نوع مقاله : مقاله پژوهشی
نویسندگان
1 مدرس دانشگاه حضرت امیرالمومنین (ع)، اصفهان، ایران
2 مدرس دانشگاه حضرت امیرالمومنین (ع)، اصفهان.
3 باشگاه پژهشگران جوان و نخبگان، دانشگاه آزاد اسلامی، مرند، ایران
چکیده
کلیدواژهها
عنوان مقاله [English]
نویسندگان [English]
Nanotechnology is a general term used to refer to all advanced technologies in the supply of nanoscale work. The design of the systems used in missile monitoring has been improved and the combination of nanotechnology and microelectromechanical control provides advanced missile defense systems. Use in satellites, ships, submarines, fire engines, detection of new warfare agents, bionuclear tools, computers and very small robots, nanocatalysts, carbon nanotubes, graphene, assemblers and self-replicators, nanocomposites, magnetic nanoparticles (magnetic power nanostructures) Aerogels, nanobots in cells, etc. are other applications of military nanotechnology. The dangers of nanotechnology include a wide range of environmental pollution and increased labor imbalances and displacements, particulate matter, secondary hazards of nanoassemblers and replicators, artificial intelligence with human capability, robotics industries from nanoscale to macroscale, automated products and nano-tools in the body Man used to include. From the point of view of international security, considering the new dangers that arise for the control of weapons and international laws of war, the endangerment of stability by arms racing and its expansion and the dangers that this technology poses to humans and the environment are also noteworthy. In this article, first nanotechnology is introduced and then scientific research for its use in the military field, potential military applications, chemical, microbial and nuclear weapons, nanotechnology, protective capabilities of molecular nanotechnology, international system approach to the limitations of nanotechnology in the military Along with suggestions for controlling military nanotechnology weapons.
کلیدواژهها [English]
الف- منابع فارسی
ب – منابع انگلیسی
- Anselmo AC, Modery - Pawlowski CL, Menegatti S, Kumar S, Vogus DR, Tian LL, et al, (2014).Platelet - like nanoparticles: mimicking shape, flexibility, and surface biology of platelets to target vascular injuries. Acs Nano; 8(11): 11243 – 53.
- Archana D, Dutta J, Dutta P, (2013). Evaluation of chitosan nano dressing for wound healing: Characterization, in vitro and in vivo studies.International journal of biological macromolecules;57:193-203.
- Bai MY, Chou TC, Tsai JC, Yu WC, (2014). The effect of active ingredient‐containing chitosan/polycaprolactone nonwoven mat on wound healing: In vitro and in vivo studies.Journal of Biomedical Materials Research Part A;102(7):2324-33.
- Bonča,Janez;Kruchinin,Sergei, (2015).Nanotechnology in the Security Systems. Springer
- Choo, H. Jung, Y., Jeong, Y., Kim, H. and Ku, B, (2012). Fabrication and Application of Carbon Nanotube Fiber., Carbon Letters, 13(4), September, pp. 191-204.
- Chou, Hsun-Wen, (2008).Nanotoxicology: From Nano Titanium Dioxide Particle Size Effect on Ceriodaphnia Dubia to Death Mechanism. ProQuest, p. 39.
- Dana, David A, (2011). The Nanotechnology Challenge: Creating Legal Institutions for Uncertain Risks.Cambridge University Press, p. 286.
- Diamond D, Coyle S, Scarmagnani S et al, (2008).Wireless sensor networks and chemo-/ biosensing. Chem. Rev 108(2):652–679
- Fitzgerald RH, Bharara M, Mills JL, Armstrong DG, (2009). Use of a Nanoflex powder dressing for wound management following debridement for necrotising fasciitis in the diabetic foot. International Wound Journal; 6 (2): 133 – 139
- Kong, J., Franklin, N.R., Zhou, C., Chapline, M.G., Peng, S., Cho, K., Dai, H, (2000).Nanotubes Molecular Wires as Chemical Sensors. Science. Vol.287 (5453), pp.622–625.
- Kosal. E, Margaret, (2009). Anticipating the Biological Proliferation Threat of Nanotechnolgy: Challenges for International Arms Control Regimes.
- Krishna, Kant, (2010). Computer-Based Industrial Control. 2/e, PHI Learning Pvt. Ltd.
- Lansdown, Alan B. G. The Carcinogenicity of Metals: Human Risk through Occupational and Environmental Exposure. Royal Society of Chemistry, 2013, p. 338.
- Lin, Patrick, (2007).Nanotechnology Bound: Evaluating the Case for More Regulation. in NanoEthics, Springer Publication, p. 106.
- Martins- Júnior P, Alcântara C, Resende R, Ferreira A, (2013). Carbon nanotubes directions and perspectives in oral regenerative medicine. Journal of dental research.
- Nasu, Hitoshi, (2014).Nanotechnology and the Law of Armed Conflict. in New Technologies and the Law of Armed Conflict, Springer Publication.
- Plows, Alexandra and Reinsborugh, Michael, (2008).Nanobiotechnology and Ethics: Converging Civil Society Discourses.
- Ramsden, J.J. and Freeman, J, (2009).The nanoscale. Nanotechnol. Perceptions (5) 3–25
- Rafiee, M.A. et al, (2010).Fracture and fatigue in graphene nanocomposites. Small (6) 179–183
- Singh, S, (2007).Sensors an Effective Approach for the Detection of Explosives. J. Hazard. Materials, 144, 15-28
- Stark, A, (2012). New military apparel repels chemical and biological agents. On the WWW, at http:// 2Twww.llnl.gov/news/newsreleases.Oct/NR-12-10-06.html2T.
- Stout SC, Larsen SC, Grassian VH, (2007). Adsorption, desorption and thermal oxidation of 2-CEES on nanocrystalline zeolites. Microporous Mesoporous Mater. 100(1–3):77–86.
- Wei G - J, Yao M, Wang Y - S, Zhou C-W, Wan D - Y, Lei P – Z, (2013).Promotion of peripheral nerve regeneration of a peptide compound hydrogel scaffold. International journal of nanomedicine; 8: 3217
- Yunbin Song; (2002). Optical Communication Systems for Smart Dust. Virginia Polytechnic Institute and State University.