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Beispiel für Erfindergeist: Ein Akku, der die Reichweite von Elektroautos verfünffachen wird, ist jetzt in Reichweite. Jülicher Forscher haben ein entscheidendes Hindernis für den Alltagsbetrieb einer solchen Hochleistungsbatterie, die zudem noch konkurrenzlos billig ist, beseitigt.

Beispiel für Erfindergeist: Ein Akku, der die Reichweite von Elektroautos verfünffachen wird, ist jetzt in Reichweite. Jülicher Forscher haben ein entscheidendes Hindernis für den Alltagsbetrieb einer solchen Hochleistungsbatterie, die zudem noch konkurrenzlos billig ist, beseitigt.

Palladium

Palladium

Protein 'Passport' Helps Nanoparticles Get Past Immune System    Feb. 21, 2013 — The body's immune system exists to identify and destroy foreign objects, whether they are bacteria, viruses, flecks of dirt or splinters. Unfortunately, nanoparticles designed to deliver drugs, and implanted devices like pacemakers or artificial joints, are just as foreign and subject to the same response.

Protein 'Passport' Helps Nanoparticles Get Past Immune System Feb. 21, 2013 — The body's immune system exists to identify and destroy foreign objects, whether they are bacteria, viruses, flecks of dirt or splinters. Unfortunately, nanoparticles designed to deliver drugs, and implanted devices like pacemakers or artificial joints, are just as foreign and subject to the same response.

Virus-sized particles that fluoresce in every colour could revolutionize applications from television displays to cancer treatment.

Virus-sized particles that fluoresce in every colour could revolutionize applications from television displays to cancer treatment.

The complete solar/silane cycle would involve the production of pure silicon from sand, either using solar energy or tars and bitumens. The next step is the synthesis of higher silanes. Plichta proposes to use a modified high pressure Muller-Rochow synthesis for this step. Then silanes could be burned in modified turbines and engines, or used in space propulsion systems. The fourth step is the re-cycling and re-use of the principal product of combustion, silicon nitride. ammonia residue

The complete solar/silane cycle would involve the production of pure silicon from sand, either using solar energy or tars and bitumens. The next step is the synthesis of higher silanes. Plichta proposes to use a modified high pressure Muller-Rochow synthesis for this step. Then silanes could be burned in modified turbines and engines, or used in space propulsion systems. The fourth step is the re-cycling and re-use of the principal product of combustion, silicon nitride. ammonia residue

By controlling the organic silicone coating formula of the content of curing agent and silane coupling agent, study their elastic modulus, hardness of coating materials, hydrophobicity, and the effect of water absorption and water immersion resistant performance.Results show that after the curing agent content is more than 4%, with the increase of content of curing agent, coating the elastic modulus decreased, shaw hardness increases, bibulous rate is increasing.

By controlling the organic silicone coating formula of the content of curing agent and silane coupling agent, study their elastic modulus, hardness of coating materials, hydrophobicity, and the effect of water absorption and water immersion resistant performance.Results show that after the curing agent content is more than 4%, with the increase of content of curing agent, coating the elastic modulus decreased, shaw hardness increases, bibulous rate is increasing.

Gold nanoparticle multiscale cellular networks on silicon. Thiol passivated gold nanoparticles form cellular networks when spun onto silicon from organic solvent solutions. The networks that form often incorporate many length scales, showing striking similarities with other networks that are ubiquitous in nature. Mathew Blunt, University of Nottingham (United Kingdom).

Gold nanoparticle multiscale cellular networks on silicon. Thiol passivated gold nanoparticles form cellular networks when spun onto silicon from organic solvent solutions. The networks that form often incorporate many length scales, showing striking similarities with other networks that are ubiquitous in nature. Mathew Blunt, University of Nottingham (United Kingdom).

Gold nanoparticle multiscale cellular networks on silicon. Thiol passivated gold nanoparticles form cellular networks when spun onto silicon from organic solvent solutions. The networks that form often incorporate many length scales, showing striking similarities with other networks that are ubiquitous in nature. Mathew Blunt, University of Nottingham (United Kingdom).

Gold nanoparticle multiscale cellular networks on silicon. Thiol passivated gold nanoparticles form cellular networks when spun onto silicon from organic solvent solutions. The networks that form often incorporate many length scales, showing striking similarities with other networks that are ubiquitous in nature. Mathew Blunt, University of Nottingham (United Kingdom).

Graphene nano fabric  University of Manchester  National Graphine Institute Single layer of carbon atoms. Thinnest strongest most conductive known material. Flexible.  http://www.graphene.manchester.ac.uk/ http://www.condmat.physics.manchester.ac.uk/imagelibrary/ http://en.m.wikipedia.org/wiki/Graphene

Graphene nano fabric University of Manchester National Graphine Institute Single layer of carbon atoms. Thinnest strongest most conductive known material. Flexible. http://www.graphene.manchester.ac.uk/ http://www.condmat.physics.manchester.ac.uk/imagelibrary/ http://en.m.wikipedia.org/wiki/Graphene