Graphene news 

– Graphene is a single layer of carbon atoms arranged in a honeycomb lattice. Derived from Graphite, the accidental discovery (Manchester University) of this super conductive, super strong material will have a huge impact on the future of batteries, clothing, green technology, clean water and an endless list of other products / applications. Keep up with the latest Graphene news here and stay on top of the on-going advancements, product releases, seminars and more…Never miss out with LOVE Graphene!
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Improving sodium ion batteries with mechanically robust nanocellular graphene

Improving sodium ion batteries with mechanically robust nanocellular graphene

Ever since its discovery in 2004, graphene has been revolutionizing the field of materials science and beyond. Graphene comprises two-dimensional sheets of carbon atoms, bonded into a thin hexagonal shape with a thickness of one atom layer. This gives it remarkable physical and chemical properties. Read More | Phys.org news tagged with:graphene Nanomaterials More Graphene… Read More »Improving sodium ion batteries with mechanically robust nanocellular graphene
Improving sodium ion batteries with mechanically robust nanocellular graphene

Improving sodium ion batteries with mechanically robust nanocellular graphene

Ever since its discovery in 2004, graphene has been revolutionizing the field of materials science and beyond. Graphene comprises two-dimensional sheets of carbon atoms, bonded into a thin hexagonal shape with a thickness of one atom layer. This gives it remarkable physical and chemical properties. Read More | Phys.org news tagged with:graphene Nanomaterials More Graphene… Read More »Improving sodium ion batteries with mechanically robust nanocellular graphene
Improving sodium ion batteries with mechanically robust nanocellular graphene

Improving sodium ion batteries with mechanically robust nanocellular graphene

Ever since its discovery in 2004, graphene has been revolutionizing the field of materials science and beyond. Graphene comprises two-dimensional sheets of carbon atoms, bonded into a thin hexagonal shape with a thickness of one atom layer. This gives it remarkable physical and chemical properties. Read More | Phys.org news tagged with:graphene Nanomaterials More Graphene… Read More »Improving sodium ion batteries with mechanically robust nanocellular graphene
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Improving sodium ion batteries with mechanically robust nanocellular graphene

Improving sodium ion batteries with mechanically robust nanocellular graphene

Ever since its discovery in 2004, graphene has been revolutionizing the field of materials science and beyond. Graphene comprises two-dimensional sheets of carbon atoms, bonded into a thin hexagonal shape with a thickness of one atom layer. This gives it remarkable physical and chemical properties. Read More | Phys.org news tagged with:graphene Nanomaterials More Graphene… Read More »Improving sodium ion batteries with mechanically robust nanocellular graphene
Improving sodium ion batteries with mechanically robust nanocellular graphene

Improving sodium ion batteries with mechanically robust nanocellular graphene

Ever since its discovery in 2004, graphene has been revolutionizing the field of materials science and beyond. Graphene comprises two-dimensional sheets of carbon atoms, bonded into a thin hexagonal shape with a thickness of one atom layer. This gives it remarkable physical and chemical properties. Read More | Phys.org news tagged with:graphene Nanomaterials More Graphene… Read More »Improving sodium ion batteries with mechanically robust nanocellular graphene
Improving sodium ion batteries with mechanically robust nanocellular graphene

Improving sodium ion batteries with mechanically robust nanocellular graphene

Ever since its discovery in 2004, graphene has been revolutionizing the field of materials science and beyond. Graphene comprises two-dimensional sheets of carbon atoms, bonded into a thin hexagonal shape with a thickness of one atom layer. This gives it remarkable physical and chemical properties. Read More | Phys.org news tagged with:graphene Nanomaterials More Graphene… Read More »Improving sodium ion batteries with mechanically robust nanocellular graphene
Improving sodium ion batteries with mechanically robust nanocellular graphene

Improving sodium ion batteries with mechanically robust nanocellular graphene

Ever since its discovery in 2004, graphene has been revolutionizing the field of materials science and beyond. Graphene comprises two-dimensional sheets of carbon atoms, bonded into a thin hexagonal shape with a thickness of one atom layer. This gives it remarkable physical and chemical properties. Read More | Phys.org news tagged with:graphene Nanomaterials More Graphene… Read More »Improving sodium ion batteries with mechanically robust nanocellular graphene
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Improving sodium ion batteries with mechanically robust nanocellular graphene

Improving sodium ion batteries with mechanically robust nanocellular graphene

Ever since its discovery in 2004, graphene has been revolutionizing the field of materials science and beyond. Graphene comprises two-dimensional sheets of carbon atoms, bonded into a thin hexagonal shape with a thickness of one atom layer. This gives it remarkable physical and chemical properties. Read More | Phys.org news tagged with:graphene Nanomaterials More Graphene… Read More »Improving sodium ion batteries with mechanically robust nanocellular graphene
Improving sodium ion batteries with mechanically robust nanocellular graphene

Improving sodium ion batteries with mechanically robust nanocellular graphene

Ever since its discovery in 2004, graphene has been revolutionizing the field of materials science and beyond. Graphene comprises two-dimensional sheets of carbon atoms, bonded into a thin hexagonal shape with a thickness of one atom layer. This gives it remarkable physical and chemical properties. Read More | Phys.org news tagged with:graphene Nanomaterials More Graphene… Read More »Improving sodium ion batteries with mechanically robust nanocellular graphene
Improving sodium ion batteries with mechanically robust nanocellular graphene

Improving sodium ion batteries with mechanically robust nanocellular graphene

Ever since its discovery in 2004, graphene has been revolutionizing the field of materials science and beyond. Graphene comprises two-dimensional sheets of carbon atoms, bonded into a thin hexagonal shape with a thickness of one atom layer. This gives it remarkable physical and chemical properties. Read More | Phys.org news tagged with:graphene Nanomaterials More Graphene… Read More »Improving sodium ion batteries with mechanically robust nanocellular graphene
Improving sodium ion batteries with mechanically robust nanocellular graphene

Improving sodium ion batteries with mechanically robust nanocellular graphene

Ever since its discovery in 2004, graphene has been revolutionizing the field of materials science and beyond. Graphene comprises two-dimensional sheets of carbon atoms, bonded into a thin hexagonal shape with a thickness of one atom layer. This gives it remarkable physical and chemical properties. Read More | Phys.org news tagged with:graphene Nanomaterials More Graphene… Read More »Improving sodium ion batteries with mechanically robust nanocellular graphene
Improving sodium ion batteries with mechanically robust nanocellular graphene

Improving sodium ion batteries with mechanically robust nanocellular graphene

Ever since its discovery in 2004, graphene has been revolutionizing the field of materials science and beyond. Graphene comprises two-dimensional sheets of carbon atoms, bonded into a thin hexagonal shape with a thickness of one atom layer. This gives it remarkable physical and chemical properties. Read More | Phys.org news tagged with:graphene Nanomaterials More Graphene… Read More »Improving sodium ion batteries with mechanically robust nanocellular graphene