Obor: Bezpečnostní a strategická studia
Yüklə 0,97 Mb.
|
7.4Webové stránkyAir force research laboratory (AFOSR) [online]. 2013a. Energy, Power and Propulsion (RTE). [cit. 2014-04-10]. Dostupné z: http://www.wpafb.af.mil/library/factsheets/factsheet.asp?id=20371 Air force research laboratory [online]. 2013b. Dynamical Systems and Control (RTA). [cit. 2014-04-10]. Dostupné z: http://www.wpafb.af.mil/library/factsheets/factsheet.asp?id=9196 Air force research laboratory [online]. 2013c. Complex Material and Devices (RTD). [cit. 2014-04-10]. Dostupné z: http://www.wpafb.af.mil/library/factsheets/factsheet_print.asp?fsID=20370&page=1 Armed with science [online]. 2014. Self healing paint. [cit. 2014-04-26]. Dostupné z: http://science.dodlive.mil/2014/04/24/self-healing-paint/ Boysen, Earl. 2014. Nanotechnology in Solar Cells. Understanding nano.com [online]. [cit. 2014-04-10]. Dostupné z: http://www.understandingnano.com/solarcells.html European commission [online]. 2013. Questions and answers. [cit. 2013-12-10]. Dostupné z: http:http://ec.europa.eu/environment/chemicals/nanotech/faq/questions_answers_en.htm#3 National nanotechnology initiative [online]. 2013a. What’s so special about the nanoscale. [cit. 2013-12-10]. Dostupné z: http://ec.europa.eu/environment/chemicals/nanotech/faq/questions_answers_en.htm#3 National nanotechnology initiative [online]. 2013a. What’s so special about the nanoscale. [cit. 2013-12-10]. Dostupné z: http://www.nano.gov/nanotech-101/special National nanotechnology initiative [online]. 2013b. Frequently asked questions. [cit. 2013-12-10]. Dostupné z: http://www.nano.gov/nanotech-101/nanotechnology-facts Institute for soldier nanotechnologies (ISN) [online]. 2014a. Project 2.1.1: Nanotechnology for Stimulating, Sampling, and Monitoring Immunity. [cit. 2014-04-10]. Dostupné z: http: http://web.mit.edu/isn/research/sra02/project02_01_01.html Institute for soldier nanotechnologies [online]. 2014b. Project 4.1.3: Rugged, High Sensitivity, Integrated, Photonic Chemical Sensing. [cit. 2014-04-10]. Dostupné z: http://web.mit.edu/ISN/research/sra04/project04_01_03.html Institute for soldier nanotechnologies [online]. 2014c. Project 1.3.2: Responsive Surface Texturing and Coloring. [cit. 2014-04-10]. Dostupné z: http://web.mit.edu/isn/research/sra01/project01_03_02.html Institute for soldier nanotechnologies [online]. 2014d. Project 1.4.1: Tailored Nano-particles for Obscurant Applications. [cit. 2014-04-10]. Dostupné z: http://web.mit.edu/ISN/research/sra01/project01_04_01.html Institute for soldier nanotechnologies [online]. 2014e. Project 1.3.3: Enabling Architectures and Technologies for Next-Generation Fiber Devices. [cit. 2014-04-10]. Dostupné z: http://web.mit.edu/ISN/research/sra01/project01_03_03.html Institute for soldier nanotechnologies [online]. 2014f. Project 5.2.1: Multifunctional Integrated Fabrics. [cit. 2014-04-10]. Dostupné z: http://web.mit.edu/isn/research/sra05/project05_02_01.html Institute for soldier nanotechnologies [online]. 2014g. Project 5.1.1: Ferroelectric Acoustic Fibers. [cit. 2014-04-10]. Dostupné z: http://web.mit.edu/ISN/research/sra05/project05_01_01.html Institute for soldier nanotechnologies [online]. 2014h. Project 3.2.1: Layered /Graded Nanocrystalline & Superelastic-Fiber Alloys for Lightweight Protection. [cit. 2014-04-10]. Dostupné z: http://web.mit.edu/isn/research/sra03/project03_02_01.html Institute for soldier nanotechnologies [online]. 2014ch. Project 3.5.1: Biological and Bio-inspired Reconfigurable Flexible & Protective Joints. [cit. 2014-04-10]. Dostupné z: http://web.mit.edu/ISN/research/sra03/project03_05_01.html Institute for soldier nanotechnologies [online]. 2014i. Project 3.5.2: Design and Synthesis of Carbon-based Chainmaille Structures for Flexible, Ultra-lightweight Protection. [cit. 2014-04-10]. Dostupné z: http://web.mit.edu/ISN/research/sra03/project03_05_02.html Institute for soldier nanotechnologies [online]. 2014j. Project 2.3.1: Nano-structured Biomaterials for Treatment of Hemorrhagic Shock. [cit. 2014-04-10]. Dostupné z: http://web.mit.edu/isn/research/sra02/project02_03_01.html Institute for soldier nanotechnologies [online]. 2014k. Project 2.3.2: Multi-component Nanolayer Assemblies for Soldier Wound Healing. [cit. 2014-04-10]. Dostupné z: http://web.mit.edu/isn/research/sra02/project02_03_02.html Institute for soldier nanotechnologies [online]. 2014l. Project 2.3.4: Complementary Wound-Healing Strategies Enabled by Synthetic Biology and Nanotechnology. [cit. 2014-04-10]. Dostupné z: http://web.mit.edu/isn/research/sra02/project02_03_04.html Institute for soldier nanotechnologies [online]. 2014m. Project 2.3.3: Delivery of Brain Lipid Nanoparticles Using Microtech Devices for Treatment of Traumatic Brain Injury. [cit. 2014-04-10]. Dostupné z: http://web.mit.edu/isn/research/sra02/project02_03_03.html. Institute for soldier nanotechnologies [online]. 2014n. Project 2.2.1: Rapid Reconstitution Packages of Lyophilized Medicines. [cit. 2014-04-10]. Dostupné z: http: http://web.mit.edu/isn/research/sra02/project02_02_01.html Institute for soldier nanotechnologies [online]. 2014o. Project 5.2.2: Enabling Novel Lightwave Phenomena. [cit. 2014-04-10]. Dostupné z: http://web.mit.edu/ISN/research/sra05/project05_02_02.html Institute for soldier nanotechnologies [online]. 2014p. Project 1.1.1: Hybrid Quantum Dot-Based Imagers and Emitters with Broadly Tunable Spectral Characteristics. [cit. 2014-04-10]. Dostupné z: http://web.mit.edu/ISN/research/sra01/project01_01_01.html Institute for soldier nanotechnologies [online]. 2014q. Project 4.1.1: Graphene Sensing for Detection of Foodborne and Other Pathogens. [cit. 2014-04-10]. Dostupné z: http://web.mit.edu/ISN/research/sra04/project04_01_01.html Institute for soldier nanotechnologies [online]. 2014r. Project 4.1.2: Resistivity-Based Microfluidic Biosensing. [cit. 2014-04-10]. Dostupné z: http://web.mit.edu/ISN/research/sra04/project04_01_02.html Institute for soldier nanotechnologies [online]. 2014s. Project 1.2.1: Graphene Devices for Next-Generation Night Vision Systems. [cit. 2014-04-10]. Dostupné z: http://web.mit.edu/ISN/research/sra01/project01_02_01.html Institute for soldier nanotechnologies [online]. 2014t. Project 5.2.3: Spatial Awareness Around Corners. [cit. 2014-04-10]. Dostupné z: http://web.mit.edu/ISN/research/sra05/project05_02_03.html PhysOrg. 2013. Graphene nanoribbons an ice-melting coat for radar [online]. [cit. 2014-04-04]. Dostupné z:http://phys.org/news/2013-12-graphene-nanoribbons-ice-melting-coat-radar.html PhysOrg. 2014a. Researchers make breakthrough in battery technology. PhysOrg [online]. [cit. 2014-04-04]. Dostupné z: http://phys.org/news/2014-02-breakthrough-battery-technology.html PhysOrg. 2014b. New 'pomegranate-inspired' design solves problems for lithium-ion batteries. PhysOrg [online]. [cit. 2014-04-04]. Dostupné z: http://phys.org/news/2014-02-pomegranate-inspired-problems-lithium-ion-batteries.html PhysOrg. 2014c. Graphene's love affair with water [online]. [cit. 2014-04-04]. Dostupné z: http://phys.org/news/2014-02-graphene-affair.html PhysOrg. 2014d. Self-cleaning, antireflective coating mimicks the structure of moth eyes [online]. [cit. 2014-04-04]. Dostupné z: http://phys.org/news/2014-02-self-cleaning-antireflective-coating-mimicks-moth.html Povovic, Milos a Laura Snyder. 2013. CU, MIT breakthrough in photonics could allow for faster and faster electronics. University of Colorado Boulder [online]. [cit. 2014-04-04]. Dostupné z: http://www.colorado.edu/news/releases/2013/09/30/cu-mit-breakthrough-photonics-could-allow-faster-and-faster-electronics
Trafton, Anne. 2010. Iron-plated snail could inspire new armor. Massachusetts Institute of Technology [online]. [cit. 2014-04-10]. Dostupné z: http://newsoffice.mit.edu/2010/snail-shell United States Naval Research Laboratory (NRL) [online]. 2013a. Organic and Biologically Conjugated Luminescent Quantum Dots. [cit. 2014-04-10]. Dostupné z: http://www.nrl.navy.mil/nanoscience/quantumdots.php United States Naval Research Laboratory [online]. 2013b. Neural Electronic Interfaces Retinal Prosthesis A Nano-Channel Glass Electrode Array. [cit. 2014-04-10]. Dostupné z: http://www.nrl.navy.mil/nanoscience/neural_overview.php United States Naval Research Laboratory [online]. 2013c. Coherence, Correlation and Control in Nanostructures. [cit. 2014-04-10]. Dostupné z: http://www.nrl.navy.mil/nanoscience/cccnanostruct.php United States Naval Research Laboratory [online]. 2013d. Assembly of Laterally Coupled Molecular Nanostructures. [cit. 2014-04-10]. Dostupné z: http://www.nrl.navy.mil/nanoscience/latmolenano.php United States Naval Research Laboratory [online]. 2013e. Nanoelectronics Physics Research. [cit. 2014-04-10]. Dostupné z: http://www.nrl.navy.mil/nanoscience/nanoelecphys.php United States Naval Research Laboratory [online]. 2013f. Nanoscale Measurement Techniques. [cit. 2014-04-10]. Dostupné z: http://www.nrl.navy.mil/nanoscience/nanomeastech.php United States Naval Research Laboratory [online]. 2013g. Assembly of Laterally Coupled Molecular Nanostructures. [cit. 2014-04-10]. Dostupné z: http://www.nrl.navy.mil/nanoscience/latmolenano.php United States Naval Research Laboratory [online]. 2013h. Organic and Biologically Conjugated Luminescent Quantum Dots. [cit. 2014-04-10]. Dostupné z: http://www.nrl.navy.mil/nanoscience/quantumdots.php United States Naval Research Laboratory [online]. 2013ch. Integration of Nanostructured Light Emitting Devices. [cit. 2014-04-10]. Dostupné z: http://www.nrl.navy.mil/nanoscience/lightemitting.php United States Naval Research Laboratory [online]. 2013i. Nano-Engineered Photovoltaic Devices. [cit. 2014-04-10]. Dostupné z: http://www.nrl.navy.mil/nanoscience/photovoltaic.php United States Naval Research Laboratory [online]. 2013j. Nanofilaments: Interfacial, Interactions, Manipulation and Assembly. [cit. 2014-04-10]. Dostupné z: http://www.nrl.navy.mil/nanoscience/nanofilaments.php U.S. Army Research, Development and Engineering Command (NSRDEC) [online]. 2006. Antimicrobial Technologies for the Warfighter [cit. 2014-04-10]. Dostupné z: http://nsrdec.natick.army.mil/media/fact/individual/Antimicrobial.htm U.S. Army Research, Development and Engineering Command [online]. 2009. Polymer Nanocomposites for Packaging Applications [cit. 2014-04-10]. Dostupné z: http://nsrdec.natick.army.mil/media/fact/food/PolyNano.htm Yüklə 0,97 Mb. Dostları ilə paylaş:
|