| # | Document title | Authors | Year | Source | Cited by |
| 1 | Ag2S quantum dot-sensitized solar cells | Tubtimtae A., Wu K., Tung H., Lee M., Wang G. | 2010 | Electrochemistry Communications
12(9),pp. 1158-1160 | 200 |
| 2 | Zinc oxide nanostructures for applications as ethanol sensors and dye-sensitized solar cells | Choopun S., Tubtimtae A., Santhaveesuk T., Nilphai S., Wongrat E., Hongsith N. | 2009 | Applied Surface Science
256(4),pp. 998-1002 | 101 |
| 3 | Ag2Se quantum-dot sensitized solar cells for full solar spectrum light harvesting | Tubtimtae A., Lee M., Wang G. | 2011 | Journal of Power Sources
196(15),pp. 6603-6608 | 73 |
| 4 | ZnO nanorods on undoped and indium-doped ZnO thin films as a TCO layer on nonconductive glass for dye-sensitized solar cells | Tubtimtae A., Lee M. | 2012 | Superlattices and Microstructures
52(5),pp. 987-996 | 52 |
| 5 | Ag2S quantum dot-sensitized WO3 photoelectrodes for solar cells | Tubtimtae A., Cheng K., Lee M. | 2014 | Journal of Solid State Electrochemistry
18(6),pp. 1627-1633 | 34 |
| 6 | Effects of passivation treatment on performance of CdS/CdSe quantum-dot co-sensitized solar cells | Tubtimtae A., Lee M. | 2012 | Thin Solid Films
526,pp. 225-230 | 27 |
| 7 | ZnO-nanorod dye-sensitized solar cells: New structure without a transparent conducting oxide layer | Lee M., Lai M., Tubtimtae A., Wang G. | 2010 | International Journal of Photoenergy
2010 | 25 |
| 8 | MnTe semiconductor-sensitized boron-doped TiO2 and ZnO photoelectrodes for solar cell applications | Tubtimtae A., Arthayakul K., Teekwang B., Hongsith K., Hongsith K., Choopun S., Choopun S. | 2013 | Journal of Colloid and Interface Science
405,pp. 78-84 | 20 |
| 9 | Undoped and Manganese2+-doped polycrystalline Cd1-xInxTe sensitizer for liquid-junction solar cell devices | Singsa-ngah M., Hongsith K., Hongsith K., Choopun S., Choopun S., Tubtimtae A. | 2015 | Journal of Colloid and Interface Science
451,pp. 189-197 | 12 |
| 10 | Tailoring Cu2-xTe quantum-dot-decorated ZnO nanoparticles for potential solar cell applications | Tubtimtae A., Phadungdhitidhada S., Phadungdhitidhada S., Wongratanaphisan D., Wongratanaphisan D., Gardchareon A., Gardchareon A., Choopun S., Choopun S. | 2014 | Current Applied Physics
14(5),pp. 772-777 | 12 |
| 11 | Multi-phase structures of boron-doped copper tin sulfide nanoparticles synthesized by chemical bath deposition for optoelectronic devices | Rakspun J., Kantip N., Vailikhit V., Choopun S., Choopun S., Tubtimtae A. | 2018 | Journal of Physics and Chemistry of Solids
115,pp. 103-112 | 12 |
| 12 | Tailoring of boron-doped MnTe semiconductor-sensitized TiO2 photoelectrodes as near-infrared solar cell devices | Tubtimtae A., Hongto T., Hongsith K., Hongsith K., Choopun S., Choopun S. | 2014 | Superlattices and Microstructures
66,pp. 96-104 | 11 |
| 13 | Boron-doped CuInTe2 semiconductor-sensitized liquid-junction solar cells | Termsaithong P., Tubtimtae A. | 2015 | Materials Letters
138,pp. 41-44 | 10 |
| 14 | Electrochemical performance of Bi2Te3 heterostructure thin film and Cu7Te4 nanocrystals on undoped and In3+-doped WO3 films for energy storage applications | Buathet S., Simalaotao K., Simalaotao K., Reunchan P., Reunchan P., Vailikhit V., Teesetsopon P., Raknual D., Kitisripanya N., Tubtimtae A. | 2020 | Electrochimica Acta
341 | 9 |
| 15 | Effect of indium doping in Nb2O5 thin films for electron transport layers: Investigation of structural, optical, and electrical properties | Raknual D., Suttiyarak P., Tubtimtae A., Vailikhit V. | 2020 | Materials Letters
259 | 8 |
| 16 | Effect of annealing process on the properties of undoped and manganese2+-doped co-binary copper telluride and tin telluride thin films | Kladkaew M., Samranlertrit N., Vailikhit V., Teesetsopon P., Tubtimtae A. | 2018 | Ceramics International
44(6),pp. 7186-7201 | 8 |
| 17 | Effective properties of undoped and Indium3+-doped tin manganese telluride (Sn1 − xMnxTe) nanoparticles via using a chemical bath deposition route | Boon-on P., Tubtimtae A., Vailikhit V., Teesetsopon P., Choopun S., Choopun S. | 2017 | Physics Letters, Section A: General, Atomic and Solid State Physics
381(21),pp. 1807-1814 | 8 |
| 18 | Effective performance for undoped and boron-doped double-layered nanoparticles-copper telluride and manganese telluride on tungsten oxide photoelectrodes for solar cell devices | Srathongluan P., Vailikhit V., Teesetsopon P., Choopun S., Choopun S., Tubtimtae A. | 2016 | Journal of Colloid and Interface Science
481,pp. 57-68 | 7 |
| 19 | Effect of low thermal treatment temperatures on the morphological, optical and electrical properties of Sn1-xMnxTe nanocomposite films incorporated with indium cations | Rukcharoen N., Tubtimtae A., Vailikhit V., Teesetsopon P., Kitisripanya N. | 2019 | Ceramics International
45(17),pp. 23203-23215 | 6 |
| 20 | P-type In3+-doped Cu12Sb4S13 thin films deposited by spray pyrolysis method: Investigation of structural, optical, electrical, and electrocatalytic properties | Suttiyarak P., Tubtimtae A. | 2020 | Applied Surface Science
527 | 6 |
| 21 | Photovoltaic performances of Cu2-xTe sensitizer based on undoped and indium3+-doped TiO2 photoelectrodes and assembled counter electrodes | Srathongluan P., Kuhamaneechot R., Sukthao P., Vailikhit V., Choopun S., Choopun S., Tubtimtae A. | 2016 | Journal of Colloid and Interface Science
463,pp. 222-228 | 6 |
| 22 | Structural and optical properties of undoped and antimony-doped lead telluride thin films | Krataitong C., Srichai K., Tubtimtae A. | 2020 | Materials Letters
| 6 |
| 23 | Indium dopant-induced morphological and optical properties of tin-antimony sulfide thin films synthesized by the spin coating method compared with ab initio calculation | Tubtimtae A., Pluengphon P., Inceesungvorn B. | 2021 | Materials Letters
300 | 5 |
| 24 | Ethanol sensor based on Au-doped ZnO nanostructures | Tubtimtae A., Choopun S., Gardchareon A., Mangkorntong P., Mangkorntong N. | 2007 | Proceedings of the 2nd IEEE International Conference on Nano/Micro Engineered and Molecular Systems, IEEE NEMS 2007
,pp. 207-210 | 5 |
| 25 | Structural and electrochemical studies of undoped and In3+-doped co-binary Cu2-xTe and Bi2Te3 thin films for aqueous Na–S batteries | Sreerung R., Raknual D., Vailikhit V., Teesetsopon P., Kitisripanya N., Tubtimtae A. | 2019 | Ceramics International
45(14),pp. 17305-17317 | 5 |
| 26 | Structural, optical and electrochemical performances of undoped and Sn2+-doped Bi2Te3 nanoparticles on WO3 electrodes | Buddeesao M., Raknual D., Tubtimtae A., Vailikhit V., Teesetsopon P. | 2020 | Materials Science in Semiconductor Processing
105 | 4 |
| 27 | Undoped and In3+-doped WO3 electrodes coated with Cu7Te4 nanocrystals and Bi2Te3 thin films: Investigation of morphological, structural and optical properties | Suttiyarak P., Buathet S., Tubtimtae A. | 2020 | Optik
212 | 4 |
| 28 | Copper incorporation in Mn2+-doped Sn2S3 nanocrystals and the resultant structural, optical, and electrochemical characteristics | Noppakuadrittidej P., Vailikhit V., Teesetsopon P., Choopun S., Choopun S., Tubtimtae A. | 2018 | Ceramics International
44(12),pp. 13973-13985 | 4 |
| 29 | Structural and electrochemical properties of undoped and In3+-doped multi-phase zinc- antimony oxide for a high-performance pseudocapacitor | Raknual D., Charoenphon S., Charoenphon S., Reunchan P., Reunchan P., Tubtimtae A. | 2021 | Electrochimica Acta
389 | 4 |
| 30 | Facile synthesis of copper-antimony-sulfide nanostructures on WO 3 electrodes: Investigation of electrochemical performance | Sribenjawan J., Raknual D., Vailikhit V., Kitisripanya N., Tubtimtae A. | 2019 | Materials Letters
245,pp. 126-129 | 3 |
| 31 | Ag3SbS3 thin films formed by annealing hydrothermally synthesized Ag3SbS3 nanoparticles | Tubtimtae A., Huang C., Shi J., Lee M. | 2016 | Materials Letters
177,pp. 58-60 | 3 |
| 32 | Effect of pH treatment on the structural and optical properties of Sn6Sb10S21 thin films facilely synthesized using a spin coating method | Kumrueng W., Sawanthai K., Tubtimtae A., Ponhan W. | 2020 | Optical Materials
105 | 3 |
| 33 | Optical and photovoltaic properties of CdS/Ag2S quantum dots co-sensitized-solar cells | Tubtimtae A., Lee M.W. | 2013 | Materials Science Forum
761,pp. 15-18 | 3 |
| 34 | Cu2-xTe/MnTe co-sensitized near-infrared absorbing liquid-junction solar cells | Rungtaweechai N., Tubtimtae A. | 2015 | Materials Letters
158,pp. 70-74 | 2 |
| 35 | One-pot synthesis of Cd1−xIn xTe semiconductor as a sensitizer on TiO2 mesoporous for potential solar cell devices | Singsa-ngah M., Tubtimtae A. | 2015 | Applied Physics A: Materials Science and Processing
120(2),pp. 757-764 | 2 |
| 36 | Tailoring CuχS semiconductor-sensitized SnO2 solar cells | Tubtimtae A., Wu Y., Chen Y., Shi J., Lee M. | 2015 | Materials Letters
147,pp. 16-19 | 2 |
| 37 | Boron-doped MnTe semiconductor-sensitized ZnO solar cells | Tubtimtae A., Sheangliw S., Hongsith K., Hongsith K., Choopun S., Choopun S. | 2014 | Bulletin of Materials Science
37(6),pp. 1477-1483 | 2 |
| 38 | Antimony-doped lead oxide nanoparticles synthesized via using chemical precipitation and annealing treatments: Structural and optical properties | Srichai K., Krataitong C., Tubtimtae A. | 2021 | Chalcogenide Letters
18(10),pp. 607-615 | 2 |
| 39 | Structural and optical properties of undoped and Sb-doped lead oxide thin films synthesized via the chemical bath deposition method | Panturotai K., Krataithong C., Pluengphon P., Wongrat E., Tubtimtae A., Inceesungvorn B. | 2022 | Optical Materials
126 | 2 |
| 40 | Comparative study on the influence of transparent glass substrates for antimony telluride thin films via structural and optical properties | Krataithong C., Srichai K., Wongrat E., Tubtimtae A. | 2022 | Journal of Science: Advanced Materials and Devices
7(3) | 2 |
| 41 | Structural, optical, and electrical properties via two simple routes for the synthesis of multi-phase potassium antimony oxide thin films | Homcheunjit R., Pluengphon P., Tubtimtae A., Teesetsopon P. | 2022 | Physica B: Condensed Matter
637 | 1 |
| 42 | Lightweight alkali-induced lattice-dynamical stability and energy storage mechanism of quaternary Mg-based hydrides under pressure effect | Pluengphon P., Tsuppayakorn-aek P., Tubtimtae A., Inceesungvorn B., Bovornratanaraks T. | 2022 | International Journal of Hydrogen Energy
| 0 |
| 43 | Erratum: boron-doped CuInTe2 semiconductor-sensitized liquid-junction solar cells (Materials Letters (2015) 138 (41-44)) | Termsaithong P., Tubtimtae A. | 2015 | Materials Letters
161,pp. 778 | 0 |
| 44 | Response 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. | 2020 | Ceramics International
46(12),pp. 20584-20585 | 0 |