| ปี พ.ศ. 2562 |
| 1 |
การสังเคราะห์ตัวเร่งปฏิกิริยาต่างชนิดของสารประกอบเงิน/บิสมัสทังสเตทสำหรับการสลายตัวสีย้อมภายใต้แสงที่มองเห็นได้ |
| ปี พ.ศ. 2560 |
| 2 |
ประสิทธิภาพตัวเร่งปฏิกิริยาทางแสงของ Ag3PO4/Bi2MoO6 และ Ag3VO4/Bi2MoO6 |
| 3 |
การเพิ่มประสิทธิภาพตัวเร่งปฏิกิริยาทางแสงของซิงค์ออกไซด์ |
| ปี พ.ศ. 2558 |
| 4 |
การพัฒนาวัสดุผสมสารกึ่งตัวนำชนิดพี-พอลิเมอร์เจลเพื่อสร้างเซลล์แสงอาทิตย์ชนิดสีย้อมไวแสง |
| ปี พ.ศ. 2556 |
| 5 |
Ultrasonic-assisted synthesis of Nd-doped ZnO for photocatalysis |
| 6 |
Characterization of ZnO flowers of hexagonal prisms with planar and hexagonal pyramid tips grown on Zn substrates by a hydrothermal process |
| ปี พ.ศ. 2555 |
| 7 |
Cyclic microwave assisted synthesis of Sb 2S 3 twin flowers in solutions containing a template and splitting agent |
| 8 |
Facile hydrothermal synthesis and optical properties of monoclinic CePO 4 nanowires with high aspect ratio |
| 9 |
A simple microwave-assisted hydrothermal synthesis of lanthanum hydroxide nanowires with a high aspect ratio |
| 10 |
Growth of hexagonal prism ZnO nanorods on Zn substrates by hydrothermal method and their photoluminescence ( Article in press ) |
| 11 |
Characterization of SrCO 3 and BaCO 3 nanoparticles synthesized by cyclic microwave radiation |
| 12 |
Sonochemical synthesis, photocatalysis and photonic properties of 3% Ce-doped ZnO nanoneedles |
| 13 |
Photoemission and energy gap of MgWO 4 particles connecting as nanofibers synthesized by electrospinning-calcination combinations |
| 14 |
Effects of solution pH and processing cycle on nanostructured La 2(MoO 4) 3 produced by cyclic microwave radiation |
| 15 |
Characterization of Cu3SbS4 microflowers produced by a cyclic microwave radiation |
| 16 |
Hydroxyethyl cellulose-assisted hydrothermal synthesis of Bi 2S3 urchin-like colonies |
| 17 |
การสังเคราะห์สังกะสีและพลวงเทลลูไรด์เพื่อใช้ผลิตเทอร์มอคัปเปิลควบคุมอุณหภูมิของระบบทำความเย็น |
| ปี พ.ศ. 2554 |
| 18 |
Cyclic microwave assisted synthesis of Sb2S3 dumb-bells using polyvinylpyrrolidone as a template and splitting agent |
| 19 |
Controlled Gd2O3 nanorods and nanotubes by the annealing of Gd(OH)3 nanorod and nanotube precursors and self-templates produced by a microwave-assisted hydrothermal process |
| 20 |
The effect of H2O and PEG on the morphologies of ZnO nanostructures synthesized under microwave radiation |
| 21 |
Characterization of copper sulfide nanostructured spheres and nanotubes synthesized by microwave-assisted solvothermal method |
| 22 |
The role of pH and calcination process on CuFe2O4 nanoparticles synthesized by microwave-hydrothermal reactions |
| 23 |
Characterization of nanostructured dendritic silver bismuth sulfide produced by solvothermal reactions |
| 24 |
Synthesis of novel ZnS/ZnAl2S4 core/shell nanocomposites using a facile solvothermal route ( Letter ) |
| 25 |
Luminescence and absorbance of highly crystalline CaMoO4, SrMoO4, CaWO4 and SrWO4 nanoparticles synthesized by co-precipitation method at room temperature |
| 26 |
การหาลักษณะเฉพาะของโลหะซัลไฟด์โครงสร้างนาโนที่สังเคราะห์โดยวิธีโซลโวเทอร์มอลและการประยุกต์ใช้ในเซลล์แสงอาทิตย์ |
| 27 |
การสังเคราะห์วัสดุเรืองแสงที่มีโครงสร้างนาโนที่อุณหภูมิต่ำเพื่อใช้ในภาคอุตสาหกรรม |
| 28 |
Microwave-assisted synthesis of CePO 4 nanorod phosphor with violet emission |
| 29 |
Characterization of SrWO4-PVA and SrWO4 spiders' webs synthesized by electrospinning |
| 30 |
Fabrication of WO3 nanofibers by high voltage electrospinning |
| 31 |
Morphology development of ZnO produced by sonothermal process |
| 32 |
Electric field assisted processing and characterization of AlSb nanocrystals |
| 33 |
Fabrication of ZnWO4 nanofibers by a high direct voltage electrospinning process |
| 34 |
Hydrothermal synthesis, characterization, and optical properties of wolframite ZnWO4 nanorods |
| 35 |
Direct energy gap of Sb2Te3 synthesised by solid-state microwave plasma |
| 36 |
CTAB-assisted hydrothermal synthesis of tungsten oxide microflowers |
| 37 |
Characterization of nanostructured CdTe synthesized by solid state microwave-plasma process |
| 38 |
Sonochemical synthesis and characterization of lead sulfide nanoparticles |
| 39 |
Characterization of orthorhombic α-MoO 3 microplates produced by a microwave plasma process |
| 40 |
Large-scale synthesis of WO 3 nanoplates by a microwave-hydrothermal method |
| 41 |
Characterization of ZnMoO 4 nanofibers synthesized by electrospinning-calcination combinations |
| 42 |
การสังเคราะห์สารเฟอร์ไรท์โครงสร้างนาโนโดยวิธีทางเคมีเพื่อใช้ในทางแพทย์และอุตสาหกรรมคอมพิวเตอร์ |
| ปี พ.ศ. 2553 |
| 43 |
Effect of solvents on the microstructure of CaWO4 prepared by a solvothermal synthesis |
| 44 |
Hydrothermal synthesis of double sheaf-like Sb2S3 using copolymer as a crystal splitting agent |
| 45 |
Synthesis of nanocrystalline metal molybdates using cyclic microwave radiation |
| 46 |
Microwave-assisted hydrothermal synthesis of Bi2S3 nanorods in flower-shaped bundles |
| 47 |
Synthesis, characterisation and photoluminescence of nanocrystalline calcium tungstate |
| 48 |
Fabrication of novel ZnS/ZnAl2S4 nanocomposite using a facile solvothermal route |
| 49 |
Solid-state fabrication of nanostructured AlSb by electron beam heating process |
| 50 |
Large-scale synthesis of Sb2S3 spikes by hydrothermal reaction |
| 51 |
Solid-state microwave induced plasma synthesis of antimony telluride |
| 52 |
Carboxymethyl cellulose-assisted hydrothermal synthesis of PbS with nano- And micro-crystals |
| 53 |
Polymer-assisted hydrothermal synthesis of Bi2S3 nanostructured flowers |
| 54 |
Characterization of AgBiS2 nanostructured flowers produced by solvothermal reaction |
| 55 |
Characterization of SrCO3 and BaCO3 nanoparticles synthesized by sonochemical method |
| 56 |
Large-scale synthesis of CuS hexaplates in mixed solvents using a solvothermal method |
| 57 |
Characterization of Bi2S3 with different morphologies synthesized using microwave radiation |
| 58 |
Characterization of nanostructured ZnO produced by microwave irradiation |
| 59 |
Analysis of lead molybdate and lead tungstate synthesized by a sonochemical method |
| 60 |
Photoemission and energy gap of CdS synthesized by solid state microwave-plasma |
| 61 |
การวิเคราะห์สารประกอบนิเกิลทังสเตตและซิงค์ทังสเตตที่เตรียมโดยวิธีไฮโดรเทอร์มอล |
| ปี พ.ศ. 2552 |
| 62 |
Characterization of nanocrystalline LiNi1-xCoxVO4 prepared by the polymerized complex method |
| 63 |
Silica gel-assisted solvothermal production of CdS, CuxS (x=1, 2) and ZnS with different morphologies |
| 64 |
Formation of CuS with flower-like, hollow spherical, and tubular structures using the solvothermal-microwave process |
| 65 |
Transient solid-state production of nanostructured CuS flowers |
| 66 |
Solvothermal synthesis of CdS nanorods using hydroxyethyl cellulose as a template |
| 67 |
Cyclic microwave-assisted synthesis of flower-like and hexapod silver bismuth sulfide |
| 68 |
Solid-state synthesis of cubic ZnTe nanocrystals using a microwave plasma |
| 69 |
Solvothermal synthesis of CdS nanowires templated by polyethylene glycol |
| 70 |
Solvothermal production of CdS nanorods using polyvinylpyrrolidone as a template |
| 71 |
Synthesis of lead molybdate and lead tungstate via microwave irradiation method |
| 72 |
Preparation, characterization and photoluminescence of nanocrystalline calcium molybdate |
| 73 |
Characterization of cadmium sulfide nanorods prepared by the solvothermal process |
| 74 |
Characterization of CoWO4 nano-particles produced using the spray pyrolysis |
| 75 |
Barium molybdate and barium tungstate nanocrystals synthesized by a cyclic microwave irradiation |
| 76 |
Microwave-assisted synthesis of ZnO nanostructure flowers |
| 77 |
Effect of basicity on the morphologies of ZnO produced using a sonochemical method |
| 78 |
Cyclic microwave-assisted spray synthesis of nanostructured MnWO4 |
| 79 |
Sonochemical preparation of PbWO4 crystals with different morphologies |
| 80 |
Preparation of ear-like, hexapod and dendritic PbS using cyclic microwave-assisted synthesis |
| 81 |
Characterisation of one-dimensional CdS nanorods synthesised by solvothermal method |
| 82 |
Microwave-assisted synthesis and characterization of SrMoO4 and SrWO4 nanocrystals |
| 83 |
การสังเคราะห์โลหะซัลไฟด์ที่มีโครงสร้างนาโนที่อุณหภูมิต่ำ เพื่อประยุกต์ใช้ในอุตสาหกรรม |
| ปี พ.ศ. 2551 |
| 84 |
การสังเคราะห์โลหะตังสเตทที่มีโครงสร้างขนาดนาโนและไมโครเมตรเพื่อประยุกต์ใช้ในอุตสาหกรรม |
| 85 |
Characterization of MeWO4 (Me = Ba, Sr and Ca) nanocrystallines prepared by sonochemical method |
| 86 |
Characterization of sp3 carbon produced by plasma deposition on gamma-TiAl alloys |
| 87 |
Biomolecule and surfactant-assisted hydrothermal synthesis of PbS crystals |
| 88 |
Sonochemical synthesis of MMoO 4 (M = Ca, Sr and Ba) nanocrystals |
| 89 |
Characterization of nano- and micro-crystalline CdS synthesized using cyclic microwave radiation |
| 90 |
Characterization of Li 1-x Ni 1+x O 2 prepared by the thermal-assisted precipitation process |
| 91 |
Preparation and characterization of nanocrystalline SrWO4 using cyclic microwave radiation |
| 92 |
Formation of LiNi0.5Co0.5VO4 nano-crystals by solvothermal reaction |
| 93 |
การเตรียมและการหาลักษณะเฉพาะของวัสดุทังสเตต และซัลไฟด์หมู่ II บีที่ใช้สำหรับการเรืองแสง |
| ปี พ.ศ. 2550 |
| 94 |
Characterization of nano rod ZnWO4 prepared by surfactant assisting solvothermal reaction |
| 95 |
Malic acid complex method for preparation of LiNiVO4 nano crystallites |
| 96 |
Preparation of LiNiVO4 nano powder using tartaric acid as a complexing agent |
| 97 |
การเตรียมผงลิเทียมนิกเกิลวานาเดตขนาดนาโนเมตรเพื่อใช้ในอุตสาหกรรมแบตเตอรี่ |
| 98 |
Preparation of LiNiVO4 nano-powder using tartaric acid as a complexing agent |
| 99 |
Solvothermal preparation of nano-sized CaWO4 particles |
| 100 |
Phase transformation of nanocrystalline CdS synthesized by solvothermal reaction |
| 101 |
Characterization of nano-rod ZnWO4 prepared by surfactant-assisting solvothermal reaction |
| 102 |
Synthesis and analysis of CuS with different morphologies using cyclic microwave irradiation |
| 103 |
Characterization of nano-crystalline LiNiVO4 synthesized by hydrothermal process |
| 104 |
Free surfactant synthesis of microcrystalline CdS by solvothermal reaction |
| 105 |
Malic acid complex method for preparation of LiNiVO4 nano-crystallites |
| 106 |
Synthesis of CNTs via ethanol decomposition over ball-milled Fe 2O 3 coated copper sheets |
| 107 |
Preparation of flower-like PbS nano-structures using cyclic microwave radiation |
| 108 |
Characterization of PbS with different morphologies produced using a cyclic microwave radiation |
| 109 |
การปลูกท่อนาโนในระบบแก๊สที่อุณหภูมิสูง |
| ปี พ.ศ. 2549 |
| 110 |
Surface modification of Y TiAl alloys by acetylene plasma deposition |
| 111 |
Acetylene plasma deposition on gamma TiAl alloys |
| 112 |
Formation of titanium nitride on Y TiAl alloys by direct metal gas reaction |
| 113 |
Characterization of Li 1-xNi 1+xO 2 prepared using succinic acid as a complexing agent |
| 114 |
Characterization of Li1-xNi1+xO2 prepared by using tartaric acid as a complexing agent |
| 115 |
Growth of CNTs on 304 stainless steel using sparked iron as a catalyst |
| 116 |
Growth of carbon nanorodes on tungsten filaments of light bulbs |
| 117 |
Analyses of nano crystalline LiCoVO4 prepared by solvothermal reaction |
| 118 |
Synthesis and analysis of nano crystalline LiNiVO4 |
| 119 |
Synthesis and analysis of nano-crystalline LiNiVO4 |
| 120 |
Characterization of Li1-xNi1+xO2 prepared by using tartaric acid as a complexing agent |
| 121 |
Growth of CNTs on 304 stainless steel using sparked iron as a catalyst |
| 122 |
Growth of carbon nanorodes on tungsten filaments of light bulbs |
| 123 |
Formation of titanium nitride on γ-TiAl alloys by direct metal-gas reaction |
| 124 |
High temperature gas nitridation of thermally sprayed coatings of Ti and Ti containing Ni5Al5Mo |
| 125 |
Growth of carbon nanoflowers on glass slides using sparked iron as a catalyst |
| 126 |
Characterization of Li 1-xNi 1+xO 2prepared using succinic acid as a complexing agent |
| 127 |
Luminescence of MWO4 (M =Ca, Sr, Ba and Pb) prepared by solvothermal reaction |
| ปี พ.ศ. 2548 |
| 128 |
Synthesis of Li1 minus xNi1 pass xO2using malonic acid as a chelating agent |
| 129 |
Deposition of TiC on γ-TiAl alloys by directly applying voltages |
| 130 |
Tribological improvement of thermal-sprayed Ti-based coatings modified by 1200 K nitridation |
| 131 |
Nitridation of γ-TiAl alloys by direct metal-gas reaction at 1000-1300 K |
| 132 |
Synthesis of Li1-xNi1+xO2using malonic acid as a chelating agent |
| ปี พ.ศ. 2547 |
| 133 |
การเตรียมวัสดุขั้วแคโทดลิเทียมนิกเกิลออกไซด์เพื่อพัฒนากระบวนการผลิตลิเทียมไอออนแบตเตอรี |
| 134 |
การเตรียมวัสดุขั้วแคโทดลิเทียมนิกเกิลออกโซด์เพื่อพัฒนากระบวนการผลิตลิเทียมไอออนแบตเตอรี |
| 135 |
Surface modification of the γ-TiAl alloys by the nitridation |
| 136 |
Characterization of Bi 4Ti 3O 12 powder prepared by the citrate and oxalate coprecipitation processes |
| 137 |
Surface modification of the Y TiAl alloys by the nitridation |
| ปี พ.ศ. 2546 |
| 138 |
การเคลือบคาร์ไบด์และไนไตรด์บนโลหะผสมไทเทเนียม-อลูมิเนียมบางชนิด |
| ปี พ.ศ. 2544 |
| 139 |
High-temperature nitridation and oxidation of Ti-based alloys |
| 140 |
Surface modification of the Ti-Al alloys at 1000-1200 K |
| 141 |
HRTEM surface characterization of nanoscale solid-state materials |
| 142 |
Local conductivity study of TiO2 electrodes by atomic force microscopy |
| ปี พ.ศ. 2542 |
| 143 |
High-temperature nitridation of the intermetallic compound TiAl at 1000-1200 K |
| ปี พ.ศ. 2541 |
| 144 |
Effect of high temperature gas nitridation of TiAl on wear resistance |
| ปี พ.ศ. 2539 |
| 145 |
การวิจัยวัสดุจำพวก Oxides ของ Transition metals เพื่อใช้ทำ NTC Thermistor Sensor |
| 146 |
ขบวนการ Sintering สารเซรามิกของ Ti-Ba-Nb-Sr-Zr ในบรรยากาศที่มีสภาพรีดิวซ์ |
| ปี พ.ศ. ไม่ระบุ |
| 147 |
Characterization of MMoO4 (M = Ba, Sr and Ca) with different morphologies prepared using a cyclic microwave radiation |
| 148 |
Influence of cetyltrimethylammonium bromide on the morphology of AWO4 (A = Ca, Sr) prepared by cyclic microwave irradiation |
| 149 |
Synthesis of CaWO 4, SrWO 4 and BaWO 4 with nanosized particles using cyclic microwave radiation |
| 150 |
Effect of microwave power on energy gap of ZnO nanoparticles synthesized by microwaving through aqueous solutions |
| 151 |
Thermoelectric properties of Zn4Sb3-ZnSb composites synthesized by microwave plasma and hot pressing combination |
| 152 |
Thermoelectric and optical properties of CuAlO2 synthesized by direct microwave heating |
| 153 |
ZnTe Semiconductor-Polymer Gel Composited Electrolyte for Conversion of Solar Energy |
| 154 |
Effect of medium solvent ratios on morphologies and optical properties of ?-ZnMoO4, ?-ZnMoO4 and ZnMoO4•0.8H2O crystals synthesized by microwave-hydrothermal / solvothermal method |
| 155 |
Decolorization of Methylene Blue by Ag/SrSnO3 Composites under Ultraviolet Radiation |
| 156 |
Synthesis of Bi2MoO6 nanoplates with the assistance of PEG by hydrothermal method and their photocatalytic activities |
| 157 |
Effect of C2H2 flow rates and microwave powers on the synthesis of sp3 carbon on glass substrates |
| 158 |
Photocatalysis of WO3 Nanoplates Synthesized by Conventional–Hydrothermal and Microwave–Hydrothermal Methods and of Commercial WO3 Nanorods |
| 159 |
Synthesis, characterization and optical activity of La-doped ZnWO4 nanorods by hydrothermal method, Superlattices and Microstructures |
| 160 |
Synthesis and characterization of GdVO4 nanoparticles by a malic acid-assisted sol-gel method |
| 161 |
Synthesis and characterization of GdVO4 nanostructures by a tartaric acid-assisted sol-gel method |
| 162 |
Characterization and antibacterial activity of nanostructured ZnO thin films synthesized through a hydrothermal method |
| 163 |
Photocatalytic activity of Zn2SnO4-SnO2 nanocomposites produced by sonochemistry in combination with high temperature calcination |
| 164 |
Characterization and gas sensing properties of CuO synthesized by DC directly applying voltage |
| 165 |
Smart magnetic nanoparticle-aptamer probe for targeted imaging and treatment of hepatocellular carcinoma |
| 166 |
Hydrothermal Synthesis of Bi2MoO6 Visible-Light-Driven Photocatalyst |
| 167 |
Sonochemical synthesis and characterization of uniform lanthanide orthophosphate (LnPO4, Ln = La and Ce) nanorods |
| 168 |
Controlling morphologies and growth mechanism of hexagonal prisms with planar and pyramid tips of ZnO microflowers by microwave radiation |
| 169 |
Ultrasonic-Assisted Synthesis, Characterization and Optical Properties of Sb Doped ZnO and Their Photocatalytic Activities |
| 170 |
Effect of pH on visible-light-driven Bi2WO6 nanostructured catalyst synthesized by hydrothermal method |
| 171 |
Hydrothermal synthesis, characterization and visible light-driven photocatalytic properties of Bi2WO6 nanoplates |
| 172 |
Solvothermal synthesis and photocatalytic properties of CdS nanowires under UV and visible irradiation |
| 173 |
Hydrothermal synthesis, characterization and optical properties of Ce doped Bi2MoO6 nanoplates |
| 174 |
Synthesis and Characterization of Europium-Doped Zinc Oxide Photocatalyst |
| 175 |
Preparation, characterization and photocatalytic properties of Ho doped ZnO nanostructures synthesized by sonochemical method |
| 176 |
Hydrothermal synthesis and characterization of Ho doped Bi2MoO6 nanoplates and their optical properties |
| 177 |
Synthesis of cadmium selenide nanorods by polyethylene glycol-assisted solvothermal process |
| 178 |
Synthesis of CuS with different morphotogies by refluxing method: Nanoparticles in clusters and nanoflakes in spongelike clusters |
| 179 |
Transformation of cubic AgBiS2 from nanoparticles to nanostructured flowers by a microwave-refluxing method |
| 180 |
Ultrasound-assisted synthesis, characterization and optical property of 0–3 wt% Sn-doped ZnO |
| 181 |
Characterization of starfruit-like PbWO4 microstructured clusters synthesized by a solution route |
| 182 |
Sonochemical synthesis and characterization of lead sulfide nanoparticles |
| 183 |
Antimicrobial activities of CuO films deposited on Cu foils by solution chemistry |
| 184 |
Characterization of SrCO3 and BaCO3 nanoparticles synthesized by cyclic microwave radiation |
| 185 |
Growth of hexagonal prism ZnO nanorods on Zn substrates by hydrothermal method and their photoluminescence |
| 186 |
Cyclic microwave assisted synthesis of Sb2S3 twin flowers in solutions containing a template and splitting agent |
| 187 |
Cyclic microwave-assisted synthesis of CuFeS2 nanoparticles using biomolecules as sources of sulfur and complexing agent |
| 188 |
Effects of solution pH and processing cycle on nanostructured La2(MoO4)3 produced by cyclic microwave radiation |
| 189 |
Fabrication of MgMoO4-PVA and MgMoO4 fibrous webs via a direct high voltage electrospinning process |
| 190 |
Facile hydrothermal synthesis and optical properties of monoclinic CePO4 nanowires with high aspect ratio |
| 191 |
Hydrothermal synthesis of Bi2WO6 hierarchical flowers with their photonic and photocatalytic properties |
| 192 |
Microwave induced plasma synthesis and characterization of rice kernel-like Bi2Te3 crystals |
| 193 |
Microwave-assisted synthesis and characterization of uniform LaPO4 nanorods |
| 194 |
Novel combined sonochemical/solvothermal syntheses, characterization and optical properties of CdS nanorods |
| 195 |
Photoabsorption and photocatalysis of SrSnO3 produced by a cyclic microwave radiation |
| 196 |
Photoluminescence of hexagonal ZnO nanorods hydrothermally grown on Zn foils in KOH solutions with different values of basicity |
| 197 |
Preparation of LaPO4 nanowires with high aspect ratio by a facile hydrothermal method and their photoluminescence |
| 198 |
Single-step synthesis of ZnO/TiO2 nanocomposites by microwave radiation and their photocatalytic activities |
| 199 |
Sonochemical synthesis of Dy-doped ZnO nanostructures and their photocatalytic properties |
| 200 |
Analyses of nano-crystalline LiCoVO4 prepared by solvothermal reaction |
