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Man in court after robbing Poundland store armed with axe before crashing car

Man in court after robbing Poundland store armed with axe before crashing car
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City ofUnited kingdomDaniel odriscollBristol magistrate court onCrown court onBristol crown courtSomerset policeFour acresBristol magistrate courtCrown courtBedminster downBristol newsAvon and somerset constabulary

Suspect charged with Bristol Poundland armed robbery is named by police

Suspect charged with Bristol Poundland armed robbery is named by police
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Researchers Develop New Graphene-based Sensor Technology for Wearable Medical Devices

Researchers Develop New Graphene-based Sensor Technology for Wearable Medical Devices Researchers at AMBER, the SFI Centre for Advanced Materials and BioEngineering Research, and from Trinity’s School of Physics, have developed next-generation, graphene-based sensing technology using their innovative G-Putty material. The team’s printed sensors are 50 times more sensitive than the industry standard and outperform other comparable nano-enabled sensors in an important metric seen as a game-changer in the industry: flexibility. Maximising sensitivity and flexibility without reducing performance makes the teams’ technology an ideal candidate for the emerging areas of wearable electronics and medical diagnostic devices. The team – led by Professor Jonathan Coleman from Trinity’s School of Physics, one of the world’s leading nanoscientists – demonstrated that they can produce a low-cost, printed, graphene

Jonathan colemanDaniel odriscollTrinity school of physicsEuropean research council proof of conceptCentre for advanced materialsAdvanced materialsBioengineering researchProfessor jonathan colemanDanielo driscollEuropean research council proofஜொனாதன் கோல்மேன்திரித்துவம் பள்ளி ஆஃப் இயற்பியல்ஐரோப்பிய ஆராய்ச்சி சபை ப்ரூஃப் ஆஃப் கருத்துஉயிர் பொறியியல் ஆராய்ச்சிப்ரொஃபெஸர் ஜொனாதன் கோல்மேன்ஐரோப்பிய ஆராய்ச்சி சபை ப்ரூஃப்

Graphite-Based Sensor Technology Improves Wearable Medical Devices

iStock Researchers at AMBER, the SFI Centre for Advanced Materials and BioEngineering Research, and from Trinity s School of Physics, have developed next-generation, graphene-based sensing technology using their innovative G-Putty material. The team s printed sensors are 50 times more sensitive than the industry standard and outperform other comparable nano-enabled sensors in an important metric seen as a game-changer in the industry: flexibility. Maximizing sensitivity and flexibility without reducing performance makes the teams technology an ideal candidate for the emerging areas of wearable electronics and medical diagnostic devices. The team - led by Professor Jonathan Coleman from Trinity s School of Physics, one of the world s leading nanoscientists - demonstrated that they can produce a low-cost, printed, graphene nanocomposite strain sensor.

Jonathan colemanDaniel odriscollTrinity school of physicsEuropean research council proof of conceptCentre for advanced materialsAdvanced materialsBioengineering researchProfessor jonathan colemanDanielo driscollEuropean research council proofஜொனாதன் கோல்மேன்திரித்துவம் பள்ளி ஆஃப் இயற்பியல்ஐரோப்பிய ஆராய்ச்சி சபை ப்ரூஃப் ஆஃப் கருத்துஉயிர் பொறியியல் ஆராய்ச்சிப்ரொஃபெஸர் ஜொனாதன் கோல்மேன்ஐரோப்பிய ஆராய்ச்சி சபை ப்ரூஃப்

G-Putty inks tailored for flexible strain sensors

6th May 2021 10:53 am 6th May 2021 10:53 am Researchers in Ireland have developed a low-cost strain sensor made from a printable graphene nanocomposite that combines high sensitivity and flexibility without reducing performance. G-putty based inks can be printed as a thin-film onto elastic substrates, including plasters, and attached easily to the skin (Image: Trinity College Dublin) The team from Trinity College Dublin have created the next generation sensing technology using so-called G-Putty, an innovation from Trinity in which putty (polysilicone, found in children’s toy ‘silly putty’) is infused with graphene, making the material’s electrical resistance extremely sensitive to slight deformations.

Jonathan colemanDaniel odriscollTrinity school of physicsTrinity college dublinEuropean research council proof of conceptProfessor jonathan colemanProfessor colemanTrinity schoolEuropean research council proofஜொனாதன் கோல்மேன்திரித்துவம் பள்ளி ஆஃப் இயற்பியல்திரித்துவம் கல்லூரி டப்ளின்ஐரோப்பிய ஆராய்ச்சி சபை ப்ரூஃப் ஆஃப் கருத்துப்ரொஃபெஸர் ஜொனாதன் கோல்மேன்ப்ரொஃபெஸர் கோல்மேன்திரித்துவம் பள்ளி