Annealing time dependence on the structural, optical, optoelectrical, and electrical properties of copper antimony sulfide thin film synthesized using the dip coating method
Annealing time dependence on the structural, optical, optoelectrical, and electrical properties of copper antimony sulfide thin film synthesized using the dip coating method
Effect of antimony doping on the structural, optical, and optoelectrical properties of aluminum sulfide thin films synthesized by the electrodeposition method
Effect of antimony doping on the structural, optical, and optoelectrical properties of aluminum sulfide thin films synthesized by the electrodeposition method
Pannathon Menmee, Auttasit Tubtimtae, Ekasiddh Wongrat. Effect of antimony doping on the structural, optical, and optoelectrical properties of aluminum sulfide thin films synthesized by the electrodeposition method. Physica B: Condensed Matter. 2023:653. https://doi.org/10.1016/j.physb.2023.414659.
Structural, linear/non-linear optical, optoelectrical, and electrical properties of novel crystalline antimony-doped tin oxide thin films synthesized by the chemical deposition method
Structural, linear/non-linear optical, optoelectrical, and electrical properties of novel crystalline antimony-doped tin oxide thin films synthesized by the chemical deposition method
Niyom Hongsith, Ekasiddh Wongrat and Anurak Prasatkhetragarn.GROWTH AND SIZE CONTROL OF ZnO NANOTETRAPODS PREPARED BY CURRENT HEATING TECHNIQUE.Suranaree Journal of Science and Technology. 2021,28(6):030073(1-5).
Wongrat E, Nuengnit T, Panyathip R, Chanlek N, Hongsith N, Choopun S. Highly selective room temperature ammonia sensors based on ZnO nanostructures decorated with graphene quantum dots (GQDs). Sensors and Actuators B: Chemical. 2021;326:128983.
Journal Title:
National / International:
International
Published:
Published
Vol.:
326
Issue No.:
Number.:
128983
From Page.:
To Page.:
DOI no.:
https://doi.org/10.1016/j.snb.2020.128983
Accepted date..:
2020-09-27
Url:
11
Rapid synthesis of Au, Ag and Cu nanoparticles by DC arc-discharge for efficiency enhancement in polymer solar cells
Wongrat E , Wongkrajang S , Chuejetton A , Bhoomanee C , Choopun S. Rapid synthesis of Au, Ag and Cu nanoparticles by DC arc-discharge for efficiency enhancement in polymer solar cells. 2019;23.2.
Journal Title:
National / International:
International
Published:
Published
Vol.:
23
Issue No.:
2
Number.:
From Page.:
66
To Page.:
72
DOI no.:
https://doi.org/10.1080/14328917.2017.1376786
Accepted date..:
2019-02-23
Url:
12
Fabrication of 1-D ZnO by Thermal Oxidation Process
Wongrat E, Ponhan W, Choopun S. Room temperature ethanol sensing properties of FET sensors based on ZnO nanostructures. Ceramics International. 2017;43:520-524.
Journal Title:
National / International:
International
Published:
Published
Vol.:
43
Issue No.:
Number.:
From Page.:
520
To Page.:
524
DOI no.:
https://doi.org/10.1016/j.ceramint.2017.05.268
Accepted date..:
2017-05-27
Url:
14
Acetone gas sensors based on ZnO nanostructures decorated with Pt and Nb
Wongrat E, Chanlek N, Chueaiarrom C, Thupthimchun W, Samransuksamer B, Choopun S. Acetone gas sensors based on ZnO nanostructures decorated with Pt and Nb. Ceramics International. 2017;43:557-566.
Journal Title:
National / International:
International
Published:
Published
Vol.:
43
Issue No.:
Number.:
From Page.:
557
To Page.:
566
DOI no.:
https://doi.org/10.1016/j.ceramint.2017.05.296
Accepted date..:
2017-05-26
Url:
15
Low temperature ethanol response enhancement of ZnO nanostructures sensor decorated with gold nanoparticles exposed to UV illumination
Wongrat E, Chanlek N, Chueaiarrom C, Samransuksamer B, Hongsith N, Choopun S. Low temperature ethanol response enhancement of ZnO nanostructures sensor decorated with gold nanoparticles exposed to UV illumination2016;251:188-197.
Wongrat E, Hongsith N, Wongratanaphisan D, Gardchareon A, Choopun S. Control of depletion layer width via amount of AuNPs for sensor response enhancement in ZnO nanostructure sensor2012;171:230-237.
Journal Title:
National / International:
International
Published:
Published
Vol.:
171
Issue No.:
Number.:
From Page.:
230
To Page.:
237
DOI no.:
https://doi.org/10.1016/j.snb.2012.03.050
Accepted date..:
2012-03-16
Url:
18
Effect of solution on growth of zinc oxide tetrapod by thermal oxidation technique
Bhoomanee C, Hongsith N, Wongrat E, Choopun S, Wongratanaphisan D. Effect of solution on growth of zinc oxide tetrapod by thermal oxidation technique. Chiang Mai Journal science2011;38(2):187-192.
Journal Title:
National / International:
International
Published:
Published
Vol.:
38
Issue No.:
2
Number.:
From Page.:
187
To Page.:
192
DOI no.:
Accepted date..:
2011-01-22
Url:
19
Metal-oxide nanowires by thermal oxidation reaction technique
Hongsith N, Wongrat E, Kerdcharoen T, Choopun S. Sensor response formula for sensor based on ZnO nanostructures. Sensors and Actuators B: Chemical2010;144(1):67-72.
Journal Title:
National / International:
International
Published:
Published
Vol.:
144
Issue No.:
1
Number.:
From Page.:
67
To Page.:
72
DOI no.:
https://doi.org/10.1016/j.snb.2009.10.037
Accepted date..:
2009-10-10
Url:
21
Comparative study of ethanol sensor based on gold nanoparticles: ZnO nanostructure and gold: ZnO nanostructure
Wongrat E , Pimpang P , Choopun S. Comparative study of ethanol sensor based on gold nanoparticles: ZnO nanostructure and gold: ZnO nanostructure. 2009;256.4.
Journal Title:
National / International:
International
Published:
Published
Vol.:
256
Issue No.:
4
Number.:
From Page.:
968
To Page.:
971
DOI no.:
https://doi.org/10.1016/j.apsusc.2009.02.046
Accepted date..:
2009-11-30
Url:
22
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. Zinc oxide nanostructures for applications as ethanol sensors and dye-sensitized solar cells. Applied Surface Science2009;256(4):998-1002.
Journal Title:
National / International:
International
Published:
Published
Vol.:
256
Issue No.:
4
Number.:
From Page.:
998
To Page.:
1002
DOI no.:
https://doi.org/10.1016/j.apsusc.2009.05.139
Accepted date..:
Url:
23
Growth Kinetic and Characterization of RF‐Sputtered ZnO: Al Nanostructures
Choopun S, Hongsith N, Wongrat E, Kamwanna T, Singkarat S, Mangkorntong p, Mangkorntong N, Chairuangsri T. Growth Kinetic and Characterization of RF‐Sputtered ZnO: Al Nanostructures2008;91(1):174-177.