Two-dimensional interfaces between crystalline materials have been shown to generate
unusual interfacial electronic states in complex oxides. Recently, a one-dimensional …

Two-dimensional interfaces between crystalline materials have been shown to generate
unusual interfacial electronic states in complex oxides. Recently, a one-dimensional …

Two-dimensional interfaces between crystalline materials have been shown to generate
unusual interfacial electronic states in complex oxides. Recently, a one-dimensional …

Two-dimensional interfaces between crystalline materials have been shown to generate
unusual interfacial electronic states in complex oxides. Recently, a one-dimensional …

Two-dimensional interfaces between crystalline materials have been shown to generate
unusual interfacial electronic states in complex oxides. Recently, a one-dimensional …

Results STM topography of graphene–hBN heterostructures. An inplane, single-atomic layer
graphene–hBN heterostructure grown on a Cu foil6 is used to experimentally investigate the …

Results STM topography of graphene–hBN heterostructures. An inplane, single-atomic layer
graphene–hBN heterostructure grown on a Cu foil 6 is used to experimentally investigate …

Two-dimensional (2D) interfaces between crystalline materials have been shown to
generate unusual interfacial electronic states in complex oxides1-4. Recently, a …

Two-dimensional interfaces between crystalline materials have been shown to generate
unusual interfacial electronic states in complex oxides. Recently, a one-dimensional …

Two-dimensional interfaces between crystalline materials have been shown to generate
unusual interfacial electronic states in complex oxides. Recently, a one-dimensional …