Sustainable Nanotechnology. Группа авторов. Читать онлайн. Newlib. NEWLIB.NET

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Издательство: John Wiley & Sons Limited
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isbn: 9781119650317
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for energy conversion and storage. Journal of Materials Chemistry A 6 (44): 21827–21846.

      44 44 Adesina, A. (2020). Nanomaterials in cementitious composites: review of durability performance. Journal of Building Pathology and Rehabilitation 5 (1): 1–9.

      45 45 Peyvandi, A., Soroushian, P., Farhadi, N., and Balachandra, A.M. (2018). Evaluation of the reinforcement efficiency of low‐cost graphite nanomaterials in high‐performance concrete. KSCE Journal of Civil Engineering 22 (10): 3875–3882.

      46 46 Kwalramani, M.A. and Syed, Z.I. (2018). Application of nanomaterials to enhance microstructure and mechanical properties of concrete. International Journal of Integrated Engineering 10 (2): 98–104.

      47 47 Ugwu, O.O., Arop, J.B., Nwoji, C.U., and Osadebe, N.N. (2013). Nanotechnology as a preventive engineering solution to highway infrastructure failures. Journal of Construction Engineering and Management 139 (8): 987–993.

      48 48 Sev, A. and Ezel, M. (2014). Nanotechnology innovations for the sustainable buildings of the future. World Academy of Science, Engineering and Technology International Journal of Civil, Environmental, Structural, Construction and Architectural Engineering 8 (8): 886–896.

      49 49 Oke, A.E., Aigbavboa, C.O., and Semenya, K. (2017). Energy savings and sustainable construction: examining the advantages of nanotechnology. Energy Procedia 142: 3839–3843.

      50 50 Yapar, E.A. and İNAL, Ö. (2012). Nanomaterials and cosmetics. İstanbul ÜniversitesiEczacılıkFakültesiDergisi 42 (1): 43–70.

      51 51 Srinivas, K. (2016). The current role of nanomaterials in cosmetics. Journal of Chemical and Pharmaceutical Research 8 (5): 906–914.

      52 52 Masunaga, T. (2014). Nanomaterials in cosmetics‐‐present situation and future. Yakugakuzasshi: Journal of the Pharmaceutical Society of Japan 134 (1): 39.

      53 53 Cao, M., Li, J., Tang, J. et al. (2016). Gold nanomaterials in consumer cosmetics nanoproducts: analyses, characterization, and dermal safety assessment. Small 12 (39): 5488–5496.

      54 54 Bilal, M. and Iqbal, H. (2020). New insights on unique features and role of nanostructured materials in cosmetics. Cosmetics 7 (2): 24.

      55 55 Gajbhiye, S. and Sakharwade, S. (2016). Silver nanoparticles in cosmetics. Journal of Cosmetics, Dermatological Sciences and Applications 6 (1): 48–53.

      56 56 Shalaby, M.N. and Saad, M.M. (2020). Advanced material engineering and nanotechnology for improving sports performance and equipment. International Journal of Psychosocial Rehabilitation 24 (10): 2314–2322.

      57 57 Mathew, J., Joy, J., and George, S.C. (2019). Potential applications of nanotechnology in transportation: a review. Journal of King Saud University‐Science 31 (4): 586–594.

      58 58 Lloyd, S.M. and Lave, L.B. (2003). Life cycle economic and environmental implications of using nanocomposites in automobiles. Environmental Science & Technology 37 (15): 3458–3466.

      59 59 Aithal, P.S. and Aithal, S. (2016). Nanotechnological innovations & business environment for Indian automobile sector: a futuristic approach. International Journal of Scientific Research and Modern Education (IJSRME) 1 (1): 296–307.

      60 60 Wallner, E., Sarma, D.H.R., Myers, B., et al. (2010). Nanotechnology applications in future automobiles (No. 2010‐01‐1149). SAE Technical Paper. pp. 1–12. DOI: https://doi.org/10.4271/2010‐01‐1149.

      61 61 Gurjar, B.S. and Tyagi, P. (2015). Applications of nanotechnology in automobile industry for efficiency enhancement and energy saving‐a review. International Journal of Interdisciplinary Research 2 (3): 1–7.

      62 62 Shafique, M. and Luo, X. (2019). Nanotechnology in transportation vehicles: an overview of its applications, environmental, health and safety concerns. Materials 12 (15): 2493.

      63 63 Krishnan, A., Shandilya, S., Balasubramanya, H.S., and Gupta, P. (2020). A review on applications of carbon nanotubes in automobiles. International Journal of Mechanical Engineering and Technology 11 (1): 204–210.

      64 64 Contado, C. (2015). Nanomaterials in consumer products: a challenging analytical problem. Frontiers in chemistry 3 (48): 1–20.

      65 65 Hansen, S.F., Baun, A., Michelson, E.S. et al. (2009). Nanomaterials in consumer products. In: Nanomaterials: Risks and Benefits (eds. I. Linkov and J. Steevens), 359–367. Dordrecht: Springer.

      66 66 Vance, M.E., Kuiken, T., Vejerano, E.P. et al. (2015). Nanotechnology in the real world: redeveloping the nanomaterial consumer products inventory. Beilstein Journal of Nanotechnology 6 (1): 1769–1780.

      67 67 Pak, Y.E. (2001). MEMS and nanotechnology research for the electronics industry. In: Smart Structures and Materials 2001: Smart Electronics and MEMS, vol. 4334 (ed. V.K. Varadan), 23–29. International Society for Optics and Photonics.

      68 68 Wu, W. (2017). Inorganic nanomaterials for printed electronics: a review. Nanoscale 9 (22): 7342–7372.

      69 69 Moghaddam, H.K., Maraki, M.R., and Rajaei, A. (2020). Application of carbon nanotubes (CNT) on the computer science and electrical engineering: a review. International Journal of Reconfigurable and Embedded Systems 9 (1): 61–82.

      70 70 Tyagi, M. and Tyagi, D. (2014). Polymer nanocomposites and their applications in electronics industry. International Journal of Electronic and Electrical Engineering 7 (6): 603–608.

      71 71 Vargas‐Bernal, R., Herrera‐Pérez, G., and Tecpoyotl‐Torres, M. (2019). The impact of carbon nanotubes and graphene on electronics industry. In: Advanced Methodologies and Technologies in Digital Marketing and Entrepreneurship (ed. M. Khosrow‐Pour), 382–394. IGI Global.

      72 72 Anuhya, K.H. and Eunice, T.G. (2016). Potential impact of nanomaterials in information and communication technologies. Indian Journal of Research in Pharmacy and Biotechnology 4 (6): 267–270.

      73 73 Kardanmoghaddam, H., Maraki, M., and Rajaei, A. (2020). Graphene‐reinforced polymeric nanocomposites in computer and electronics industries. FactaUniversitatis, Series: Electronics and Energetics 33 (3): 351–378.

      74 74 Chen, X., Akinwande, D., Lee, K.J. et al. (2010). Fully integrated graphene and carbon nanotube interconnects for gigahertz high‐speed CMOS electronics. IEEE Transactions on Electron Devices 57 (11): 3137–3143.

      75 75 Ahn, E.C., Wong, H.S.P., and Pop, E. (2018). Carbon nanomaterials for non‐volatile memories. Nature Reviews Materials 3 (3): 1–15.

      76 76 Le Ferrand, H., Chabi, S., and Agarwala, S. (2020). 3D assembly of graphene nanomaterials for advanced electronics. Advanced Intelligent Systems 2 (5): 1–16.

      77 77 Thomas, S.P., Al‐Mutairi, E.M., and De, S.K. (2013). Impact of nanomaterials on health and environment. Arabian Journal for Science and Engineering 38 (3): 457–477.

      78 78 Wacker, M.G. (2014). Nanotherapeutics—product development along the “nanomaterial” discussion. Journal of Pharmaceutical Sciences 103 (3): 777–784.

      79 79 Schulte, P.A., Geraci, C.L., Murashov, V. et al. (2014). Occupational safety and health criteria for responsible development of nanotechnology. Journal of Nanoparticle Research 16 (2153): 1–17.

      80 80 Gopi, S., Amalraj, A., and Thomas, S. (2016). Effective drug delivery system of biopolymers based on nanomaterials and hydrogels—a review. Drug Desigining 5 (129): 2169–0138.

      81 81 Liang, X.J., Chen, C., Zhao, Y. et al. (2008). Biopharmaceutics and therapeutic potential of engineered nanomaterials. Current Drug Metabolism 9 (8): 697–709.

      82 82 Arepalli, S. and Moloney, P. (2015). Engineered nanomaterials in aerospace. MRS Bulletin 40 (10): 804–811.

      83 83 Rizakhanov, R.N., Polyanskiy, M.N., Malinovskaya, O.S., and Tsvetkova, E.V. (2012). CVD facility for the formation of carbon nanomaterials on a space station board. Fullerenes, Nanotubes and Carbon Nanostructures 20 (4–7): 482–486.

      84 84 Haynes, H. and Asmatulu, R. (2013). Nanotechnology safety in the aerospace industry. In: Nanotechnology Safety (ed. R. Asmatulu), 85–97. Elsevier.

      85 85