indium tin oxide (ITO) film was deposited using magnetron sputtering...

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  • Fiber optic microsphere with a ZnO thin film for potential application in a refractive index sensor – theoretical study

    Publication

    Optical fiber sensors of refractive index play an important role in analysis of biological and chemical samples. This work presents a theoretical investigation of spectral response of a fiber optic microsphere with a zinc oxide (ZnO) thin film deposited on the surface and evaluates the prospect of using such a structure for refractive index sensing. A microsphere is fabricated by an optical fiber tapering method on the base of...

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  • Study on Combined Optical and Electrochemical Analysis Using Indium-tin-oxide-coated Optical Fiber Sensor

    Publication
    • M. Śmietana
    • P. Niedziałkowski
    • W. Białobrzeska
    • D. Burnat
    • P. Sezemsky
    • M. Koba
    • V. Stranak
    • K. Siuzdak
    • T. Ossowski
    • R. Bogdanowicz

    - ELECTROANALYSIS - Year 2019

    The growing needs for fast and reliable sensing devices stimulate development of new technological solutions. In this work a new multi-domain sensing method is demonstrated where optical sensing device has been applied to enhance amount of data received during electrochemical analysis. Thin, optically transparent, high-refractive-index, and electrically conductive indium tin oxide (ITO) film was deposited using magnetron sputtering...

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  • ZnO coated fiber optic microsphere sensor for the enhanced refractive index sensing

    Publication

    - SENSORS AND ACTUATORS A-PHYSICAL - Year 2019

    Optical fiber-based sensors are expected to become key components in the control of industrial processes,and the tuning and the enhancement of their sensing properties are crucial for the further developmentof this technology. Atomic Layer Deposition (ALD), a vapor phase technique allowing for the deposition ofconformal thin films, is particularly suited for the deposition of controllable thin films on challenging sub-strates....

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  • Chiral-based optical and electrochemical biosensors: Synthesis, classification, mechanisms, nanostructures, and applications

    Publication

    - CHEMICAL ENGINEERING JOURNAL - Year 2024

    This review seeks to collect, summarize, classify and discuss the latest advances in chiral-based optical biosensors. Starting from the identification of chiral molecules, photoluminescence, and electrochemical sensors, applications of chiral structures in biosensing molecules are reviewed. Then, biosensors working on the basis of chirality are classified, followed by summarizing the outcomes of research works on design, synthesis,...

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  • Fiber-optic Fabry-Pérot sensors – modeling versus measurements results

    Publication

    This paper describes how parameters of investigated substances and the fiber-optic Fabry-Pérot sensing interferometer affect the spectrum of the optical radiation at the output of the sensor. First, the modeling of the operation of the sensing interferometer was conducted. Most important parameters and effects that were taken into account are: dependences of the refractive indices of the core and the cladding, as well the mode...

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  • Modeling of multi-cavity Fabry-Perot optical fiber sensors

    Publication

    - Year 2015

    Reflectance characteristics of a two-cavity extrinsic Fabry-Perot optical fiber sensor were investigated using computer modeling. Calculations were performed using a plane wave-based approach, selected for clarity of results. Based on the modeling results, it can be concluded that the two-cavity Fabry-Perot interferometer can be used to measure two different quantities, such as refractive index and temperature, independently. It...

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  • Long-Period Gratings and Microcavity In-Line Mach Zehnder Interferometers as Highly Sensitive Optical Fiber Platforms for Bacteria Sensing

    Publication
    • T. Eftimov
    • M. Janik
    • M. Koba
    • M. Śmietana
    • P. Mikulic
    • W. J. Bock

    - SENSORS - Year 2020

    Selected optical fiber sensors offer extraordinary sensitivity to changes in external refractive (RI), which make them promising for label-free biosensing. In this work the most sensitive ones, namely long-period gratings working at (DTP-LPG) and micro-cavity in-line Mach-Zehnder interferometers (µIMZI) are discussed for application in bacteria sensing. We describe their working principles and RI sensitivity when operating in water...

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  • Optical-Fiber Microsphere-Based Temperature Sensors with ZnO ALD Coating—Comparative Study

    Publication

    - SENSORS - Year 2021

    This study presents the microsphere-based fiber-optic sensor with the ZnO Atomic Layer Deposition coating thickness of 100 nm and 200 nm for temperature measurements. Metrological properties of the sensor were investigated over the temperature range from 100 °C to 300 °C, with a 10 °C step. The interferometric signal was used to monitor the integrity of the microsphere and its attachment to the connecting fiber. For the sensor...

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  • Diamond-based protective layer for optical biosensors

    Publication

    - Year 2016

    Optical biosensors have become a powerful alternative to the conventional ways of measurement owing to their great properties, such as high sensitivity, high dynamic range, cost effectiveness and small size. Choice of an optical biosensor's materials is an important factor and impacts the quality of the obtained spectra. Examined biological objects are placed on a cover layer which may react with samples in a chemical, biological...

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  • Barium boron aluminum silicate glass system for solid state optical gas sensors

    Recent increasing demand for new eco-friendly materials and for low cost fabrication process for use in optical sensors field, raise concern about alternative materials for this application. We have designed two glass-ceramics compositions from the quaternary ROAl2O3- SiO2-B2O3(R=Ba) alkali-earth aluminum silicate system, labeled B72 and B69, with high refractive index (>1.6), large values of Abbe number (94.0 and 53.0, respectively),...

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  • Recent and Emerging Applications of Graphene-based metamaterials in Electromagnetics

    Publication
    • M. Esfandiari
    • A. Lalbakhsh
    • P. Shehni
    • S. Jarchi
    • M. Miab
    • H. Mahtaj
    • S. Reisenfeld
    • M. Alibakhshikenari
    • S. Kozieł
    • S. Szczepański

    - MATERIALS & DESIGN - Year 2022

    Surface Plasmon Polaritons (SPPs) operating in mid-infrared up to terahertz (THz) frequencies have been traditionally manufactured on expensive metals such as gold, silver, etc. However, such metals have poor surface confinement that limits the optical applications of SPPs. The invention of graphene is a breakthrough in plasmon-based devices in terms of design, fabrication and applications, thanks to its plasmonic wave distribution,...

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  • Identification of defected sensors in an array of amperometric gas sensors

    Purpose Amperometric gas sensors are commonly used in air quality monitoring in long-term measurements. Baseline shift of sensor responses and power failure may occur over time, which is an obstacle for reliable operation of the entire system. The purpose of this study is to check the possibility of using PCA method to detect defected samples, identify faulty sensor and correct the responses of the sensor identified as faulty. Design/methodology/approach In...

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  • Sensors for Rapid Detection of Environmental Toxicity in Blood of Poisoned People

    Publication

    - Year 2016

    Recently, the diagnosis and treatment of poisoned person can be done only in specialized centers. Furthermore, currently used clinical methods of intoxication diagnosis are not sufficient for early detection. Conventional laboratory tests based on urine and blood require professional, high skilled staff, high cost equipment as well as they are arduous and lasting analytical procedures. There is a need to elaborate relatively cheap...

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  • Functional fluorine-doped tin oxide coating for opto-electrochemical label-free biosensors

    Publication
    • D. Burnat
    • P. Sezemsky
    • K. Lechowicz
    • M. Koba
    • M. Janczuk-Richter
    • M. Janik
    • V. Stranak
    • J. Niedziółka-Jönsson
    • R. Bogdanowicz
    • M. Śmietana

    - SENSORS AND ACTUATORS B-CHEMICAL - Year 2022

    Sensors operating in multiple domains, such as optical and electrochemical, offer properties making biosensing more effective than those working in a single domain. To combine such domains in one sensing device, materials offering a certain set of properties are required. Fluorine-doped tin oxide (FTO) thin film is discussed in this work as functional optically for guiding lossy modes and simultaneously electrochemically, i.e....

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  • High-performance graphene-based biosensor using a metasurface of asymmetric silicon disks

    Publication

    - IEEE SENSORS JOURNAL - Year 2022

    In recent years, optical biosensors widely applicable for medical applications, have received much attention. In this paper, we propose a high-performance polarization-insensitive optical biosensor based on a graphene-dielectric metasurface. The metasurface consists of an asymmetric dielectric disk array that supports a high Q-factor Fano resonance. The provided sharp Fano resonance results in an enhanced light-matter interaction...

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  • Enhancing electrochemical properties of an ITO-coated lossy-mode resonance optical fiber sensor by electrodeposition of PEDOT:PSS

    Publication

    - Optical Materials Express - Year 2019

    A sensor working in multiple domains may offer enhanced information about the properties of an investigated analyte, including those containing biological species. It has already been shown that a dual-domain sensing capability, i.e., in optical and electrochemical domains, can be offered by lossy-mode resonance (LMR) sensors based on indium-tin-oxide (ITO) thin film. The spectral response of the LMR sensors depends on the refractive...

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  • Response of a New Low-Coherence Fabry-Perot Sensor to Hematocrit Levels in Human Blood

    Publication

    - SENSORS - Year 2014

    In this paper, a low-coherence Fabry-Perot sensor with a spectrally measured signal processing response to the refractive index of liquids is presented. Optical fiber sensors are potentially capable of continuous measuring hematocrit levels in blood. Low-coherence Fabry-Perot interferometric sensors offer a robust solution, where information about the measurand is encoded in the full spectrum of light reflected from the sensing...

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  • Graphene oxide, reduced graphene oxide and composite thin films NO2 sensing properties

    Publication

    - Year 2016

    A graphene oxide (GO), reduced graphene oxide (RGO) and poly(3,4-ethylenedioxytiophene)-reduced graphene oxide (PEDOT-RGO composite) gas sensors were successfully fabricated using an electrodeposition method. The electrodeposition was carried out in aqueous GO dispersions. To obtain RGO and PEDOT-RGO, the electrochemical reduction of GO and PEDOT-GO was carried out in 0.1 M KCl at a constant potential of −0.85 V. The GO, RGO and PEDOT-RGO...

  • Organic Vapor Sensing Mechanisms by Large-Area Graphene Back-Gated Field-Effect Transistors under UV Irradiation

    Publication
    • K. Drozdowska
    • A. Rehman
    • P. Sai
    • B. Stonio
    • A. Krajewska
    • M. Dub
    • J. Kacperski
    • G. Cywiński
    • M. Haras
    • S. Rumyantsev... and 3 others

    - ACS Sensors - Year 2022

    The gas sensing properties of graphene back-gated field-effect transistor (GFET) sensors toward acetonitrile, tetrahydrofuran, and chloroform vapors were investigated with the focus on unfolding possible gas detection mechanisms. The FET configuration of the sensor device enabled gate voltage tuning for enhanced measurements of changes in DC electrical characteristics. Electrical measurements were combined with a fluctuation-enhanced...

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  • Chemorezystancyjny czujnik gazu na bazie polimeru przewodzącego PEDOT

    Publication

    - Year 2013

    Polimery przewodzące, takie jak Poli(3,4-etylenodioksytiofen) (PEDOT) są atrakcyjnymi materiałami elektrodowymi, które posiadają takie zalety, jak biokompatybilność, duża przewodność i elastyczność. Elektroprzewodzące polimery można otrzymać w wyniku chemicznej polimeryzacji lub elektropolimeryzacji. W niniejszej pracy przedstawiono zostanie koncepcja czujnika gazów składająca się z elektrody grzebieniowej oraz polimeru przewodzącego...

  • Optical fiber aptasensor for label-free bacteria detection in small volumes

    Publication

    - SENSORS AND ACTUATORS B-CHEMICAL - Year 2021

    Highly sensitive devices for fast bacteria detection are sought to be developed with the task of quantifying the worldwide problem of pathogenic bacteria and thus helping to take control over spreading bacterial infections. This work concerns a sensing solution based on microcavity in-line Mach-Zehnder interferometer (μIMZI) induced in an optical fiber. Such a device exhibits ultrahigh sensitivity to refractive index changes...

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  • Tuning of the finesse coefficient of optoelectronic devices

    Publication

    - Year 2022

    Optoelectronic devices attracted considerable attention in many branches of science and technology, which can be attributed to their unique properties. Many of them use optical cavities which parameters can be adopted to specific requirements. This thesis investigates the introduction of diamond structures (nitrogen-doped diamond film, boron-doped diamond film, undoped diamond sheet) to optical cavities to tune their finesse coefficient....

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  • Overview of planar antenna loading metamaterials for gain performance enhancement: the two decades of progress

    Publication

    - IEEE Access - Year 2022

    Metamaterials (MTMs) are artificially engineered materials with unique electromagnetic properties not occurring in natural materials. MTMs have gained considerable attention owing to their exotic electromagnetic characteristics such as negative permittivity and permeability, thereby a negative refraction index. These extraordinary properties enable many practical applications such as super-lenses, and cloaking technology, and are...

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  • Real-time isothermal DNA amplification monitoring in picoliter volumes using an optical fiber sensor

    Publication
    • M. Janik
    • S. V. Hamidi
    • M. Koba
    • J. Perreault
    • R. Walsh
    • W. J. Bock
    • M. Śmietana

    - LAB ON A CHIP - Year 2021

    Rolling circle amplification (RCA) of DNA can be considered as a great alternative to the gold standard polymerase chain reaction (PCR), especially during this pandemic period, where rapid, sensitive, and reliable test results for hundreds of thousands of samples are required daily. This work presents the first research to date on direct, real-time and label-free isothermal DNA amplification monitoring using a microcavity in-line...

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  • Polarization-dependent optical absorption in phosphorene flakes

    The interest of 2D materials is constantly increasing because of their very attractive mechanical, electrical and optical parameters. They have been used in many applications, e.g. photodetectors, sensors, modulators, insulators. One of the recently discovered 2D materials is phosphorene. In contrast to graphene, phosphorene has a direct bandgap tuned by numbers of layers in the 2D structure. The phosphorene flakes are strongly...

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  • Synergistic effect of multi walled carbon nanotubes and reduced graphene oxides in natural rubber for sensing application

    Publication

    - SOFT MATTER - Year 2013

    Utilizing the electrical properties of polymer nanocomposites is an important strategy to develop high performance solvent sensors. Here we report the synergistic effect of multi walled carbon nanotubes (MWCNTs) and reduced graphene oxide (RGO) in regulating the sensitivity of the naturally occurring elastomer, natural rubber (NR). Composites were fabricated by dispersing CNTs alone and together with exfoliated RGO sheets (thermally...

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  • Nanocrystalline diamond microelectrode on fused silica optical fibers for electrochemical and optical sensing

    Publication

    - Year 2015

    Fabrication process of thin boron-doped nanocrystalline diamond (B-NCD) microelectrode on fused silica single mode optical fiber has been investigated. The B-NCD films were deposited on the fibers using Microwave Plasma Assisted Chemical Vapor Deposition (MW PA CVD) at glass substrate temperature of 475 ºC. We have obtained homogenous, continuous and polycrystalline surface morphology with the mean grain size in the range of 100-250...

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  • Mechanical exfoliation and layer number identification of single crystal monoclinic CrCl3

    Publication
    • S. Kazim
    • M. Alì
    • S. Palleschi
    • G. D’Olimpio
    • D. Mastrippolito
    • A. Politano
    • R. Gunnella
    • A. DiCicco
    • M. Renzelli
    • G. Moccia... and 6 others

    - NANOTECHNOLOGY - Year 2020

    After the recent finding that CrI3, displays ferromagnetic order down to its monolayer, extensive studies have followed to pursue new two-dimensional (2D) magnetic materials. In this article, we report on the growth of single crystal CrCl3 in the layered monoclinic phase. The system after mechanical exfoliation exhibits stability in ambient air (the degradation occurs on a time scale at least four orders of magnitude longer than...

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  • Opto-Electrochemical Sensing Device Based on Long-Period Grating Coated with Boron-Doped Diamond Thin Film

    Publication

    The fabrication process of thin boron-doped nanocrystalline diamond (B-NCD) microelectrodes on fused silica single mode optical fiber cladding has been investigated. The B-NCD films were deposited on the fibers using Microwave Plasma Assisted Chemical Vapor Deposition (MW PA CVD) at glass substrate temperature of 475 ºC. We have obtained homogenous, continuous and polycrystalline surface morphology with high sp3 content in B-NCD...

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  • Microsphere structure application for supercapacitor in situ temperature monitoring

    Publication

    Constant, real-time temperature monitoring of the supercapacitors for efficient energy usage is in high demand and seems to be crucial for further development of those elements. A fiber-optic sensor can be an effective optoelectronic device dedicated for in-situ temperature monitoring of supercapacitors. In this work, the application of the fiber-optic microstrucutre with thin zinc oxide (ZnO) coating fabricated in the atomic layer...

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  • Thermal dewetting as a method of surface modification of the gold thin films for surface plasmon resonance based sensor applications

    Here, we report a quick and simple approach with low, optimized production costs to obtain surface plasmon resonance (SPR) based sensors fabricated through a time- and resource-effective method based on thermal dewetting of thin Au films. From the applicative point of view, the method of detection presented here should be easier to implement, since light transmission measurements seem to be much less challenging than light refractive...

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  • Optical properties of thin TiO2 film deposited on the fiber optic sensor head

    Publication

    - Year 2017

    The presented study was focused on investigation of the titanium dioxide (TiO2) thin film deposited on the fiber tip. The intention of this investigation was using TiO2 film in the construction of the optical fiber sensor head. In the demonstrated construction TiO2 thin layer was deposited on the tip of a commonly used telecommunication single mode optical fiber (SMF-28) by means of the Atomic Layer Deposition (ALD). Thickness...

  • Bio-inspired approaches for explosives detection

    Publication

    - TRAC-TRENDS IN ANALYTICAL CHEMISTRY - Year 2021

    Due to unique abilities of the animals regarding analysis of complex gas substances, they still remain a gold standard in analysis of explosives. Unusual capabilities of biological chemosensory systems, including both vertebrates and invertebrates, stimulate elaboration of the devices mimicking their activity and operation parameters as precisely as possible. The electronic analogues are a subject of investigation in many research...

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  • Enzyme Conjugation - A Promising Tool for Bio-catalytic and Biotransformation Applications – A Review

    Publication
    • M. A. Muneer
    • S. Fatima
    • N. Hussain
    • T. Mashifana
    • A. Sayed
    • G. Boczkaj
    • M. S. R. Rajoka

    - TOPICS IN CATALYSIS - Year 2024

    Enzymes have revolutionized conventional industrial catalysts as more efficient, eco-friendly, and sustainable substitutes that can be used in different biotechnological processes, food, and pharmaceutical industries. Yet, the enzymes from nature are engineered to make them adapt and enhance their durability in the industrial environment. One promising approach involves the combined use of multiple enzymes that catalyze highly...

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  • Magnetic field mapping along a NV-rich nanodiamond-doped fiber

    Publication
    • A. Filipkowski
    • M. Mrózek
    • G. Stępniewski
    • M. Ficek
    • D. Pysz
    • W. Gawlik
    • R. Buczyński
    • A. M. Wojciechowski
    • M. Klimczak

    - APPLIED PHYSICS LETTERS - Year 2024

    Integration of NV−-rich diamond with optical fibers enables guiding quantum information on the spin state of the NV− color center. Diamond-functionalized optical fiber sensors have been demonstrated with impressive sub-nanotesla magnetic field sensitivities over localized magnetic field sources, but their potential for distributed sensing remains unexplored. The volumetric incorporation of diamonds into the optical fiber core allows...

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  • Resistive gas sensors – Perspectives on selectivity and sensitivity improvement

    Publication
    • J. Smulko
    • M. Trawka
    • U. Cindemir
    • C. G. Granqvist
    • C. Duran

    - Year 2016

    Resistive gas sensors are very popular and relatively inexpensive; they can operate at elevated or room temperature for years on end. The main disadvantage of resistive gas sensors is their limited selectivity and sensitivity, but various methods have been applied to improve their behavior. The composition of the porous gas sensing layer, or changes in the sensor’s operating temperature, can enhance the gas detection ability. Furthermore, emerging...

  • New approaches for improving selectivity and sensitivity of resistive gas sensors: a review

    Publication
    • J. Smulko
    • M. Trawka
    • C. G. Granqvist
    • R. Ionescu
    • F. E. Annanouch
    • E. Llobet
    • L. B. Kish

    - Sensor Review - Year 2015

    Purpose – This paper aims to present the methods of improving selectivity and sensitivity of resistance gas sensors. Design/methodology/approach – This paper compares various methods of improving gas sensing by temperature modulation, UV irradiation or fluctuation-enhanced sensing. The authors analyze low-frequency resistance fluctuations in commercial Taguchi gas sensors and the recently developed tungsten trioxide (WO3) gas-sensing...

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  • Sensors and System for Vehicle Navigation

    Publication

    - SENSORS - Year 2022

    In recent years, vehicle navigation, in particular autonomous navigation, has been at the center of several major developments, both in civilian and defense applications. New technologies, such as multisensory data fusion, big data processing, or deep learning, are changing the quality of areas of applications, improving the sensors and systems used. Recently, the influence of artificial intelligence on sensor data processing and...

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  • New approaches for improving selectivity and sensitivity of resistive gas sensors: A review

    Publication
    • J. Smulko
    • M. Trawka
    • L. Hasse
    • C. G. Granqvist
    • R. Ionescu
    • F. E. Annanouch
    • E. Llobet
    • L. B. Kish

    - Year 2014

    Resistive gas sensors are very popular and reliable but suffer from low selectivity and sensitivity. Various methods have been suggested to improve both features without increasing the number of sensors in gas detection systems. Fluctuation enhanced gas sensing was proposed to improve gas detection efficiency by analyzing low-frequency resistance fluctuations, and noise parameters can be more informative than the single DC resistance...

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  • Sensors and Sensor’s Fusion in Autonomous Vehicles

    Publication

    - SENSORS - Year 2021

    Autonomous vehicle navigation has been at the center of several major developments, both in civilian and defense applications. New technologies such as multisensory data fusion, big data processing, and deep learning are changing the quality of areas of applications, improving the sensors and systems used. New ideas such as 3D radar, 3D sonar, LiDAR, and others are based on autonomous vehicle revolutionary development. The Special...

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  • Measurement of complex refractive index of human blood by low-coherence interferometry

    In this article, the usefulness of the optical technique for measurements of blood complex refractive index has been examined. Measurement of optical properties of human blood is difficult to perform because of its nonuniform nature. However, results of my investigation have shown the usefulness of low-coherencei nterferometry for measurement complex refractive index of human blood. Furthermore, mathematical analysis of spectrum...

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  • On Rapid Design Optimization and Calibration of Microwave Sensors Based on Equivalent Complementary Resonators for High Sensitivity and Low Fabrication Tolerance

    Publication

    - SENSORS - Year 2023

    This paper presents the design, optimization, and calibration of multivariable resonators for mi-crowave dielectric sensors. An optimization technique for circular complementary split ring reso-nator (CC-SRR) and square complementary split ring resonator (SC-SRR) is presented to achieve the required transmission response in a precise manner. The optimized resonators are manufac-tured using a standard photolithographic technique...

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  • Determination of the refractive index and wavelength‐dependent optical properties of few‐layer CrCl3 within the Fresnel formalism

    Publication
    • S. Kazim
    • R. Gunnella
    • M. Zannotti
    • R. Giovannetti
    • T. Klimczuk
    • L. Ottaviano

    - JOURNAL OF MICROSCOPY - Year 2021

    Based on previous reports on the optical microscopy contrast of mechanically exfoliated few layer CrCl3 transferred on 285 nmand 270 nmSiO2 on Si(100), we focus on the experimental determination of an effective mean complex refractive index via a fitting analysis based on the Fresnel equations formalism. Accordingly, the layer and wavelength-dependent absorbance and reflectance are calculated. Layer and wavelength-dependent optical...

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  • Pulsed UV-irradiated Graphene Sensors for Ethanol Detection at Room Temperature

    Publication

    - Year 2021

    A graphene-based gas sensor fabricated in a FET (GFET) configuration and its sensitivity towards ethanol and methane is reported. Detection of ethanol at the level of 100 ppm was observed under pulsed UV irradiation and after cleaning by UV light in the N2 ambient. Reduction of the frequency of UV irradiation pulses resulted in increased changes in sensor resistance in the presence of ethanol. Improved sensing behavior was ascribed...

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  • DFT studies of the refractive index of boron-doped diamond

    The density functional theory is one of the optimal solutions in calculation of optical properties of materials on the quantum scale. In this paper, we have investigated the refractive index of a boron-doped diamond structure with the usage of Atomistic Toolkit software from Synopsys. During this study, various methods and pseudopotentials were checked to obtain an optimal performanceaccuracy method for calculation of such materials....

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