Person Image

    Education

    • กศ.บ.(ฟิสิกส์), มหาวิทยาลัยนเรศวร, ไทย, 2548
    • วท.ม.(ฟิสิกส์ประยุกต์), มหาวิทยาลัยเชียงใหม่, ไทย, 2550
    • Ph.D. (Physics), National Chung Hsing University, Taiwan, 2554

    Expertise Cloud

    Boron dopingcadmium sulfideCrystal structureElectrodesethanol sensorethanol sensor.Field emission microscopesField emission scanning electron microscopesField emission scanning electron microscopyManganese dopingManganese tellurideManganese-doped copper tin sulfideManganese-doped tin sulfideMetal nanoparticlesMnTe quantum-dotMorphological and Electrical PerformancesMorphological characteristicMorphologyNanocomposite filmNanocompositesNanocrystalNanocrystalsnanoparticleNanoparticlesNanosheetNanostructureNanostructured Bi2Te3 thin filmNanostructured materialsnanostructuresNa–S batteryNb2O5 thin filmNon and conductive-glass substratesNonlinear optical propertiesNucleation and growthopticalOptical communicationOptical dispersionOptical materials and propertiesOptical propertiesOptical propertyOptical spectral rangeOptoelectrical propertiesOptoelectronic deviceOptoelectronic devicesoptoelectronics applicationsOxide filmsPassivationQuantum dotquantum dotsquantum-dotReaction depositionRoom-temperature photoluminescenceSb3+ dopingScanning electron microscopySelective Solar AbsorberSemiconducting II–VI materialsSemiconductor dopingSemiconductor nanoparticlesSemiconductor quantum dotsSemiconductor sensitizerSemiconductorsSensorSILAR techniqueSilver antimony sulfideSilver selenideSilver sulfideSolar cellsolar cellsSolar cells.Solar energy materialsSolar-cell applicationsSolidsSpin coating methodSpin glassSpin-coating methodSpray pyrolysisSpray pyrolysis methodstoichiometryStructuralStructural and optical propertiesStructural characteristicssuccessive ionic layer absorption and reaction techniqueSuccessive ionic layer adsorption and reactionSuccessive ionic layer adsorption and reaction techniqueSuccessive ionic layer adsorption and reactionsThin filmThin film technologyThin filmsTin Manganese TellurideTitanium dioxidezinc oxideZnOคอปเปอร์เทลลูไรด์คุณลักษณะเชิงโครงสร้างคุณสมบัติเชิงแสงเชื้อแบคทีเรียอีโคไลซิงก์ออกไซด์เตตระพอตเซลล์แสงอาทิตย์อนุภาคควอนตัมแบบจุดอนุภาคนาโน

    Interest

    Synthesis of semiconductor nanostructures, Thin films and quantum dots for solar cells application

    Resource

    • จำนวนหน่วยปฏิบัติการที่เข้าร่วม 0 หน่วย
    • จำนวนเครื่องมือวิจัย 0 ชิ้น
    • สถานที่ปฏิบัติงานวิจัย
      • ห้อง 413 ชั้น 4 อาคาร SC14

    งานวิจัยในรอบ 5 ปี

    Project

    งานวิจัยที่อยู่ระหว่างการดำเนินการ
    • ทุนใน 0 โครงการ
    • ทุนนอก 0 โครงการ
    งานวิจัยที่เสร็จสิ้นแล้ว
    • ทุนใน 9 โครงการ (หัวหน้าโครงการ 9 โครงการ)
    • ทุนนอก 2 โครงการ (หัวหน้าโครงการ 2 โครงการ)

    แนวโน้มผลงานทั้งหมดเทียบกับแนวโน้มผลงานในรอบ 5 ปี

    Output

    • บทความ 54 เรื่อง (ตีพิมพ์ในวารสารวิชาการ 47 เรื่อง, นำเสนอในการประชุม/สัมมนา 7 เรื่อง)

    แนวโน้มการนำผลงานไปใช้ประโยชน์ในด้านต่างๆ

    Outcome

    • การนำผลงานไปใช้ประโยชน์ 1 เรื่อง (เชิงวิชาการ 1 เรื่อง, เชิงนโยบาย/บริหาร 0 เรื่อง, เชิงสาธารณะ 0 เรื่อง, เชิงพาณิชย์ 0 เรื่อง)

    รางวัลที่ได้รับ

    Award

    • รางวัลที่ได้รับ 4 เรื่อง (ประกาศเกียรติคุณ/รางวัลนักวิจัย 4 เรื่อง, รางวัลผลงานวิจัย/สิ่งประดิษฐ์ 0 เรื่อง, รางวัลผลงานนำเสนอในการประชุมวิชาการ 0 เรื่อง)

    นักวิจัยที่มีผลงานงานร่วมกันมากที่สุด 10 คนแรก


    Scopus h-index

    #Document titleAuthorsYearSourceCited by
    1Ag2S quantum dot-sensitized solar cellsTubtimtae A., Wu K., Tung H., Lee M., Wang G.2010Electrochemistry Communications
    12(9),pp. 1158-1160
    201
    2Zinc oxide nanostructures for applications as ethanol sensors and dye-sensitized solar cellsChoopun S., Tubtimtae A., Santhaveesuk T., Nilphai S., Wongrat E., Hongsith N.2009Applied Surface Science
    256(4),pp. 998-1002
    102
    3Ag2Se quantum-dot sensitized solar cells for full solar spectrum light harvestingTubtimtae A., Lee M., Wang G.2011Journal of Power Sources
    196(15),pp. 6603-6608
    73
    4ZnO nanorods on undoped and indium-doped ZnO thin films as a TCO layer on nonconductive glass for dye-sensitized solar cellsTubtimtae A., Lee M.2012Superlattices and Microstructures
    52(5),pp. 987-996
    54
    5Ag2S quantum dot-sensitized WO3 photoelectrodes for solar cellsTubtimtae A., Cheng K., Lee M.2014Journal of Solid State Electrochemistry
    18(6),pp. 1627-1633
    34
    6Effects of passivation treatment on performance of CdS/CdSe quantum-dot co-sensitized solar cellsTubtimtae A., Lee M.2012Thin Solid Films
    526,pp. 225-230
    27
    7ZnO-nanorod dye-sensitized solar cells: New structure without a transparent conducting oxide layerLee M., Lai M., Tubtimtae A., Wang G.2010International Journal of Photoenergy
    2010
    22
    8MnTe semiconductor-sensitized boron-doped TiO2 and ZnO photoelectrodes for solar cell applicationsTubtimtae A., Arthayakul K., Teekwang B., Hongsith K., Hongsith K., Choopun S., Choopun S.2013Journal of Colloid and Interface Science
    405,pp. 78-84
    20
    9Multi-phase structures of boron-doped copper tin sulfide nanoparticles synthesized by chemical bath deposition for optoelectronic devicesRakspun J., Kantip N., Vailikhit V., Choopun S., Choopun S., Tubtimtae A.2018Journal of Physics and Chemistry of Solids
    115,pp. 103-112
    13
    10Tailoring Cu2-xTe quantum-dot-decorated ZnO nanoparticles for potential solar cell applicationsTubtimtae A., Phadungdhitidhada S., Phadungdhitidhada S., Wongratanaphisan D., Wongratanaphisan D., Gardchareon A., Gardchareon A., Choopun S., Choopun S.2014Current Applied Physics
    14(5),pp. 772-777
    12
    11Undoped and Manganese2+-doped polycrystalline Cd1-xInxTe sensitizer for liquid-junction solar cell devicesSingsa-ngah M., Hongsith K., Hongsith K., Choopun S., Choopun S., Tubtimtae A.2015Journal of Colloid and Interface Science
    451,pp. 189-197
    12
    12Tailoring of boron-doped MnTe semiconductor-sensitized TiO2 photoelectrodes as near-infrared solar cell devicesTubtimtae A., Hongto T., Hongsith K., Hongsith K., Choopun S., Choopun S.2014Superlattices and Microstructures
    66,pp. 96-104
    11
    13Boron-doped CuInTe2 semiconductor-sensitized liquid-junction solar cellsTermsaithong P., Tubtimtae A.2015Materials Letters
    138,pp. 41-44
    10
    14Effect of annealing process on the properties of undoped and manganese2+-doped co-binary copper telluride and tin telluride thin filmsKladkaew M., Samranlertrit N., Vailikhit V., Teesetsopon P., Tubtimtae A.2018Ceramics International
    44(6),pp. 7186-7201
    9
    15Electrochemical performance of Bi2Te3 heterostructure thin film and Cu7Te4 nanocrystals on undoped and In3+-doped WO3 films for energy storage applicationsBuathet S., Simalaotao K., Simalaotao K., Reunchan P., Reunchan P., Vailikhit V., Teesetsopon P., Raknual D., Kitisripanya N., Tubtimtae A.2020Electrochimica Acta
    341
    9
    16Effective properties of undoped and Indium3+-doped tin manganese telluride (Sn1 − xMnxTe) nanoparticles via using a chemical bath deposition routeBoon-on P., Tubtimtae A., Vailikhit V., Teesetsopon P., Choopun S., Choopun S.2017Physics Letters, Section A: General, Atomic and Solid State Physics
    381(21),pp. 1807-1814
    8
    17Effect of indium doping in Nb2O5 thin films for electron transport layers: Investigation of structural, optical, and electrical propertiesRaknual D., Suttiyarak P., Tubtimtae A., Vailikhit V.2020Materials Letters
    259
    8
    18Indium dopant-induced morphological and optical properties of tin-antimony sulfide thin films synthesized by the spin coating method compared with ab initio calculationTubtimtae A., Pluengphon P., Inceesungvorn B.2021Materials Letters
    300
    7
    19Effective performance for undoped and boron-doped double-layered nanoparticles-copper telluride and manganese telluride on tungsten oxide photoelectrodes for solar cell devicesSrathongluan P., Vailikhit V., Teesetsopon P., Choopun S., Choopun S., Tubtimtae A.2016Journal of Colloid and Interface Science
    481,pp. 57-68
    7
    20Effect of low thermal treatment temperatures on the morphological, optical and electrical properties of Sn1-xMnxTe nanocomposite films incorporated with indium cationsRukcharoen N., Tubtimtae A., Vailikhit V., Teesetsopon P., Kitisripanya N.2019Ceramics International
    45(17),pp. 23203-23215
    7
    21P-type In3+-doped Cu12Sb4S13 thin films deposited by spray pyrolysis method: Investigation of structural, optical, electrical, and electrocatalytic propertiesSuttiyarak P., Tubtimtae A.2020Applied Surface Science
    527
    7
    22Structural and optical properties of undoped and antimony-doped lead telluride thin filmsKrataitong C., Srichai K., Tubtimtae A.2020Materials Letters
    6
    23Structural and electrochemical studies of undoped and In3+-doped co-binary Cu2-xTe and Bi2Te3 thin films for aqueous Na–S batteriesSreerung R., Raknual D., Vailikhit V., Teesetsopon P., Kitisripanya N., Tubtimtae A.2019Ceramics International
    45(14),pp. 17305-17317
    6
    24Photovoltaic performances of Cu2-xTe sensitizer based on undoped and indium3+-doped TiO2 photoelectrodes and assembled counter electrodesSrathongluan P., Kuhamaneechot R., Sukthao P., Vailikhit V., Choopun S., Choopun S., Tubtimtae A.2016Journal of Colloid and Interface Science
    463,pp. 222-228
    6
    25Ethanol sensor based on Au-doped ZnO nanostructuresTubtimtae A., Choopun S., Gardchareon A., Mangkorntong P., Mangkorntong N.2007Proceedings of the 2nd IEEE International Conference on Nano/Micro Engineered and Molecular Systems, IEEE NEMS 2007
    ,pp. 207-210
    5
    26Facile synthesis of copper-antimony-sulfide nanostructures on WO 3 electrodes: Investigation of electrochemical performanceSribenjawan J., Raknual D., Vailikhit V., Kitisripanya N., Tubtimtae A.2019Materials Letters
    245,pp. 126-129
    5
    27Structural and electrochemical properties of undoped and In3+-doped multi-phase zinc- antimony oxide for a high-performance pseudocapacitorRaknual D., Charoenphon S., Charoenphon S., Reunchan P., Reunchan P., Tubtimtae A.2021Electrochimica Acta
    389
    5
    28Structural, optical and electrochemical performances of undoped and Sn2+-doped Bi2Te3 nanoparticles on WO3 electrodesBuddeesao M., Raknual D., Tubtimtae A., Vailikhit V., Teesetsopon P.2020Materials Science in Semiconductor Processing
    105
    5
    29Undoped and In3+-doped WO3 electrodes coated with Cu7Te4 nanocrystals and Bi2Te3 thin films: Investigation of morphological, structural and optical propertiesSuttiyarak P., Buathet S., Tubtimtae A.2020Optik
    212
    5
    30Effect of pH treatment on the structural and optical properties of Sn6Sb10S21 thin films facilely synthesized using a spin coating methodKumrueng W., Sawanthai K., Tubtimtae A., Ponhan W.2020Optical Materials
    105
    5
    31Copper incorporation in Mn2+-doped Sn2S3 nanocrystals and the resultant structural, optical, and electrochemical characteristicsNoppakuadrittidej P., Vailikhit V., Teesetsopon P., Choopun S., Choopun S., Tubtimtae A.2018Ceramics International
    44(12),pp. 13973-13985
    4
    32Structural and optical properties of undoped and Sb-doped lead oxide thin films synthesized via the chemical bath deposition methodPanturotai K., Krataithong C., Pluengphon P., Wongrat E., Tubtimtae A., Inceesungvorn B.2022Optical Materials
    126
    4
    33Ag3SbS3 thin films formed by annealing hydrothermally synthesized Ag3SbS3 nanoparticlesTubtimtae A., Huang C., Shi J., Lee M.2016Materials Letters
    177,pp. 58-60
    3
    34Optical and photovoltaic properties of CdS/Ag2S quantum dots co-sensitized-solar cellsTubtimtae A., Lee M.W.2013Materials Science Forum
    761,pp. 15-18
    3
    35Cu2-xTe/MnTe co-sensitized near-infrared absorbing liquid-junction solar cellsRungtaweechai N., Tubtimtae A.2015Materials Letters
    158,pp. 70-74
    2
    36One-pot synthesis of Cd1−xIn xTe semiconductor as a sensitizer on TiO2 mesoporous for potential solar cell devicesSingsa-ngah M., Tubtimtae A.2015Applied Physics A: Materials Science and Processing
    120(2),pp. 757-764
    2
    37Tailoring CuχS semiconductor-sensitized SnO2 solar cellsTubtimtae A., Wu Y., Chen Y., Shi J., Lee M.2015Materials Letters
    147,pp. 16-19
    2
    38Boron-doped MnTe semiconductor-sensitized ZnO solar cellsTubtimtae A., Sheangliw S., Hongsith K., Hongsith K., Choopun S., Choopun S.2014Bulletin of Materials Science
    37(6),pp. 1477-1483
    2
    39Comparative study on the influence of transparent glass substrates for antimony telluride thin films via structural and optical propertiesKrataithong C., Srichai K., Wongrat E., Tubtimtae A.2022Journal of Science: Advanced Materials and Devices
    7(3)
    2
    40Antimony-doped lead oxide nanoparticles synthesized via using chemical precipitation and annealing treatments: Structural and optical propertiesSrichai K., Krataitong C., Tubtimtae A.2021Chalcogenide Letters
    18(10),pp. 607-615
    2
    41Structural, optical, and electrical properties via two simple routes for the synthesis of multi-phase potassium antimony oxide thin filmsHomcheunjit R., Pluengphon P., Tubtimtae A., Teesetsopon P.2022Physica B: Condensed Matter
    637
    1
    42Lightweight alkali-induced lattice-dynamical stability and energy storage mechanism of quaternary Mg-based hydrides under pressure effectPluengphon P., Tsuppayakorn-aek P., Tubtimtae A., Inceesungvorn B., Bovornratanaraks T.2022International Journal of Hydrogen Energy
    0
    43Structural, linear/non-linear optical, optoelectrical, and electrical properties of novel crystalline antimony-doped tin oxide thin films synthesized by the chemical deposition methodSuwannakham N., Tubtimtae A., Wongrat E.2023Physica B: Condensed Matter
    649
    0
    44Erratum: boron-doped CuInTe2 semiconductor-sensitized liquid-junction solar cells (Materials Letters (2015) 138 (41-44))Termsaithong P., Tubtimtae A.2015Materials Letters
    161,pp. 778
    0
    45Response to comments on the paper, “Effect of low thermal treatment temperatures on the morphological, optical and electrical properties of Sn1-xMnxTe nanocomposite films incorporated with indium cations [Ceram. Int. 45 (2019) 23,203–23215]”Rukcharoen N., Tubtimtae A., Vailikhit V., Teesetsopon P., Kitisripanya N.2020Ceramics International
    46(12),pp. 20584-20585
    0