Mohammad Bagher Rahmani
Mohammad Bagher Rahmani
Associate Professor at Shahrood University of Technology, Shahrood, Iran
Verified email at shahroodut.ac.ir - Homepage
Title
Cited by
Cited by
Year
Gas sensing properties of thermally evaporated lamellar MoO3
MB Rahmani, SH Keshmiri, J Yu, AZ Sadek, L Al-Mashat, A Moafi, ...
Sensors and Actuators B: Chemical 145 (1), 13-19, 2010
2572010
Aqueous synthesis of interconnected ZnO nanowires using spray pyrolysis deposited seed layers
M Breedon, MB Rahmani, SH Keshmiri, W Wlodarski, K Kalantar-zadeh
Materials Letters 64 (3), 291-294, 2010
1142010
Transition from n-to p-type of spray pyrolysis deposited Cu doped ZnO thin films for NO2 sensing
MB Rahmani, SH Keshmiri, M Shafiei, K Latham, W Wlodarski, ...
Sensor Letters 7 (4), 621-628, 2009
952009
Hydrogen sensors based on 2D WO3 nanosheets prepared by anodization
MB Rahmani, MH Yaacob, YM Sabri
Sensors and Actuators B: Chemical 251, 57-64, 2017
502017
Room Temperature Gas Sensing Properties of Polyaniline/ZnO Nanocomposite Thin Films
SHP Azam Zoshki, Mohammad Bagher Rahmani, Fatemeh Masdarolomoor
Journal of Nanoelectronics and Optoelectronics 12 (5), 465–471, 2017
172017
SYNTHESIS AND ETHANOL SENSING CHARACTERISTICS OF NANOSTRUCTURED MoO3:Zn THIN FILMS
SH Mousavi-Zadeh, MB Rahmani
Surface Review and Letters 25 (01), 1850046, 2018
142018
Facile synthesis, characterization, and photoluminescence of lamellar α-MoO3 thin films
E Ghaleghafi, MB Rahmani
Solid State Sciences 94, 85-91, 2019
112019
Thin film growth and Zn doping of h-MoO3 hexagonal rods by hydrothermal technique
SH Mousavi-Zadeh, MB Rahmani
Modern Physics Letters B 30 (36), 1650424, 2016
112016
Gas sensing properties of interconnected ZnO nanowires
MB Rahmani, M Breedon, D Lau, JL Campbell, A Moafi, DG McCulloch, ...
Sensor Letters 9 (2), 929-935, 2011
112011
Effect of Sn doping on structural and optical properties of 2D α-MoO3 nanostructures
A Eftekhari, MB Rahmani, F Masdarolomoor
Journal of Particle Science & Technology 2 (2), 87-93, 2016
92016
Growth of novel α-MoO3 hierarchical nanostructured thin films for ethanol sensing
S Farzi-kahkesh, MB Rahmani, A Fattah
Materials Science in Semiconductor Processing 120, 105263, 2020
82020
Surface functionalization of PANI and PANI/ZnO hybrid nanofibers with metallic catalysts for ammonia sensing at room temperature
A Zoshki, MB Rahmani, F Masdarolomoor, SH Pilehrood
Modern Physics Letters B 33 (16), 1950175, 2019
62019
Fabrication, characterization and investigation of gas sensing properties of MoO3 thin films
E Ghaleghafi, MB Rahmani
Iranian Journal of Crystallography and Mineralogy 27 (2), 475-486, 2019
22019
Synthesis and optimum temperature determination of highly sensitive MoO3-based heterojunction Schottky sensor for hydrogen detection
S Farzi-kahkesh, A Fattah, MB Rahmani
Microelectronic Engineering 235, 111453, 2021
12021
Synthesis of Wormlike α-Fe 2 O 3 Nanostructure: Characterization and Antibacterial Application
MB Rahmani, E Ghasemi, F Rezaii
Journal of Electronic Materials 49 (10), 6087-6095, 2020
12020
Effects of spray pyrolysis deposition parameters on morphological, optical and structural properties of WO3 nanostructured thin films
AA Mavardiani, MB Rahmani
Surface Review and Letters 27 (09), 1950203, 2020
12020
TiO 2/GO nanocomposites: synthesis, characterization, and DSSC application
GH Jetani, MB Rahmani
The European Physical Journal Plus 135 (9), 1-21, 2020
12020
Improving Gas Sensing Properties of Tin Oxide Nanowires Palladium-Coated Using a Low Cost Technique
M Barzegar, MB Rahmani, H Haratizadeh
Journal of Nanostructures 2 (4), 469-476, 2012
12012
Hydrothermal temperature effect on the growth of h-MoO3 thin films using seed layers and their photoluminescence properties
E Ghalehghafi, MB Rahmani
Materials Science in Semiconductor Processing 137, 106243, 2022
2022
Photoluminescence and UV photosensitivity of few-layered MoS 2 nanosheets synthesized under different hydrothermal growth times
E Ghaleghafi, MB Rahmani, ZH Wei
Journal of Materials Science 56 (20), 11749-11768, 2021
2021
The system can't perform the operation now. Try again later.
Articles 1–20