In an Advanced Science paper, researchers used scanning tunneling microscopy to investigate the structural and electronic properties of 2D rare-earth clusters on a one-cluster-at-a-time basis.
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Unexpected electronic properties revealed in the dichalcogenide, tantalum disulfide (1T-TaS₂)
In a PNAS paper, researchers introduces a novel ether electrolyte, 1M LiBF4 plus 1,2-dimethoxyethane, that enables graphite anodes with remarkable capacity retention and cycling stability.
2D ionic liquid behavior of charged rare-earth clusters on a metal surface
In an Advanced Science paper, researchers used scanning tunneling microscopy to investigate the structural and electronic properties of 2D rare-earth clusters on a one-cluster-at-a-time basis.
Unexpected electronic properties revealed in the dichalcogenide, tantalum disulfide (1T-TaS₂)
In a PNAS paper, researchers introduces a novel ether electrolyte, 1M LiBF4 plus 1,2-dimethoxyethane, that enables graphite anodes with remarkable capacity retention and cycling stability.
2D ionic liquid behavior of charged rare-earth clusters on a metal surface
In an Advanced Science paper, researchers used scanning tunneling microscopy to investigate the structural and electronic properties of 2D rare-earth clusters on a one-cluster-at-a-time basis.
Unexpected electronic properties revealed in the dichalcogenide, tantalum disulfide (1T-TaS₂)
In a PNAS paper, researchers introduces a novel ether electrolyte, 1M LiBF4 plus 1,2-dimethoxyethane, that enables graphite anodes with remarkable capacity retention and cycling stability.
2D ionic liquid behavior of charged rare-earth clusters on a metal surface
In an Advanced Science paper, researchers used scanning tunneling microscopy to investigate the structural and electronic properties of 2D rare-earth clusters on a one-cluster-at-a-time basis.
Unexpected electronic properties revealed in the dichalcogenide, tantalum disulfide (1T-TaS₂)
In a PNAS paper, researchers introduces a novel ether electrolyte, 1M LiBF4 plus 1,2-dimethoxyethane, that enables graphite anodes with remarkable capacity retention and cycling stability.
2D ionic liquid behavior of charged rare-earth clusters on a metal surface
In an Advanced Science paper, researchers used scanning tunneling microscopy to investigate the structural and electronic properties of 2D rare-earth clusters on a one-cluster-at-a-time basis.
Unexpected electronic properties revealed in the dichalcogenide, tantalum disulfide (1T-TaS₂)
In a PNAS paper, researchers introduces a novel ether electrolyte, 1M LiBF4 plus 1,2-dimethoxyethane, that enables graphite anodes with remarkable capacity retention and cycling stability.
