peer reviewedTwo-dimensional layered crystals, including graphene and transition metal dichalcogenides, represent an interesting avenue for studying light-matter interactions at the nanoscale in confined geometries. They offer several attractive properties, such as large exciton binding energies, strong excitonic resonances, and tunable bandgaps from the visible to the near-IR along with large spin–orbit coupling, direct band gap transitions, and valley-selective responses
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Mechanical Engineering, 2016.Ca...
In this paper, we review and discuss how the recently discovered two-dimensional (2D) Dirac material...
Due to their novel electronic and optical properties, atomically thin layered two-dimensional (2D) m...
Two-dimensional layered crystals, including graphene and transition metal dichalcogenides, represent...
Understanding and tailoring light-matter interactions is critical to many fields, offering valuable ...
Understanding and tailoring light-matter interactions is critical to many fields, offering valuable ...
Plasmons in low-dimensional systems respresent an important tool for coupling energy into nanostruc...
Understanding and tailoring light-matter interactions is critical to many fields, offering valuable ...
Localized surface plasmons (LSPs), which are collective charge oscillation confined by metallic nano...
The possibility to control the properties of low-dimensional semiconductors via the exploitation of ...
Recently, atomically thin 2D materials have emerged as a new class of nanomaterial with extraordinar...
Localized surface plasmons (LSPs), which are collective charge oscillation confined by metallic nano...
Localized surface plasmons (LSPs), which are collective charge oscillation confined by metallic nano...
Localized surface plasmons (LSPs), which are collective charge oscillation confined by metallic nano...
In the last decade, the rise of two-dimensional (2D) materials has attracted a tremendous amount of ...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Mechanical Engineering, 2016.Ca...
In this paper, we review and discuss how the recently discovered two-dimensional (2D) Dirac material...
Due to their novel electronic and optical properties, atomically thin layered two-dimensional (2D) m...
Two-dimensional layered crystals, including graphene and transition metal dichalcogenides, represent...
Understanding and tailoring light-matter interactions is critical to many fields, offering valuable ...
Understanding and tailoring light-matter interactions is critical to many fields, offering valuable ...
Plasmons in low-dimensional systems respresent an important tool for coupling energy into nanostruc...
Understanding and tailoring light-matter interactions is critical to many fields, offering valuable ...
Localized surface plasmons (LSPs), which are collective charge oscillation confined by metallic nano...
The possibility to control the properties of low-dimensional semiconductors via the exploitation of ...
Recently, atomically thin 2D materials have emerged as a new class of nanomaterial with extraordinar...
Localized surface plasmons (LSPs), which are collective charge oscillation confined by metallic nano...
Localized surface plasmons (LSPs), which are collective charge oscillation confined by metallic nano...
Localized surface plasmons (LSPs), which are collective charge oscillation confined by metallic nano...
In the last decade, the rise of two-dimensional (2D) materials has attracted a tremendous amount of ...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Mechanical Engineering, 2016.Ca...
In this paper, we review and discuss how the recently discovered two-dimensional (2D) Dirac material...
Due to their novel electronic and optical properties, atomically thin layered two-dimensional (2D) m...
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