فهرست مقالات

[1]       S.K. Nasiri, A. Reisi-Vanani, M. Hamadanian, Molecular Structure, Spectroscopic, Local and Global Reactivity Descriptors and NBO Analysis of C32H12: A New Buckybowl and Sub-Fullerene Structure, Polycyclic Aromatic Compounds, (2018) Impress.

[2]       S.-D. Mousavi, F. Maghsoodi, F. Panahandeh, R. Yazdian-Robati, A. Reisi-Vanani, M. Tafaghodi, Doxorubicin delivery via magnetic nanomicelles comprising from reduction-responsive poly(ethylene glycol)‑b‑poly(ε‑caprolactone) (PEG-SS-PCL) and loaded with superparamagnetic iron oxide (SPIO) nanoparticles: Preparation, characterization and simulation, Materials Science and Engineering: C, 92 (2018) 631-643.

[3]       F. Hajizadeh, A. Reisi-Vanani, Y.T. Azar, Theoretical design of Zn-dithiaporphyrins as sensitizer for dye-sensitized solar cells, Current Applied Physics, 18 (2018) 1122-1133.

[4]     نرگس صائمی، مهدی شبانی نوش آبادی، سعید معصوم، عادل رئیسی وانانی، بررسی خواص بازدارندگی شیف بیس[2-(فنیل تیو) بنزیلیدن] 1و4-فنیلن دی آمین بر خوردگی فولاد 310 در محیط اسیدی با استفاده از طراحی آزمایش و محاسبات کوانتومی، فصل نامه علوم و مهندسی خوردگی، سال هفتم (2017) 61-73.

[5]     عادل رئیسی وانانی، فاطمه حاجیزاده، بررسی خصلت آروماتیکی برخی نانوساختارهای کربنی پلی سیکلی کاسه ای شکل, شیمی کاربردی دانشگاه سمنان، 44 (2017) 109-120.

[6]       A.A. Rezaei, A. Reisi-Vanani, S. Masoum, An Application of Geometrical Isometries in Nonplanar Molecules, Iranian Journal of Mathematical Chemistry, 8 (4) (2017) 1-7.

[7]       A. Reisi-Vanani, F. Shamsali, Influence of nitrogen doping in sumanene framework toward hydrogen storage: A computational study, Journal of Molecular Graphics and Modelling, 76 (2017) 475-487.

[8]       A. Reisi-Vanani, Z. Shabani, Evaluation of the hydrogen adsorption onto Li and Li + decorated circumtrindene (C₃₆H₁₂): A theoretical study, International Journal of Hydrogen Energy, 42 (2017) 22973-22986.

[9]       A. Reisi-Vanani, M. Safipoor, Investigation of carbon monoxide adsorption onto sumanene (C21H12) decorated with Li⁺ ions toward its elimination, Current Applied Physics, 17 (2017) 1382-1395.

[10]     A. Reisi-Vanani, S. Hoseinpour, A theoretical investigation of decomposition and reactivity of the atmospheric C₃F₇OCH₂O radical, Arabian Journal of Chemistry, 10 (2017) S1604-S1612.

[11]     M. Afzalkhah, S. Masoum, M. Behpour, H. Naeimi, A. Reisi-Vanani, Experimental and Theoretical Investigation of Inhibition Efficiency of 2-(2-Hydroxyphenyl)-benzothiazole Using Impedance Spectroscopy, Experimental Design, and Quantum Chemical Calculations, Industrial & Engineering Chemistry Research, 56 (2017) 9035-9044.

[12]     A. Reisi-Vanani, S. Mehrdoust, Effect of boron doping in sumanene frame toward hydrogen physisorption: A theoretical study, International Journal of Hydrogen Energy, 41 (2016) 15254-15265.

[13]     A. Reisi-Vanani, M. Hamadanian, S.N. Kokhdan, Functionalization of the sumanene by nitrous oxide: A mechanistic study, Computational and Theoretical Chemistry, 1082 (2016) 49-57.

[14]     A. Reisi-Vanani, M. Hamadanian, S.N. Kokhdan, Comprehensive theoretical study of the phenyl azide addition onto armchair (5, 5) single wall carbon nanotube, Computational and Theoretical Chemistry, 1075 (2016) 38-46.

[15]     A. Reisi-Vanani, S. Faghih, Nucleus-Independent Chemical Shift Criterion for Aromaticity in Some of the Corannulene Derivatives as Carbon Nanostructure: Effect of Substituent Groups on Aromaticity, Polycyclic Aromatic Compounds, 36 (2016) 120-131.

[16]     A. Reisi-Vanani, S. Bahramian, Diazomethane addition to sumanene as a subfullerene structure: A theoretical mechanistic study, Computational and Theoretical Chemistry, 1093 (2016) 40-47.

[17]     S. Nasiri Kokhdan, A. Reisi-Vanani, M. Hamadanian, Ab initio and TD-DFT study of the structural and spectroscopic properties of C₃₀H₁₀ as a new buckybowl, Fullerenes, Nanotubes and Carbon Nanostructures, 24 (2016) 577-587.

[18]     S. Hoseinpour, A. Reisi-Vanani, A mechanistic study for decomposition and reactivity of the C₄F₉OC₂H₄O radical derived from HFE-7200 between 200‒400 K, Progress in Reaction Kinetics and Mechanism, (2016).

[19]     A. Reisi-Vanani, L. Shahrokh, S.N. Kokhdan, Theoretical study of the corannulene ozonolysis and evaluation of the various reaction paths, Computational and Theoretical Chemistry, 1051 (2015) 72-78.

[20]     A. Reisi-Vanani, A.A. Rezaei, Evaluation of the aromaticity of non-planar and bowl-shaped molecules by NICS criterion, Journal of Molecular Graphics and Modelling, 61 (2015) 85-88.

[21]     A. Reisi-Vanani, S. Rahimi, S.N. Kokhdan, H. Ebrahimpour-Komleh, Computational study of the gas phase reaction of hydrogen azide and corannulene: A DFT study, Computational and Theoretical Chemistry, 1070 (2015) 94-101.

[22]     A. Reisi-Vanani, S. Hoseinpour, A computational study of the mechanism and kinetics for gas-phase decomposition and reactivity of the C₄F₉OCH₂O radical between 200 and 400 K, Progress in Reaction Kinetics and Mechanism, 40 (2015) 59-68.

[23]     V. Jabbari, M. Hamadanian, A. Reisi-Vanani, P. Razi, S. Hoseinifard, D. Villagran, In,V-codoped TiO2 nanocomposite prepared via a photochemical reduction technique as a novel high efficiency visible-light-driven nanophotocatalyst, RSC Advances, 5 (2015) 78128-78135.

[24] M. Izadyar, N. Zavvar, M. Khavani, A. Reisi-vanani, Secondary Structure Effects on the Acidity of Histidine and Lysine-Based Peptides Model; A Theoretical Study, Physical Chemistry Research, 3 (2015) 67-77.

[25]     A. Reisi-Vanani, S. Faghih, Computational study of the molecular hydrogen physisorption in some of the corannulene derivatives as a carbon nanostructure, Journal of Saudi Chemical Society, 18 (2014) 666-673.

[26]     A. Reisi-Vanani, L. Alihoseini, Evaluation of the Aromaticity of a Non-Planar Carbon Nano-Structure by Nucleus-Independent Chemical Shift Criterion: Aromaticity of the Nitrogen-Doped Corannulene, Journal of Nanostructures, 4 (2014) 153-159.

[27]     A. Reisi-Vanani, L. Alihoseini, Computational investigation of the adsorption of molecular hydrogen on the nitrogen-doped corannulene as a carbon nano-structure, Surface Science, 621 (2014) 146-151.

[28]     A. Reisi-Vanani, M. Izadyar, A theoretical study of the mechanism and kinetics of the thermal decomposition of carbamoyl azide, Progress in Reaction Kinetics and Mechanism, 38 (2013) 305-315.

[29]     M. Hamadanian, A. Reisi-Vanani, P. Razi, S. Hoseinifard, V. Jabbari, Photodeposition-assisted synthesis of novel nanoparticulate In, S-codoped TiO₂ powders with high visible light-driven photocatalytic activity, Applied Surface Science, 285 (2013) 121-129.

[30]     M. Hamadanian, A. Reisi-Vanani, M. Behpour, A. Esmaeily, Synthesis and characterization of Fe, S-codoped TiO₂ nanoparticles: Application in degradation of organic water pollutants, Desalination, 281 (2011) 319-324.

[31]     M. Hamadanian, A. Reisi-Vanani, A. Majedi, Sol-gel preparation and characterization of Co/TiO₂ nanoparticles: application to the degradation of methyl orange, Journal of the Iranian Chemical Society, 7 (2010) S52-S58.

[32]     M. Hamadanian, A. Reisi-Vanani, A. Majedi, Synthesis, characterization and effect of calcination temperature on phase transformation and photocatalytic activity of Cu, S-codoped TiO₂ nanoparticles, Applied Surface Science, 256 (2010) 1837-1844.

[33]     M. Hamadanian, A. Reisi-Vanani, A. Majedi, Preparation and characterization of S-doped TiO₂ nanoparticles, effect of calcination temperature and evaluation of photocatalytic activity, Materials Chemistry and Physics, 116 (2009) 376-382.