Ali Aliev (physicist)

Ali Enver Aliev (Ali Enver oğlu Aliyev; Али Энверович Алиев; born September 10, 1955) is a Crimean Tatar American physicist, research professor at the NanoTech Institute, and adjunct professor at Physics Department, The School of Natural Sciences and Mathematics, University of Texas at Dallas. In 2011 he was recognized an “Inventor of the year” by Time magazine His fields of current research interest are nanoscience and nanotechnologies, electrochromism and acoustics. He holds a number of invention patents from the United States Patent and Trademark Office (USPTO).

Biography
Ali Aliev was born in Tashkent to a Crimean Tatar family; they had been forcibly exiled to the Uzbek SSR as special-settlers (official second-class citizens) along with most of the Crimean Tatar population in the Surgun of May 1944. Despite numerous hardships, in 1973 his father Enver became a Hero of Socialist Labour for cotton production, but subsequently faced reprimand from party leaders for endorsing a letter requesting right of return to Crimea and was only able to return to his homeland in 1990.

In 1977 he graduated with honors from the Radio Engineering faculty of Kharkiv National University of Radio Electronics. 1984 he got his PhD in Molecular and Thermal Physics at the Uzbek Academy of Sciences. Thesis Title: "Study of the Fast Ionic Transport in rare-earth Fluorides". 1992 — Doctor of Science degree in physics (Solid State Physics), Heat Physics Department of Uzbek Academy of Sciences. Thesis Title: "Relaxation Phenomena in Superionic Conductors". From 1988 till 2004 he worked at Heat Physics Department of Uzbek Academy of Sciences. In 1992—2004 he was the Head of the Physical Acoustic Research Laboratory of the named department. Since 2004 Aliev has been research professor at Alan MacDiarmid Nanotech Institute at University of Texas at Dallas.

Ali Aliev is an author of more than 100 scientific articles and 13 patents in the field of nanoscience and nanotechnology, among them, for instance, a patent for a heat visibility cloak.

Aliev is married to Elvira Umerova; they have two daughters.

Awards
<!-- Ali E. Aliev, Ray H. Baughman. Shaping Nanomaterials by Short Electrical Pulses, ACS Nano, submitted, 2020 Mengmeng Zhang, Shaoli Fang, Wenjun Zhang, Jun Nie, Peng Fei, Ali E. Aliev, Ming Xu, Ray H. Baughman. Self-powered, Electrochemical Carbon Nanotube Pressure Sensors for Monitoring 1 mm to 30 m High Waves, Advansed Materials, submitted 2020. Run Wang, Shaoli Fang, Yicheng Xiao, Enlai Gao, Nan Jiang, Yaowang Li, Linlin Mou, Yanan Shen, Wubin Zhao, Sitong Li, Alexandre F. Fonseca, Douglas S. Galvão, Mengmeng Chen, Wenqian He, Kaiqing Yu, Hongbing Lu, Xuemin Wang, Dong Qian, Ali E. Aliev, Na Li, Carter S. Haines, Zhongsheng Liu, Jiuke Mu, Zhong Wang, Shougen Yin, Márcio D. Lima, Baigang An, Xiang Zhou, Zunfeng Liu, Ray H. Baughman. Torsional refrigeration by twisted, coiled, and supercoiled fibers. Science 2019, 366 (6462), 216-221 doi: 10.1126/science.aax6182. H. Kim, J. A. Lee, C. P. Ambulo, H. B. Lee, S. H. Kim, V. V. Naik, C. S. Haines, A. E. Aliev, R. Ovalle-Robles, R. H. Baughman, and T. H. Ware, Intelligently Actuating Liquid Crystal Elastomer-Carbon Nanotube Composites, Adv. Funct. Mater. 2019, 1905063; DOI: 10.1002/adfm.201905063. Stepan Romanov, Ali E. Aliev,  Boris Fine,  Anton S. Anisimov  and  Albert G Nasibulin, Highly efficient thermophones based on freestanding single-walled carbon nanotube films, Nanoscale Horizons, 2019, 4, 1153–1157. doi.org/10.1039/C9NH00164F. Hari L. Bhatta1, Ali E. Aliev2 & Vladimir P. Drachev, New mechanism of plasmons specific for spin-polarized Nanoparticles, Scientific Reports, 9, 2019, https://doi.org/10.1038/s41598-019-38657-w. Ali E Aliev, Daniel Codoluto, Ray H. Baughman, Raquel Ovalle-Robles, Kanzan Inoue, Stepan A. Romanov, Albert Nasibulin, Prashant Kumar, Shashank Priya, Nathanael K. Mayo, and John Blottman. Thermoacoustic Sound Projector: Exceeding the Fundamental Efficiency of Carbon Nanotubes, Nanotechnology, 2018, 29 (32), 325704. https://doi.org/10.1088/1361-6528/aac509. S. Wan, Y. Li, J. Mu, A. E. Aliev, S. Fang, N. A. Kotov, L. Jiang, Q. Cheng, and R. H. Baughman, Sequentially bridged graphene sheets with high strength, toughness, and electrical conductivity, PNAS, 2018, 1719111115. www.pnas.org/cgi/doi/10.1073/pnas.1719111115. Ali E. Aliev, Nathanael K. Mayo, Ray H. Baughman, Brent T. Mills and Ed Habtour, Subwoofer and nanotube butterfly acoustic flame extinction, Journal of Physics D: Applied Physics, 50, 29 (2017) LT01, https://doi.org/10.1088/1361-6463/aa78e5 T. R. Howarth, D. Huang, C. R. Schumacher, N. K. Mayo, D. L. Cox, J. E. Boisvert, A. E. Aliev and R. H. Baughman, Investigation of carbon nanotubes for acoustic transduction applications, The Journal of the Acoustical Society of America 140, 3086 (2016); doi: http://dx.doi.org/10.1121/1.4969616 Ali E. Aliev, Sahila Perananthan, John P. Ferraris, Carbonized Electrospun Nanofiber Sheets for Thermophones, ACS Appl. Mater. Interfaces, 2016, 8 (45), pp 31192–31201. Carter S. Haines, Na Li, Geoffrey M. Spinks, Ali. E. Aliev, Jiangtao Di, Ray H. Baughman, New twist on artificial muscles, PNAS, doi:10.1073/pnas.1605273113, 2016. A. E. Aliev, M. J. de Andrade, M. B. Salamon, Paramagnetic Meissner Effect in Electrochemically Doped Indium-Tin Oxide Films, J. Supercond. Nov. Magn., 29, 1793, 2016. Jae Ah Lee, Ali E. Aliev, Julia S. Bykova, Mônica Jung de Andrade, Daeyoung Kim, Hyeon Jun Sim, Xavier Lepró, Anvar A. Zakhidov, Jeong-Bong Lee, Geoffrey M. Spinks, Siegmar Roth, Seon Jeong Kim, and Ray H. Baughman, Woven-Yarn Thermoelectric Textiles, Advanced Materials, 28, 25, 2016, 5038–5044. Jiangtao Di, Shaoli Fang, Francisco A. Moura, Douglas S. Galvão, Julia Bykova, Ali Aliev, Xavier Lepró, Na Li, Carter Haines, Raquel Ovalle Robles, Dong Qian, and Ray H. Baughman, Strong, Twist-Stable Carbon Nanotube Yarns and Muscles by Tension Annealing at Extreme Temperatures, Advanced Materials, 28, 31, 2016, 6598–6605. I. Munaweera, Yi Shi, B. Koneru, R. Saez, A. Aliev, A. J. Di Pasqua, and K. J. Balkus, Jr., Chemoradiotherapeutic Magnetic Nanoparticles for Targeted Treatment of Nonsmall Cell Lung Cancer, ACS Molecular Pharmaceutics, 12 (2015) 3588–3596. A. E. Aliev, N. K. Mayo, M. J. de Andrade, R. O. Robles, S. Fang, R. H. Baughman, M. Zhang, Y. Chen, J. A. Lee, S. J. Kim, Alternative Nanostructures for Thermophones, ACS Nano, 2015, 9 (5), 4743–4756. Y. Wu, N. Yi, L Huang, T. Zhang, S. Fang, H. Chang, N. Li, J. Oh, J. A. Lee, M. Kozlov, S. Feng, S. J. Kim, N. T. Narayanan, P. M. Ajayan, M. Terrones, A. Aliev, P. Chu, Z. Zhang, R. H. Baughman, Y. Chen, Three-dimensionally bonded spongy graphene material with super compressive elasticity and near-zero Poisson's ratio. Nature Communications, 01/2015; 6:6141. DOI:10.1038/ncomms7141. I. N. Kholmanov, C. W. Magnuson, R. Piner, J.-Y. Kim, A. E. Aliev, C. Tan, T. Y. Kim, A. A. Zakhidov, G. Sberveglieri, R. H. Baughman, R. S. Ruoff, Optical, Electrical, and Electromechanical Properties of Hybrid Graphene/Carbon Nanotube Films, Adv. Mater. 27, 19 2015, 3053–3059. Ali E. Aliev, Thermophones using carbon nanotubes and alternative nanostructures for high power sound generation and noise cancellation, Proc. of  Inter-noise 2014, Melbourne, Australia. Andrew R. Barnard, Timothy A. Brungart, Timothy E. McDevitt, Ali E. Aliev, David M. Jenkins, Brian L. Kline and Ray H. Baughman, Advancements toward a high-power, carbon nanotube, thin-film loudspeaker, Noise Control Engr. J. 62 (5), (2014) 360–367. A. E. Aliev, N. K. Mayo, R. H. Baughman, D. Avirovik, S. Priya, M. R. Zarnetske and J. B. Blottman, Thermal management of thermoacoustic sound projectors using a free-standing carbon nanotube aerogel sheet as heat source. Nanotechnology 25 (2014); 405704 (11pp). A. E. Aliev, N. K. Mayo, R. H. Baughman, D. Avirovik, S. Priya, M. R. Zarnetske and J. B. Blottman, Thermoacoustic excitation of sonar projector plates by free-standing carbon nanotube sheets, J. Physics D: Appl. Phys. 47, (2014) 355302 (9 pp). A. Morelos-Gómez, P. G. Mani-González, A. E. Aliev, E. Muñoz-Sandoval, A. Herrera-Gómez, A. A. Zakhidov, H. Terrones, M.Endo, and M. Terrones, Controlling the Optical, Electrical and Chemical Properties of Carbon Inverse Opal by Nitrogen Doping, Adv. Funct. Mater. 2014, 24, 2612–2619. I. Munaweera, A. Aliev, and K. J. Balkus, Jr., Electrospun cellulose acetate-garnet nanocomposite magnetic fibers for bioseparations, ACS Appl. Mater. Interfaces (2014) 6, 244−251. Ali E Aliev, Yuri N Gartstein and Ray H Baughman, Increasing the efficiency of thermoacoustic carbon nanotube sound projectors, Nanotechnology, 24 (2013) 235501 (11pp). Kyoung-Yong Chun, Shi Hyeong Kim, Min Kyoon Shin, Youn Tae Kim, Geoffrey M Spinks, Ali E Aliev, Ray H Baughman and Seon Jeong Kim, Freestanding nanocomposites with high conductivity and extensibility, Nanotechnology, 24 (2013) 165401 (9pp). I. N. Kholmanov, C. W. Magnuson, A. E. Aliev, H. Li, B. Zhang, J. W. Suk, L. L. Zhang, E. Peng, S. H. Mousavi, A. B. Khanikaev, R. Piner, G. Shvets, and R. S. Ruoff, Improved electrical conductivity of graphene films integrated with metal nanowires, Nano Letters, 12 (11) 5679-5683 (2012). Ali E. Aliev, Ka Xiong, Kyeongjae Cho, and M. B. Salamon, Reversible superconductivity in electrochromic indium-tin oxide films, Appl. Phys. Lett. 101, 252603 (2012). Ali E. Aliev, Yuri N. Gartstein and Ray H. Baughman, Mirage effect from thermally-modulated transparent carbon nanotube sheet, Nanotechnology 22, 435704 (2011). Ali E. Aliev, Marcio D. Lima, Shaoli Fang, Ray H. Baughman, Underwater sound generation using carbon nanotube projectors. Nano Letters 10, 2374-2380 (2010). Ali E. Aliev and Ray H. Baughman, An explosive thrust for nanotubes (news&views), Nature Materials, 9, 2010, 385–386. A. E. Aliev, M. D. Lima, E. M. Silverman, R. H. Baughman, Thermal conductivity of multi-walled carbon nanotube sheets: radiation losses and quenching of phonon modes, Nanotechnology, 21, 035709 (2010). Ali E. Aliev, Jiyoung Oh, Mikhail E. Kozlov, Alexander A. Kuznetsov, Shaoli Fang, Alexandre F. Fonseca, Raquel Ovalle, Márcio D. Lima, Mohammad H. Haque, Yuri N. Gartstein, Mei Zhang,* Anvar A. Zakhidov, Ray H. Baughman, Giant-Stroke, Superelastic Carbon Nanotube Aerogel Muscles, Science 323, 1575-1578 (2009). A. E. Aliev, G. K. Hemani, E. M. Silverman, R. H. Baughman, Carbon Nanotubes for Heat Management Systems: Black Body Radiation and Quenching of Phonon Modes in MWNT Bundles, MRS Proceedings 2008 MRS Fall Meeting, 1142-JJ14-03.R1. A.E. Aliev. High-Tc superconductivity in nanostructured NaxWO3-y: Sol-gel route. Superconductivity Science & Technology 21 (2008) 115022. A.E. Aliev. Bolometric detector on the basis of single-wall carbon nanotubes/polymer composite. Infrared Physics & Technology, 51 (2008) 541–545. Ch. Xiong, A.E. Aliev, G. Pant, B. Gnade, K. Balkus. The Facile Preparation of Partially Reduced V2O5 Nanowire Sheets. Chapter 12 in Nanoparticles: Synthesis, Stabilization, Passivation and Functionalization edited by R. Nagarajan and T. A. Hatton. ACS Symposium Series 996, American Chemical Society, Washington, DC, 152-170 (2008). A.E. Aliev, A.A. Kuznetsov. The origin of polarized blackbody radiation from resistively heated multiwalled carbon nanotubes. Physics Letters A 372/29, 4938-4942 (2008). C. Xiong, A.E. Aliev, B. Gnade, K.J. Balkus, Jr., Fabrication of Silver Vanadium Oxide and V2O5 Nanowires for Electrochromics. ACS Nano 2, 2, 293-301 (2008). A.E. Aliev, C. Guthy, M. Zhang, Sh. Fang, A.A. Zakhidov, J.E. Fischer, R.H. Baughman. Thermal transport in MWCNT sheets and yarns. Carbon 45, (2007) 2880–2888. K.R. Atkinson, S.C. Hawkins, C. Huynh, C. Skourtis, J. Dai, M. Zhang, Sh. Fang, A. A. Zakhidov, S.B. Lee, A.E. Aliev, C.D. Williams, R.H. Baughman. Multifunctional carbon nanotube yarns and transparent sheets: Fabrication, properties, and applications. Physica B: Condensed Matter 394, 2 (2007) 339–343. A.E. Aliev, S.B. Lee, R.H. Baughman, A.A. Zakhidov, Thermal properties of carbon inverse opal photonic crystals, J. of Luminescence 125 (2007) 11–17. A.E. Aliev, S.B. Lee, A.A. Zakhidov, R.H. Baughman. Superconductivity in Pb Inverse Opal. Physica C 453 (2007) 15–23. D.W. Kim, J.S. Lee, G.S. Lee, L. Overzet, M. Kozlov, A.E. Aliev, Y.W. Park, and D.J. Yang, Carbon Nanotubes Based Methanol Sensor for Fuel Cells Application, Journal of Nanoscience and Nanotechnology, 6 (2006) 1–6. A.E. Aliev, M.A.O. Royer, A.A. Zakhidov, R.H. Baughman, Synthesis of Silicon Based Opal by Chemical Reduction of Silica Opal, MRS Proceedings, Vol. 964 (2006), pp. 13–18. A.E. Aliev, A.A. Zakhidov, R.H. Baughman, E. Yablonovith. Chalcogenide Inverted Opal Photonic Crystal as Infrared Pigments. International J. of Nanoscience, 5, 1 (2006) 157–172. A.E. Aliev, A.A. Fridman, P.K. Khabibullaev. Electrical Conductivity of Paper Based on Single-Wall and Multiwall Nanotubes. Journal of Communications Technology and Electronics, 50, 9 (2005) 1074–1081. M. Zhang, Sh. Fang, A. A. Zakhidov, S. B. Lee, A. E. Aliev, Ch. D. Williams, K. R. Atkinson, R. H. Baughman. Strong, Transparent, Multifunctional Carbon Nanotube Sheets. Science, 309 (2005) 1215–1219. A.E. Aliev, A.A. Fridman, P.K. Khabibullaev. Electrical Conductivity of SWNT and MWNT bucky-papers. Radiotechnics and Electronics, 50, 9 (2005) 1160–1168. A.E. Aliev, A.A. Fridman, P.K. Khabibullaev. Conduction mechanisms in carbon nanotube papers. Uzbek Journal of Physics, 6, (5-6) (2004), 423–430. A.E. Aliev, P.K. Khabibullaev, I.V. Khvan, V.Yu. Sokolov, V.Sh. Yalishev, A.S. Zakirov, Nanostructured materials for Li-ion secondary batteries. Uzbek Journal of Physics, 6, (5-6), (2004), 366–372. A.E. Aliev, N.Kh. Akhmedjanova, V.F. Krivorotov, I.N. Kholmanov, and A.A. Fridman. Thermal conductivity of opal filled with a LiIO3 Ionic Conductor. Physics of Solid State, 45, 1 (2003) 61–68. A.E. Aliev. High performance passive matrix electrochromic display. Uzbek Journal of Physics, 5(2-3), (2003), 205–222. A.E. Aliev, H.W. Shin. Nanostructured materials for electrochromic devices. Solid State Ionics. 154-155 (2002) 425–431. A.E. Aliev, H.W. Shin. Image diffusion and cross-talk in passive matrix electrochromic displays. Display, 23 (5), (2002) 239–247. A.E. Aliev, P.K. Khabibullaev, H.W. Shin. Surface modification of electrochromic WO3-x thin films. Uzbek Journal of Physics, 3, 1–2, (2001) 38–48. A.E. Aliev and C. Park. Development of WO3 thin films using nanoscale silicon particles. Jpn. J. Appl. Phys. 39 (2000) 3572–3578. A.E. Aliev, N.Kh. Akhmedjanova, V.F. Krivorotov, I.N. Kholmanov, A.A. Fridman. Transport properties of composite superionic material LiIO3 + SiO2. NATO Science Series, 3: High Technology, Materials for Lithium-Ion Batteries, 85 (2000) 603–605. A.E. Aliev, V.F. Krivorotov, N.Kh. Akhmedjanova, I.N. Kholmanov. The transport properties of composite superionic conductor-AgI+Al2O3. Uzbek Journal of Physics. 1, 1-2 (1999) 138–143. A.E. Aliev, I.N. Kholmanov, P.K. Khabibullaev. Study of the thermoelectric power in amorphous and single crystalline lithium tetraborate - Li2B4O7. Solid State Ionics, 118 (1999) 111–116. A.E. Aliev, I.N. Kholmanov, P.K. Khabibulaev. Thermoelectric power in the superionic conductor Li2B4O7. Doklady Akademii Nauk 365(2), (1999) 178–180, (Russian). A.E. Aliev and N.Kh. Akhmedjanova. Thermal conductivity of synthetic opal and porous borosilicate glass structures. Uzbek Journal of Physics, 1 (1999) 373–379, (Russian). N.R. Abdulkhalikova, A.E Aliev, V.F. Krivorotov, P.K. Khabibullaev. Thermally activated two-level systems in Superionic Conductors. Solid State Ionics, 107 (1998) 59–65. A.E. Aliev., V.F. Krivorotov, P.K. Khabibullaev. Specific heat and thermal conductivity in superionic state. Solid State Physics, 39 (9) 1997, 1548–1553. N.R. Abdulchalikova, A.E. Aliev, V.F. Krivorotov, P.K. Khabibullaev. Heat capacity and thermal conductivity in superionic conductors at high temperatures. Uzbek Journal of Physics, 2 (1997) 5-11 (Russian). A.E. Aliev, I.N. Kholmanov. Thermoelectric power in anion conducting superionic conductors LaF3, and ZrO2 + 0.15Y2O3. Uzbek Physical Journal. 5-6 (1997) 61–66, (Russian). A.E. Aliev, Sh.U. Yuldashev, P.K. Khabibullaev. About influence of organic molecules on electrophysical and photoluminescence properties of porous silicon. Bulletin of SCST of the Republic of Uzbekistan. 1 (1997) 10–24. A.E. Aliev, Sh.U. Yuldashev, P.K. Khabibullaev, M.H. Khan, and F.A.Khalid. Studies on Sensitivity of Porous Silicon Surfaces to Environmental Gases. J. of Materials Engineering and Performance. 6, 2 (1997) 161–164. A.E. Aliev, A.A. Saidov, P.K. Khabibullaev, and I.I. Shinder. Relaxation processes and phase state diagnostic in condensed matter. Acoustics Physics. 42, 3 (1996) 279–289. A.E. Aliev, S.Kh. Khanafin. Acousto-optical characteristics of Li2B4O7. Uzbek Journal of Physics 3 (1996) 66–71, (Russian). N.R. Abdulchalikova, A.E. Aliev. Thermal conductivity of superionic alumophosphate glasses 0.2Al(PO3)3 + (0.8-x)LiF + xNaF, Fizika Tverdogo Tela. 37, 7 (1995) 2084, (Russian). N.R. Abdulchalikova, A.E. Aliev. Thermal properties of Li conducting superionic materials. Synthetic Metals, 71, 1-3 (1995) 1929–1932. N.R. Abdulkhalikova, A.E. Aliev. Thermal conductivity of superionic α-LiIO3 conductor. Uzbek Journal of Physics, 1 (1994) 50–4, (Russian). G.I. Mukhamedov, M.M. Khafizov, A.M. Akhmedov, and A.E. Aliev. Thermal conductivity of films of interpolymer complexes of carboxymethylcellulose with nitrogen-containing polymers. Polymer Science. 35, 4 (1993) 541–542. A.E. Aliev, R.R. Valetov. Acoustic emission in the ionic conductor lithium tetraborate. Fizika Tverdogo Tela 34, 10 (1992) 3061–5, (Russian). A.E. Aliev, P.K. Khabibullaev. Superionic conductors. Results of investigations and prospects. Uzbek Journal of Physics. 4 (1992) 5-53, (Russian). Zh.K. Avlyanov, A.E. Aliev, N.R. Abdukhalikova, A.S. Zakirov, Kh.T. Igamberdyev, A. Mavlyanov, A.T. Mamadalimov. Thermophysical properties of polyaniline and poly(ortho-toluidine). Doklady Akademii Nauk UzSSR 4 (1991) 22–4, (Russian). Abdulkhalikova N.R., Aliev A.E. Investigation of molecular thermal conductivity of superionic materials by pulse hot wire method. Teplofizika Vysokikh Temperatur. 29, 3 (1991) 618–620, (Russian). Abdulkhalikova N.R., Aliev A.E. Pulse hot wire method for thermal conductivity measurements using a computer. Uzbek Journal of Physics. 4 (1991) 50–53, (Russian). Aliev A.E. Transport properties of lithium tetraborate (Li2B4O7). Uzbek Journal of Physics, 1 (1992) 57–62, (Russian). Aliev A.E., Akramov A.Sh., Valetov R.R., Khabibullaev P.K. Ultrasound propagation in superionic conductors. Uzbek Journal of Physics. 1 (1991) 39–49, (Russian). Aliev A.E., Akramov A.Sh., Valetov R.R., Khabibullaev P.K. Peculiarities of ultrasound propagation in piezoactive superionic conductors. Solid State Ionics. 46(3-4), (1991)197-203. Aliev A.E., Valetov R.R. Acoustic-ionic mechanism of ultrasound absorption in Li2B4O7. Kristallografiya. 26, 6 (1991) 1507–1515, (Russian). Aliev A.E., Burak Y.V., Vorobyev V.V., I.T. Lyseiko, Charnaya E.V. Ultrasonic absorption in the ionic conductor Li2B4O7. Fizika tverdogo tela. 32, 9 (1990) 2826-2828 (Russian). Aliev A.E., Burak Y.V., Lyseiko I.T. Electric and physical properties of new superionic crystals, Li2B4O7. Izvestiya Academii Nauk SSSR, Neorganicheskie materially. 26, 9 (1990) 1991–1993, (Russian). Aliev A.E. Transport properties of superionic crystals with tysonite structure. Electrokhimiya. 26, 1 (1990) 79–81, (Russian). Aliev A.E. Transport properties of lithium iodate. Izvestiya AN UzSSR, Phys.-Math. Seriya. 1 (1990) 78–82, (Russian). Aliev A.E., Akramov A.Sh., Valetov R.R. Low frequencies acoustic properties of lithium iodate -alpha-LiIO3. Fizika tverdogo tela. 31, 12 (1989) 178–180, (Russian). Aliev A.E., Akramov A.Sh., Tashmuhamedova N.K. Dielectric properties of rare-earth fluorides LnF3 (Ln = La,Ce,Pr). Fizika Tverdogo Tela. 31, 2 (1989) 263–266, (Russian). Akramov A.Sh., Aliev A.E., Kirin A.G. Effect of gamma-radiation on electric properties of lithium iodate. Izvestiya AN UzSSR, Phys.-Math. Seriya. 6 (1986) 68–71, (Russian). A.E. Aliev, A.Sh. Akramov, L.N. Fershtat, P.K. Khabibullaev. Mechanism of a superionic phase transition in alpha-LiIO3. Physical Status Solidi (A). 108, 1 (1988) 189–196. A.A. Abramovich, A.Sh. Akramov, A.E. Aliev, L.N. Fershtat. Low-frequency dielectric spectra of lithium iodate - LiIO3. Fizika Tverdogo Tela. 29, 8 (1987) 2479–2481, (Russian). A.E. Aliev, A.Sh. Akramov. Anomalous electric properties of LiIO3. Izvestiya AN UzSSR, Phys.-Math. Series. 1 (1987) 76–78, (Russian). Sh. Akramov, A.E. Aliev, L.N. Fershtat, P.K. Khabibullaev. The gamma-radiation influence on the disordering processes in KH2PO4 single crystals. Doklady Akademii Nauk UzSSR. 2 (1986) 26–28, (Russian). P.K. Khabibullaev, L.N. Fershtat, A.E. Aliev. Phase transitions and domain formations in superionic crystals. Doklady Akademii Nauk SSSR. 281, 2 (1985) 320–323, (Russian). A.E. Aliev, L.N. Fershtat, P.K. Khabibullaev. Acoustic anomalies of lanthanum trifluoride in the phase transition region to the superionic state. Teplofizika Vysokikh Temperatur. 22, 3 (1984) 473–478, (Russian). A.E. Aliev, P.K. Khabibullaev, L.N. Fershtat. Acoustical studies of the first order phase transition in vanadium dioxide films. Izvestiya Akademii Nauk UzSSR, Seriya Fiz.-Mat. Nauk, 5 (1984) 78-80 (Russian). A.E. Aliev, L.N. Fershtat. Thermal study of rare earth fluorides. Izvestiya Akademii Nauk UzSSR, Phys.-Math. Seriya, 2 (1984) 76–80, (Russian). A.E. Aliev, V.L. Komashnya, L.N. Fershtat, P.K. Khabibullaev. NMR study of rare earth fluorides. Fizika Tverdogo Tela. 25, 9 (1983) 2818–2820, (Russian). A.E. Aliev, L.N. Fershtat, P.K. Khabibullaev. Phase transitions into superionic state and acoustic properties of LaF3. Izvestiya Akademii Nauk UzSSR, Phys.-Math. Seriya, 3 (1983) 75–78, (Russian).
 * Inventor of the year 2011 by "Time" magazine.
 * Nano 50 Award in the United States, 2006: Processes for Carbon Nanotube Yarn and Sheet Fabrication, University of Texas at Dallas.
 * 2006 NanoVic Prize for Innovation in Nanotechnology from Nanotechnology Victoria, Australia.
 * Science award in Physics, 2004: State award of Republic of Uzbekistan "For  Development of Nanomaterials and Nanotechnology”, given by the Minister of Science and Technology Committee of the Republic of Uzbekistan.
 * Grand Prize for the achievements in Science, 2001: Recipient of a medal “Glory” for the achievements in Science given by Uzbekistan government.
 * Cited in Marquis book “Who’s Who in Science and Engineering” 8th (2005–2006) Edition, NJ.
 * Fellowship award by Korean Government Program and Science&Technology Policy Institute (STEPI), 1999–2000.
 * Prize (Medal and Diploma) for “Development and Design of Ultrasonic Drilling Machine” awarded on 26th International Salon in Geneva, 1998.
 * Young Scientist Award of International Union of Radio Science (URSI), General Assembly, Kyoto, Japan, 1993.

Patents: Aliev A.E., Fershtat L.N. The mean of power supply of the high temperature heater on       the base of ion conducting Zirconium oxide. N1577080. 1990. USSR. Aliev A.E. Thermo-dynamic method for defect detecting in thin wires. NT412548, 1991. USSR Aliev A.E. The remote temperature control device. N1132514. 1998. Uzbekistan. Aliev A.E., P. Chul. Electrochromic display device and it's fabrication method. No. P99-40798. 1999. LG, Korea. Aliev A.E., P. Chul. Electrochromic display device and it's fabrication method. No. P99-04850. 1999. LG, Korea. Aliev A.E., P. Chul. Electrochromic display. No. P9940800. 1999. LG, Korea. Aliev Ali E. (Kr); Kim Hui Jeong (Kr); Kim Jin Il (Kr); Kim Seong Gap (Kr); Shin Hyeon U (Kr). Method for manufacturing electrochromic device. KR2003067226, 2003, LG Electronics Inc., Korea. A.E. Aliev; H.W. Shin. Electrochromic devices and its fabrication methods using carbon nanotubes. No P0156806, 2001, LG Electronics Inc., Korea. A.E. Aliev; H.W. Shin. Patterning of solid polymer electrolyte using screen printing. No P0156811, 2001, LG Electronics Inc., Korea. M. Zhang, S. Fang, R. H. Baughman, A. A. Zakhidov, K.R Atkinson, A. E. Aliev, S. B. Lee. The Fabrication and Application of Nanofiber Ribons and Sheets and Twisted and Non-Twisted Nanofiber Yarns. U.S. Patent US2005041031, 2005. R. H. Baughman, A. E. Aliev, J, Oh, M. Kozlov, Sh. Fang, R. Ovalle-Robles, A. A. Zakhidov, Nanofiber actuators and strain amplifiers, US 9,154,058 B2 Oct. 6, 2015. Ali E. Aliev, Ray H. Baughman, Encapsulated Thermoacoustic Projector Based on Freestanding Carbon Nanotube Film, U.S. 9, 635, 468 B2 (04/25/2017); US2016/0037267 A1 (02/04/2016); WO2014152438 A2. Ali E. Aliev, Ray H. Baughman, A method and device for patterning nanomaterials. U.S. Patent Application, Feb. 2020. -->