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2020 (已发表5篇论文,累计影响因子14.7)
1.A Rezaei, B Kamali, A R Kamali*. Correlation between morphological, structural and electrical properties of graphite and exfoliated graphene nanostructures, Measurement, 150 (2020) 107087. (IF=2.79, Cited: 0)
2.K. Xie, A.R. Kamali*, Z. Shi, Q. Sun. Green electro-synthesis of Li2Fe3O5 microcrystals as high performance anode material for lithium-ion batteries, Journal of Electroanalytical Chemistry, 863 (2020) 114061. (IF = 3.2)
3.W Zhu, A.R. Kamali*. Green molten salt synthesis and Li‐ion storage performance of sodium dimolybdate, Journal of Alloys and Compounds, 831 (2020) 154781. (IF = 4.17)
4.L Labiadh, A R Kamali*. Textural, structural and morphological evolution of mesoporous 3D graphene saturated with methyl orange dye during thermal regeneration, Diamond and Related Materials, 103 (2020) 107698. (IF = 2.29)
5.L Tong, Q Zhao, A R Kamali, W Sand, H Yang. Effect of Graphite on Copper Bioleaching from Waste Printed Circuit Boards, Minerals, 10 (2020) 79. (IF = 2.25)
2019 (共8篇论文,累计影响因子41.2)
K Xie, A R Kamali*. Electro-reduction of hematite using water as the redox mediator, Green Chemistry, 21 (2019) 198-204. (IF=9.4, Cited: 3)
7.K Xie, A R Kamali*. Molten salt electrochemical production and in situutilization of hydrogen for iron production, International Journal of Hydrogen Energy, 44 (2019) 24353-24359. (IF=4.08, Cited: 0)
8.L Labiadh, A R Kamali*. 3D graphene nanoedges as efficient dye adsorbents with ultra-high thermal regeneration performance, Applied Surface Science, 490 (2019) 383-394. (IF=5.15, Cited: 0)
A R Kamali*, S H Shishavan, M N Samani, A Rezaei, K B Kim. Ultra-fast shock-wave combustion synthesis of nanostructured silicon from sand with excellent Li storage performance, Sustainable Energy & Fuels, 3 (2019) 1396-1405. (IF=4.9, Cited: 0)
A R Kamali*, J Yang,Q Sun. Molten salt conversion of polyethylene terephthalate waste into graphene nanostructures with high surface area and ultra-high electrical conductivity.Applied Surface Science, 476 (2019) 539-551. (IF=5.15, Cited: 1)
Z He,Q Sun, K Xie, P Lu, Z Shi,A R Kamali*. Reactive molten salt synthesis of natural graphite flakes decorated with SnO2 nanorods as high performance, low cost anode material for lithium ion batteries, Journal of Alloys and Compounds, 792 (2019) 1213-1222. (IF=4.17, Cited: 1)
Z He,Q Sun, Z Shi,K Xie, A R Kamali*. Molten salt synthesis of oxygen-deficient SnO2 crystals with enhanced electrical conductivity, Applied Surface Science, 465 (2019) 397-404. (IF=5.15, Cited: 1)
L Labiadh, S. Ammar, A R Kamali. Oxidation/mineralization of AO7 by electro-Fenton process using chalcopyrite as the heterogeneous source of iron and copper catalysts with enhanced degradation activity and reusability, Journal of Electroanalytical Chemistry, 853 (2019) 113532. (IF=3.2, Cited: 0)
2018 (共4篇论文,累计影响因子9.9,在SCI中被引用12次)
14.A. Rezaei, A. R. Kamali*. Green production of carbon nanomaterials in molten salts, mechanisms and applications,Diamond & Related Materials, 83 (2018) 146-161. (IF=2.56, Cited: 3)
Kaya H, Bulut O, Kamali. AR, Ege D, L-Arginine modified multi-walled carbon nanotube/sulfonated poly(ether ether ketone) nanocomposite films for biomedical applications, Applied Surface Science, 444 (2018) 168-176. (IF=5.15, Cited: 5)
F. Liu, X. Zhong, J. Xu, A. Kamali, Z. Shi, Temperature Dependence on Density, Viscosity, and Electrical Conductivity of Ionic Liquid 1-Ethyl-3-Methylimidazolium Fluoride, Applied Sciences, 8 (2018) 356. (IF=2.217, Cited:2)
M.R. Kamali, A.R. Kamali, Preparation of borax pentahydrate from effluents of iron nanoparticles synthesis process, AIMS Energy 6 (2018) 1067. (IF=Pending, Cited:2)
2017 (共5篇论文,累计影响因子28.98,在SCI中被引用46次)
18.A. R. Kamali*, H.K. Kim, K.B. Kim, V. R. Kumar, D. J. Fray, Large scale green production of ultra-high capacity anode consisting of graphene encapsulated silicon nanoparticles, Journal of Materials Chemistry A, 5(2017) 19126-19135. (IF=10.733, Cited: 12)
19.A. R. Kamali*, Nanocatalytic conversion of CO2 into nanodiamonds, Carbon, 123 (2017) 205-215. (IF=7.46, Cited: 6)
20.A. R. Kamali*, Scalable fabrication of highly conductive 3D graphene by electrochemical exfoliation of graphite in molten NaCl under Ar/H2 atmosphere, Journal of Industrial and Engineering Chemistry, 52 (2017) 18-27. (IF=4.978, Cited: 12)
21.D. Ege, I. Duru, A. R. Kamali, A. R. Boccaccini, Nitride, Zirconia, Alumina, and Carbide Coatings on Ti6Al4V Femoral Heads: Effect of Deposition Techniques on Mechanical and Tribological Properties, Advanced Engineering Materials, 19 (2017): 49-54. (IF=2.9, Cited: 2)
22.Duygu Ege, Ali Reza Kamali, Aldo R. Boccaccini, Graphene Oxide/Polymer-Based Biomaterials, Advanced Engineering Materials, 19 (2017): 16-34. (IF=2.906, Cited: 14)
2016 (共10篇论文,累计影响因子70.568,在SCI中被引用157次)
A. R. Kamali*, Eco-friendly production of high quality low cost graphene and its application in lithium ion batteries, Green Chemistry 18 (2016) 1952-1964. (IF=9.4, Cited: 30)
H.K. Kim, A. R. Kamali*, K.C. Roh, K.B. Kim, D. J. Fray, Dual coexisting interconnected graphene nanostructures for high performance supercapacitor applications,Energy & Environmental Science, 9(2016) 2249-2256.(IF=33.25, Cited: 44)
A. R. Kamali*, D. J. Fray, Electrochemical interaction between graphite and molten salts to produce nanotubes, nanoparticles, graphene and nanodiamonds, Journal of Materials Science 51 (2016), 569-576. (IF=3.44, Cited: 11)
C. Yerlikaya1, N. Ullah, A. R. Kamali*, R. V. Kumar,Size-controllable synthesis of lithium niobate nanocrystals using modified Pechini polymeric precursor method, Journal of Thermal Analysis and Calorimetery, 125 (2016)17-22. (IF=2.47, Cited: 6)
A. R. Kamali*, J. Feighan, D. J. Fray, Towards large scale preparation of graphene in molten salts and its use in the fabrication of highly toughened alumina ceramics, Faraday Discussions, 190 (2016) 451-470. (IF=3.58, Cited: 6)
İ. Duru, D.u Ege, A.R. Kamali, Graphene Oxides for Removal of Heavy and Precious Metals from the Wastewater, Review Paper, Journal of Materials Science, DOI 10.1007/s10853-016-9913-8.(IF=2.59, Cited: 43)
T.H. Okabe, A.R. Kamali et al., Advancement in knowledge of phenomena and processes: general discussion, Faraday Discussions, 190(2016) 525-549. (IF=3.712, Cited:1)
T.H. Okabe, A. Kamali et al., Benefits to energy efficiency and environmental impact: general discussion, Faraday Discussions 190(2016) 161-204. (IF=3.712)
T.H. Okabe, A. Kamali et al, Developments for nuclear reactors and spent fuels processing: general discussion, Faraday Discussions 190(2016) 399-419. (IF=3.712)
Kuzmina, A.R. Kamali et al., Improvements of energy conversion and storage: general discussion, Faraday Discussions 190(2016) 291-306.(IF=3.712, Cited:2)
2015 (共5篇论文,累计影响因子17.55,在SCI中被引用45次)
A. R. Kamali*, D. J. Fray, A possible scalable method for the synthesis of Sn-containing carbon nanostructures, Materials Today Communications 2 (2015) 38-48. (Impact Pending, Cited:6)
A. R. Kamali*, D.J. Fray, Large-scale preparation of graphene by high temperature insertion of hydrogen into graphite, Nanoscale 7 (2015), 2015, 11310-11320. (IF= 7.39, Cited=33)
A. R. Kamali*, D. J. Fray, Preparation of nanodiamonds from carbon nanoparticles at atmospheric pressure, Chemical Communications 51 (2015), 5594-5597.(IF=6.83, Cited=22)
M. Nazarian-Samani, A. R. Kamali, M. Nazarian-Samani, S. F. Kashani-Bozorg, Evolution and Stability of a Nanocrystalline Cu3Ge Intermetallic Compound Fabricated by Means of High Energy Ball Milling and Annealing Processes, Metallurgical and Materials Transactions A 46 (2015) 516-524.(IF= 1.73, Cited=2)
H.S. Chen, P. Yang, Z.H. Khan, J.M. Wu, G. Li, A.R. Kamali, Quantum Dots and Nanoparticles in Light Emitting Diodes, Displays, and Optoelectronic Devices, Journal of Nanomaterials 2015, ID 371679. (IF=1.60, Cited: 1)
2014 (共8篇论文,累计影响因子19.64,在SCI中被引用84次)
A.R.Kamali*, D.J.Fray, Towards large scale preparation of carbon nanostructures in molten LiCl, Carbon 77 (2014), 835-845.(IF=6.19, Cited: 17)
A.R.Kamali*, D.J.Fray, Preparation of lithium niobate particles via reactive molten salt synthesis method, Ceramics International40 (2014), 1835-1841. (IF=2.67, Cited: 29)
A.R.Kamali*, G.Divitini, C.Ducati, D.J.Fray, Transformation of molten SnCl2 to SnO2 nano-single crystals, Ceramics International 40 (2014), 8533-8538. (IF=2.67, Cited: 6)
M. Eskandari, A. Zarei-Hanzaki, J.A. Szpunar, M.A. Mohtadi-Bonab, A. R. Kamali, M.Nazarian Samani, Microstructure evolution and mechanical behavior of a new microalloyed High Mn austenitic steel during compressive deformation, Materials Science and Engineering: A 615(2014) 424–435. (IF=2.57, Cited: 11)
M. Nazarian-Samani, A.R. Kamali, M. Nazarian-Samani, Study on solid state reactions of nanocrystalline Cu-Ge alloys upon mechanical alloying and annealing, Powder Metallurgy 57 (2014), 119-126. (IF=0.77, Cited: 5)
M.Nazarian-Samani, R. Mobarra, A. R. Kamali, M. Nazarian-Samani, Structural Evolution of Nanocrystalline Nickel-Tungsten Alloys Upon Mechanical Alloying with Subsequent Annealing, Metallurgical and Materials Transactions A 45 (2014), 510-521. (IF=1.73, Cited: 7)
A. R. Kamali*, Thermokinetic characterisation of tin(II) chloride, Journal of Thermal Analysis and Calorimetry118 (2014) 99-104. (IF=2.04, Cited: 5)
M. Eskandari, A. Z arei-Hanzaki,A. R. Kamali, M. A. Mohtadi-Bonab, J. A. Szpunar, Strain hardening during hot compression through planar dislocation and twin-like structure in a low-density high-Mn steel, Journal of Materials Engineering and Performance 23 (2014)3567-3576. (IF=1.0, Cited: 4)
2013 (共2篇论文,累计影响因子8.32,在SCI中被引用40次)
A. R. Kamali*, D. J. Fray, Molten salt corrosion of graphite as a possible way to make carbon nanostructures, Carbon 56 (2013) 121-131. (IF=6.19, Cited: 37)
M. Nazarian-Samani, H. Abdollah-Pour, O. Mirzaee, A. R. Kamali, M. Nazarian-Samani, Effects of Ni addition on the microstructure and properties of nanostructured copper-germanium alloys, Intermetallics 38 (2013) 80-87. (IF=2.13, Cited: 3)
2012 (共5篇论文,累计影响因子14.03,在SCI中被引用56次)
A.R. Kamali*, D.J. Fray, Solid phase growth of tin oxide nanostructures, Materials Science and Engineering B 177 (2012) 819– 825. (IF=2.17, Cited: 13)
A.R. Kamali*, G. Divitini, C. Schwandt, D. J. Fray, Correlation between microstructure and thermokinetic characteristics of electrolytic carbon nanomaterials, Corrosion Science 64 (2012) 90–97. (IF=4.42, Cited: 15)
A.R. Kamali*, C. Schwandt, D. J. Fray, On the oxidation of electrolytic carbon nanomaterials, Corrosion Science 54 (2012) 307–313. (IF=4.42, Cited: 14)
M. Nazarian-Samani, A. R. Kamali, M. Nazarian-Samani, R. Mobarra, S. Naserifar, Thermokinetic study on the phase evolution of mechanically alloyed Ni–B powders, Journal of Thermal Analysis and Calorimetery 107 (2012) 265–269. (IF=2.04, Cited: 2)
S. Rehman, N. Ullah, A.R. Kamali*, K. Ali, C. Yerlikaya, H. Rehman, Study on the thallium(III) adsorption onto multiwall carbon nanotubes, New Carbon Materials 27(2012) 409-415. Abstracted in Carbon 55 (2013) 375. (IF=0.98, Cited: 12)
2011 (共3篇论文,累计影响因子5.04,在SCI中被引用166次)
A.R. Kamali*, C. Schwandt, D. J. Fray, Effect of the graphite electrode material on the characteristics, Materials Characterization 62 (2011) 987-994. (IF=1.84, Cited: 19)
A.R. Kamali*, D. J. Fray, C. Schwandt, Thermokinetic characteristics of lithium chloride. Journal of Thermal Analysis and Calorimetery 104 (2011) 619–26. (IF=2.04, Cited: 21)
A.R. Kamali*, D.J. Fray, Tin-based materials as anode materials for lithium ion batteries: A review, Reviews on Advanced Materials Science 27(2011) 14-24. (IF=1.16, Cited: 139)
2010 (共7篇论文,累计影响因子12.167,在SCI中被引用105次)
A. R. Kamali*, D. J. Fray, Review on carbon and silicon based materials as anode materials for lithium ion batteries, Journal of New Materials for Electrochemical Systems 13(2010) 147–60. (IF=0.51, Cited: 60)
A. R. Kamali*, M. Hadi, J. Khalil-Allafi, A.R. Ebrahimi, A Process for Production of a Niobium-containing TiAl Based Alloy. Canadian Metallurgical Quarterly 49 (2010) 171-178. (IF=0.51, Cited:0)
M. Nazarian Samani, A. Shokuhfar, A.R. Kamali, M. Hadi, Production of a nanocrystalline Ni3Al-based alloy using mechanical alloying, Journal of Alloys and Compounds, Journal of Alloys and Compounds 500 (2010) 30–33. (IF=2.999 Cited: 11)
M. Nazarian Samani, A. R. Kamali, Investigation on hot workability and mechanical properties of modified IC-221M alloy, Journal of Alloys and Compounds 492 (2010) 196–200. (IF=2.999, Cited: 2)
M. R. Farhang, A. R. Kamali, M. Nazarian-Samani, Effects of mechanical alloying on the characteristics of a nanocrystalline Ti–50 at. %Al during hot pressing consolidation, Materials Science and Engineering B 168 (2010) 136–141. (IF=2.17, Cited: 23)
M. Nazarian-Samani, A. R. Kamali, R. Mobarra, M. Nazarian-Samani, Phase transformations of Ni-15 wt. % B powders during mechanical alloying and annealing, Materials Letters 64 (2010) 309–312. (IF=2.49, Cited: 12)
M. Babapour Naseri, A. R. Kamali, S. M. M. Hadavi, Chemical Synthesis of Tungsten–Copper Nanocomposite Powder, Russian Journal of Inorganic Chemistry 55(2010) 167–173. (IF=0.489, Cited: 3)
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