مقالات بین المللی خارج از کشور
- "Adsorption of free radical TEMPO onto Al2O3 nanoparticles and evaluation of radical scavenging activity", Informa UK Limited, (2021), Vol 55, No 9-10: 937-949
- "Investigating the rheological behavior of a hybrid nanofluid (HNF) to present to the industry", Elsevier BV, (2022), Vol 8, No 12: e11561
- "The effect of different parameters on ability of the proposed correlations for the rheological behavior of SiO2 -MWCNT (90:10)/SAE40 oil-based hybrid nano-lubrican
- "Experimental Study of Rheological Behavior of MWCNT-Al2O3/SAE50 Hybrid Nanofluid to Provide the Best Nano-lubrication Conditions", Springer Science and Business Media LLC, (2022), Vol 17, No 1:
- "Study of rheological behavior of a hybrid nano-lubricant (MWCNT-Al2O3 (20:80)/SAE40) using two-way laboratory method and response surface methodology", Elsevier BV, (2023), Vol 16, No 3: 104530
- "Experimental analysis on the rheological characteristics of MWCNT-ZnO (50:50)/5W30 oil non-Newtonian hybrid nanofluid to obtain a new correlation", Elsevier BV, (2022), Vol 407, No : 117595
- "Comparison of the thermal conductivity of hybrid nanofluids with a specific proportion ratio of MWCNT and TiO2 nanoparticles based on the price performance factor", Elsevier BV, (2023), Vol 34, No : 105411
- "Optimization of accuracy in estimating the dynamic viscosity of MWCNT-CuO/oil 10W40 nano-lubricants", Elsevier BV, (2023), Vol 24, No 1: 117-128
- "Comparison of thermal conductivity of water-based nanofluids with various combinations of MWCNT, CuO, and SiO2 nanoparticles for using in heating systems", Elsevier BV, (2023), Vol 42, No : 102683
- "Experimental evaluation of MWCNT–Al2O3 (40–60%)/5W50 hybrid nanofluid and comparison with MWCNT–Al2O3 (35–65%)/5W50 hybrid nanofluid with focus on thermophysical properties and cost performance index", Springer Science and Business Media LLC, (2020), Vol 135, No 10:
- "Modeling and Precise Prediction of Thermophysical Attributes of Water/EG Blend-Based CNT Nanofluids by NSGA-II Using ANN and RSM", Springer Science and Business Media LLC, (2020), Vol 46, No 7: 6423-6437
- "Adsorption of free radical TEMPO onto Al<sub>2</sub>O<sub>3</sub> nanoparticles and evaluation of radical scavenging activity", Informa UK Limited, (2021), Vol 55, No 9-10: 937-949
- "The effect of different parameters on ability of the proposed correlations for the rheological behavior of SiO2-MWCNT (90:10)/SAE40 oil-based hybrid nano-lubrican
- "Experimental study of rheological characteristics of MWCNT-Al2O3 (40:60) / SAE50 hybrid nano-lubricant to identify optimal lubrication conditions and post-processing of results using the response surface method", Elsevier BV, (2021), Vol 15, No : 2059-2074
- "Comparative rheological study on hybrid nanofluids with the same structure of MWCNT (50%)-ZnO(50%)/SAE XWX to select the best performance of nano-lubricants using response surface modeling", Elsevier BV, (2022), Vol 641, No : 128543
- "Laboratory and statistical evaluations of rheological behaviour of MWCNT-Al2O3 (20:80)/Oil SAE50 as possible modified nano-lubricants", Elsevier BV, (2022), Vol 641, No : 128503
- "Comparison of viscosity behavior of hybrid nano-lubricants containing Al2O3-MWCNT nanoparticles dispersed in SAE XWX engine oils to determine the optimal behavior of nano-lubricants based on experimental studies", Elsevier BV, (2022), Vol 641, No : 128446
- "A comparative study of rheological behavior in hybrid nano-lubricants (HNLs) with the same composition/nanoparticle ratio characteristics and different base oils to select the most suitable lubricant in industrial applications", Elsevier BV, (2022), Vol 643, No : 128658
- "Investigation of effective parameters on relative thermal conductivity of SWCNT (15%)-Fe3O4 (85%)/water hybrid ferro-nanofluid and presenting a new correlation with response surface methodology", Elsevier BV, (2022), Vol 645, No : 128625
- "Measurement of thermal conductivity of triple hybrid water based nanofluid containing MWCNT (10%) - Al2O3 (60%) - ZnO (30%) nanoparticles", Elsevier BV, (2022), Vol 647, No : 129083
- "Laboratory study and statistical analysis of MWCNT (40%)-TiO2 (60%)/10W40 nanoparticles as potential new hybrid nano-lubricant", Elsevier BV, (2022), Vol 647, No : 129078
- "Using the RSM to evaluate the rheological behavior of SiO2 (60%) - MWCNT (40%)/SAE40 oil hybrid nanofluid and investigating the effect of different parameters on the viscosity", Elsevier BV, (2023), Vol 184, No : 108479
- Alidoust, S., Zamani, M. & Jabbari, M. Effect of hydrazyl radical on the selectivity of γ-alumina with different sizes of pores for dehydration of 2-octanol through radical elimination mechanism. Reac Kinet Mech Cat (2023)
- "Multi-objective optimization of viscosity and thermal conductivity of TiO2/BioGlycol-water nanofluids with sorting non-dominated genetic algorithm II coupled with response surface methodology", Elsevier BV, (2023), Vol 36, No : 106718
- "Obtaining the optimal lubrication conditions by investigating the viscosity of MWCNT (25%)-TiO2(75%)/ oil SAE40 hybrid nanofluid by response surface methodology", Elsevier BV, (2023), Vol 186, No : 108585
- "Thermal conductivity of MWCNT-TiO2/Water-EG hybrid nanofluids: Calculating the price performance factor (PPF) using statistical and experimental methods (RSM)", Elsevier BV, (2023), Vol 48, No : 103094
- "Correlation and thermal conductivity sensitivity analysis of ternary hybrid nanofluids containing CuO and TiO2 nanoparticles and multi-walled carbon nanotubes", Springer Science and Business Media LLC, (2023), Vol , No :
- S.Alidoust, M.Zamani, M.Jabbari Sol-gel synthesis of nanoporous γ-alumina using TX-100 or gelatin/TX-100 mixture as effective catalysts for dehydration of alcohols
تحصیلات تخصصی
- کارشناسی ارشد شیمی آلی دانشگاه دامغان1395-1397
- کارشناسی شیمی کاربردی دانشگاه پیام نور واحد بهشهر1388-1393
سوابق شغلی و تخصصی
- Research Director at nanofluid research group (1398-تاکنون)
- سابقه کار دانشگاهی در Department of Energy, Water, Energy and Environment Center, Tehran, Iran (1399-تاکنون)
سوابق حضور در دوره ها و کارگاههای تخصصی
- کارگاه کروماتوگرافی گازی (GC) - دانشگاه شهید بهشتی (1398)
- کارگاه کروماتوگرافی مایع با کارایی بالا (HPLC) - پژوهشگاه شیمی پلیمر (1399)
- کارگاه اسپکتروسکوپی مادون قرمز (IR) - دانشگاه دامغان (1397)
- کارگاه اسپکتروسکوپی فرابنفش (UV) - دانشگاه دامغان (1397)