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'Salmon Wars' episode 5: The crime

'Salmon Wars' episode 5: The crime
opb.org - get the latest breaking news, showbiz & celebrity photos, sport news & rumours, viral videos and top stories from opb.org Daily Mail and Mail on Sunday newspapers.

United-states , Cascade-locks , Oregon , Environmental-protection-agency , District-of-columbia , Oregon-state-university , Dalles-dam , Washington , Northwest-fisheries-science-center , Snake-river , Portland , Idaho

Graphene-based nanocoating to convert heat into electrical energy - News and insights for the European coatings industry

Researchers found that the use of highly conductive graphene layers for thermoelectric energy capture is a promising approach to convert heat into electrical energy, gaining new insights into how to best utilise the conductivity in graphene-based nanomaterials.

Keiran-clifford , Sean-ogilvie , University-of-sussex , Materials-physics , Functional-coatings ,

'Salmon Wars' episode 4: The salmon's struggle

'Salmon Wars' episode 4: The salmon's struggle
opb.org - get the latest breaking news, showbiz & celebrity photos, sport news & rumours, viral videos and top stories from opb.org Daily Mail and Mail on Sunday newspapers.

United-states , Washington , Stanley-rock , Oregon , Alaska , California , Columbia-river , Toppenish , Dalles-dam , Alaskans , Zach-penney , Lonnie-selam

'Salmon Wars' bonus episode: LiaDonna Lopez Whitefoot

'Salmon Wars' bonus episode: LiaDonna Lopez Whitefoot
opb.org - get the latest breaking news, showbiz & celebrity photos, sport news & rumours, viral videos and top stories from opb.org Daily Mail and Mail on Sunday newspapers.

Columbia-river , Washington , United-states , Toppenish , Alaska , Grand-coulee , Thomas-jefferson , Kele-goodwin , Liadonna-lopez-whitefoot , Sean-ogilvie , Julie-sabatier , Tony-schick

Researchers discover how "explosive percolation" turns GO paint extremely conductive

University of Sussex scientists, along with teams from Spain's Instituto de Carboquímica (ICB-CSIC) and Instituto de Nanociencia de Aragon (INA), UK's University of Brighton, France's Institut des Materiaux Nantes Jean Rouxel and Rice University in the U.S, have demonstrated how a conductive paint coating that they have developed mimics the network spread of a virus through a process called 'explosive percolation'—a mathematical process which can also be applied to population growth, financial systems and computer networks, but which has not been seen before in materials systems. The process of percolation—the statistical connectivity in a system, such as when water flows through soil or through coffee grounds—is an important component in the development of liquid technology. And it was that process which the research group was expecting to see when they added graphene oxide to polymer latex spheres, such as those used in emulsion paint, to make a polymer composite. However, when the team heated the graphene oxide to make it electrically conductive, the scientists kick-started a process that saw this conductive system grow exponentially, to the extent that the new material created consumed the network, similar to the way a new strain of a virus can become dominant.

Brighton , Brighton-and-hove , United-kingdom , Sussex , East-sussex , France , Spain , Sean-ogilvie , Jean-rouxel , Alan-dalton , University-of-brighton , University-of-sussex

Highly-Conductive Polymer Nanocomposites Mimic Virus Spread Through 'Explosive Percolation'

In new research published in Nature Communications, University of Sussex scientists demonstrate how a highly conductive paint coating that they have developed mimics the network spread of a virus through a process called 'explosive percolation' – a mathematical process which can also be applied to population growth, financial systems and computer networks, but which has not been seen before in materials systems.

Sean-ogilvie , Laura-thomsondec , Alan-dalton , Nature-communications , University-of-sussex , Materials-physics-group , Professor-dalton-materials-physics-group , University-of-sussex-material-physics , Sussex-material-physics , Experimental-physics , Electric-vehicle , Industry-focus

Significant advancements made in liquid electronics

Significant advancements made in liquid electronics
globalspec.com - get the latest breaking news, showbiz & celebrity photos, sport news & rumours, viral videos and top stories from globalspec.com Daily Mail and Mail on Sunday newspapers.

Sean-ogilvie , University-of-sussex-school-mathematical , University-of-sussex ,

Atomically-Thin Graphene Coatings to Transform Liquid Electronics

A new study from physicists at the University of Sussex will “significantly advance” the new technology domain of liquid electronics, improving the functionality and sustainability of probable applications in wearable health monitors, printed electronics, and even batteries.

Sean-ogilvie , Alan-dalton , University-of-sussex-school-mathematical , University-of-sussex , Graphene-coatings-could-transform-liquid-electronics , School-of-mathematical , Research-fellow-in-material-physics , Thin-graphene-coatings-could-transform-liquid , Material-physics , Sussex-school , Physical-science , Study-lead-author