Results for technologies (5)
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Radiation Curing Enhancement by Semiconducting Nanoparticles (No. T4-2215)
The curing of polymers by UV light is of great technological importance in, for example, dentistry, advanced manufacturing (3D printing), and various applications such as manufacturing of optical media, biotechnology, and more.
Cationic photo-cured thermosetting polymers, like epo...
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17678
Inorganic Nanotubes/Polymer Composites for 3D Printing (No. T4-1900)
Biocompatible polymers commonly used in the orthopedic and cosmetic prosthetics, cardiovascular and dental implants and food packaging industries often suffer from poor mechanical properties and thermal stability, limited dimensionality and short shelf-life as compared to their metal compara...
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5737
Inertial NEMS for Nanosensor Applications Based on Inorganic Nanotubes (No. T4-1828)
Inertial sensors for motion detection are being incorporated into an increasing number of portable devices, including diverse IoT applications, mobile phones, wearable electronics, automotive systems and medical diagnostic sensors.
Current microelectromechanical system (MEMS) fabr...
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5674
Inorganic Fullerene Coating For Medical Devices (No. T4-1566)
Implantable or insertable medical devices must be made of materials with unique properties in addition to biocompatibility to address potential damage from the physiological environment and to maintain their effectiveness over time.
Implantable or insertable medical devices must b...
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5521
Conductive Inorganic Fullerenes and Nanotubes (No. T4-1482)
Modification of the electronic properties of layered-type semiconductors can be accomplished by doping/alloying of the semiconductor.
Catalytic processes for energy storage and sulfur free gasoline.Polymer nanocomposites for packaging Electromagnetic shielding.Conductive glues/adh...
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5485