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    KCI등재 SCOPUS SCIE

    Design and performance analysis of smart photonic sensors for industrial applications

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    https://www.riss.kr/link?id=A108204674

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    다국어 초록 (Multilingual Abstract) kakao i 다국어 번역

    Toxic gas has a median fatal concentration in the oxygen of much more than 200 parts per million (ppm) but far less than 2000 ppm by volume of gas. Many industries, mines and thermal plants emit perilous gases that are more harmful to our human life. The Proposed nanosensor senses the various perilous gases and averts many accidents. In this paper, a two-dimensional Photonic Crystal (2D-PhC) resonator and PhC-based poisonous gas sensor based on the hexagonal and square crystal lattice are built-in smart way. The PhCs are artificial constructs of any material with an occasional enunciation of refractive index (RI). It has effective light manipulation and it would be helpful to obtain light migration in the handling of sensing applications. The TE/TM wave transmission can shift as per the RI value of different gases in the PhCs. The wavelength variations obtained agree well with the Finite Difference Time Domain (FDTD) study, and the simulation is performed by the tool RSoft. The spectral variables such as quality factor (QF), sensitivity (Se), transmitted output power and detection limit (DL) are evaluated using the RI value over the spectrum of different toxic gases. The proposed square crystal structure have acquired a QF range of 500.6, high efficiency of 99%, and a better Se of 716.6 nm/RIU at 1502 nm. The designed hexagonal crystal structure have acquired a QF range of 165.8, high efficiency of 99%, and a better Se of 798.24 nm/RIU at 1630 nm respectively. The DL for both the proposed sensors is very low. So, the designed smart sensor helps promptly recognize the contaminated gases in several places. The proposed nanosensor is helpful in industrial safety, health care applications, aerospace, agricultural, transportation, environmental monitoring, thermal plants and mines.
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    Toxic gas has a median fatal concentration in the oxygen of much more than 200 parts per million (ppm) but far less than 2000 ppm by volume of gas. Many industries, mines and thermal plants emit perilous gases that are more harmful to our human life. ...

    Toxic gas has a median fatal concentration in the oxygen of much more than 200 parts per million (ppm) but far less than 2000 ppm by volume of gas. Many industries, mines and thermal plants emit perilous gases that are more harmful to our human life. The Proposed nanosensor senses the various perilous gases and averts many accidents. In this paper, a two-dimensional Photonic Crystal (2D-PhC) resonator and PhC-based poisonous gas sensor based on the hexagonal and square crystal lattice are built-in smart way. The PhCs are artificial constructs of any material with an occasional enunciation of refractive index (RI). It has effective light manipulation and it would be helpful to obtain light migration in the handling of sensing applications. The TE/TM wave transmission can shift as per the RI value of different gases in the PhCs. The wavelength variations obtained agree well with the Finite Difference Time Domain (FDTD) study, and the simulation is performed by the tool RSoft. The spectral variables such as quality factor (QF), sensitivity (Se), transmitted output power and detection limit (DL) are evaluated using the RI value over the spectrum of different toxic gases. The proposed square crystal structure have acquired a QF range of 500.6, high efficiency of 99%, and a better Se of 716.6 nm/RIU at 1502 nm. The designed hexagonal crystal structure have acquired a QF range of 165.8, high efficiency of 99%, and a better Se of 798.24 nm/RIU at 1630 nm respectively. The DL for both the proposed sensors is very low. So, the designed smart sensor helps promptly recognize the contaminated gases in several places. The proposed nanosensor is helpful in industrial safety, health care applications, aerospace, agricultural, transportation, environmental monitoring, thermal plants and mines.

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    참고문헌 (Reference)

    1 C. -J. Yang, "Ultra sensitivity silicon-based photonic crystal microcavity biosensors for plasma protein detection in patients with pancreatic cancer" 11 : 282-, 2020

    2 Y. Trabelsi, "Tunable high Tc superconducting photonic band gap resonators based on hybrid quasi-periodic multilayered stacks" 576 : 1353706-, 2020

    3 Ayyanar Natesan, "Tricore photonic crystal fibre based refractive index sensor for glucose detection" 13 (13): 118-123, 2019

    4 I. S. Amiri, "Tri-core photonic crystal fiber based refractive index dual sensor for salinity and temperature detection" 61 (61): 847-852, 2019

    5 H. Arafa, Aly, "Transmittance properties of a quasi-periodic one-dimensional photonic crystals that incorporate nanocomposite material" 32 (32): 1850220-, 2018

    6 L. He, "Topological all-optical logic gates based on twodimensional photonic crystals" 27 : 25841-25859, 2019

    7 Y. Trabelsi, "Theoretical study of tunable optical resonators in periodic and quasiperiodic one-dimensional photonic structures incorporating a nematic liquid crystal" 5 (5): 2021

    8 A. S. Shalaby, "Theoretical study of one-dimensional defect photonic crystal as a high-performance sensor for water-borne bacteria" 53 (53): 2021

    9 Arafa H. Aly, "Theoretical study of hybrid multifunctional one-dimensional photonic crystal as a flexible blood sugar sensor" 95 (95): 2020

    10 S. Abdel Ghany, "Theoretical studies of hybrid multifunctional YaBa2Cu3O7 photonic crystals within visible and infra-red regions" 46 (46): 365-369, 2020

    1 C. -J. Yang, "Ultra sensitivity silicon-based photonic crystal microcavity biosensors for plasma protein detection in patients with pancreatic cancer" 11 : 282-, 2020

    2 Y. Trabelsi, "Tunable high Tc superconducting photonic band gap resonators based on hybrid quasi-periodic multilayered stacks" 576 : 1353706-, 2020

    3 Ayyanar Natesan, "Tricore photonic crystal fibre based refractive index sensor for glucose detection" 13 (13): 118-123, 2019

    4 I. S. Amiri, "Tri-core photonic crystal fiber based refractive index dual sensor for salinity and temperature detection" 61 (61): 847-852, 2019

    5 H. Arafa, Aly, "Transmittance properties of a quasi-periodic one-dimensional photonic crystals that incorporate nanocomposite material" 32 (32): 1850220-, 2018

    6 L. He, "Topological all-optical logic gates based on twodimensional photonic crystals" 27 : 25841-25859, 2019

    7 Y. Trabelsi, "Theoretical study of tunable optical resonators in periodic and quasiperiodic one-dimensional photonic structures incorporating a nematic liquid crystal" 5 (5): 2021

    8 A. S. Shalaby, "Theoretical study of one-dimensional defect photonic crystal as a high-performance sensor for water-borne bacteria" 53 (53): 2021

    9 Arafa H. Aly, "Theoretical study of hybrid multifunctional one-dimensional photonic crystal as a flexible blood sugar sensor" 95 (95): 2020

    10 S. Abdel Ghany, "Theoretical studies of hybrid multifunctional YaBa2Cu3O7 photonic crystals within visible and infra-red regions" 46 (46): 365-369, 2020

    11 Arafa H. Aly, "The optical properties of metamaterialsuperconductor photonic band gap with/without defect layer" 32 : 1897-1902, 2019

    12 C. Malek, "T unable PBGs with a cutofffrequency feature in Fibonacci quasi-periodic designs containing a superconductor material at THz region" 96 (96): 2021

    13 Elizabeth Caroline Britto, "Soil nutrient detection based on photonic crystal hexagonal resonator for smart farming" 51 (51): 2021

    14 Li Liang, "Simulated study of high-sensitivity gas sensor with a metal-PhC nanocavity via tamm plasmon polaritons" 8 (8): 2021

    15 R. Sameeha, "Salinity and temperature detection for seawater based on a 1D-defective photonic crystal material" 35 (35): 2150012-, 2021

    16 V. Jandieri, "Realization of true all-optical and logic gate based on the nonlinear coupled air-hole type photonic crystal waveguide" 26 (26): 19845-19853, 2018

    17 M.R. Uddin, "Quality analysis of a photonic micro-ring resonator" 382-385, 2016

    18 Arafa H. Aly, "Propagation of acoustic waves in 2D periodic and quasiperiodic photonic crystals" 31 (31): 2017

    19 L. Kourkouta, "Poisonings in children" 2 (2): 5-12, 2017

    20 L. Kourkouta, "Poisonings in children" 2 (2): 5-12, 2017

    21 C. Iliadis, "Poisoning by dangerous gases, in: Euro-Mediterranean Conference for Environmental Integration" 1981-1983, 2017

    22 D. Biallo, "Photonic crystal sensors" 44-48, 2006

    23 A. V. Dyogtyev, "Photonic Band Gap maps for different two dimensionally periodic crystal structures" 107 (107): 1-5, 2014

    24 Konstantinos Aidinis, "Optical sensor based on two dimensional photonic crystals for measuring glucose in urine" 59 (59): 057104-, 2020

    25 Y. Liu, "Optical refractive index sensing based on high-Q bound states in the continuum in free-space coupled photonic crystal slabs" 17 (17): 1861-, 2017

    26 Zaky A. Zaky, "Modeling of a biosensor using Tamm resonance excited by graphene" 60 (60): 1411-1419, 2021

    27 Arafa H Alya, "Metamaterial control of hybrid multifunctional high-Tc superconducting photonic crystals for 1D quasi-periodic structure potential applications" 23 (23): e20190695-, 2020

    28 Arafa H. Aly, "Metallic and superconducting photonic crystal" 21 (21): 2008

    29 K. Krzempek, "Kagome hollow core fiber-based midinfrared dispersion spectroscopy of methane at sub-ppm levels" 19 : 3352-, 2019

    30 D. Sathish Kumar, "Investigating the Performance of Microstrip Patch Antenna with Photonic Crystal on Different Substrate" 2019

    31 S. Olyaee, "High resolution and wide dynamic range pressure sensor based on two- Dimensional photonic crystal" 2 (2): 92-96, 2012

    32 Sathish Kumar Danasegaran, "Exploration of trigonal patch antenna characteristics with the impact of 2D photonic crystal of various air hole shapes" 50 (50): 5365-5374, 2021

    33 D. Gerace, "Disorder-induced losses in photonic crystal waveguides with line defects" 29 (29): 1897-1899, 2004

    34 Mazen M. Abadla, "Detection and sensing of hemoglobin using one-dimensional binary photonic crystals comprising a defect layer" 59 (59): 418-424, 2020

    35 S. Palanivel Rajan, "Design of triple C shaped slot antenna for implantable gadgets" 11 (11): 40-44, 2018

    36 Elizabeth Caroline, "Design of slotted patch antenna based on photonic crystal for wireless communication" 34 : e4662-, 2021

    37 D. Benelarbi, "Design of high-sensitive refractive index sensor using a ring-shaped photonic crystal waveguide" 6 (6): 105-109, 2016

    38 Uttara Biswas, "Design of an ultracompact and highly-sensitive temperature sensor using photonic crystal based single micro-ring resonator and cascaded micro-ring resonator" 13 (13): 2021

    39 Gholamali Delphi, "Design of an add filter and a 2-channel optical demultiplexer with high-QF based on nanoring resonator" 18 (18): 1372-1378, 2019

    40 A.K. Goyal, "Design and simulation of high-sensitive gas sensor using a ring shaped photonic crystal waveguide" 90 (90): 2015

    41 R. Arunkumar, "Design and analysis of 2D PhC based biosensor to detect different blood components" 9 : 69-77, 2019

    42 K. Lambrini, "Dangerous gases and poisoning:a literature review" 3 (3): 1-4, 2018

    43 G. Korotcenkov, "Chem. Sensors 5" 2011

    44 S. Palanivel Rajan, "Characterization of compact and efficient patch antenna with single inset feeding technique for wireless applications" 17 (17): 2021

    45 Li Jing, "Carbon nanotube sensors for gas and organic vapor detection" 3 (3): 929-933, 2003

    46 A. Rau, "Carbon monoxide poisoning—a public health perspective" 145 (145): 1-14, 2000

    47 Arafa H. Aly, "Biophotonic sensor for the detection of creatinine concentration in blood serum based on 1D photonic crystal" 10 (10): 31765-31772, 2020

    48 A. Kahlouche, "Band-gap properties of 2D photonic crystal made by silica matrixdoped with magnetic nanoparticle" 13 : 490-495, 2014

    49 S. Palanivel Rajan ; C. Vivek, "Analysis and Design of Microstrip Patch Antenna for Radar Communication" 대한전기학회 14 (14): 923-930, 2019

    50 Nihal Kularatna, "An environmental air pollution monitoring system" 8 (8): 415-422, 2008

    51 Geralyn Mccarron, "Air Pollution and human health hazards: a compilation of air toxins acknowledged by the gas industry in Queensland’s Darling Downs" 75 (75): 171-185, 2018

    52 Masoumeh Sarabaegi, "A novel ultrasensitive biosensor based on NiCo-MOF nanostructure and confined to flexible carbon nanofibers with high-surface skeleton to rapidly detect Helicobacter pylori" 139 (139): 2022

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    학술지 이력

    학술지 이력
    연월일 이력구분 이력상세 등재구분
    2023 평가 해외DB학술지평가 신청대상 (해외등재 학술지 평가)
    2020-01-01 등재 등재학술지 유지 (해외등재 학술지 평가) KCI등재
    2008-01-01 등재 등재학술지 선정 (등재후보2차) KCI등재
    2007-01-01 등재 등재후보 1차 PASS (등재후보1차) KCI등재후보
    2003-01-01 등재 등재후보학술지 선정 (신규평가) KCI등재후보
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    학술지 인용정보
    기준연도 WOS-KCI 통합IF(2년) KCIF(2년) KCIF(3년)
    2016 1.8 0.18 1.17
    KCIF(4년) KCIF(5년) 중심성지수(3년) 즉시성지수
    0.92 0.77 0.297 0.1
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