Add to ORKGPlasmon-induced hot electrons offer unique advantages in solar-light-driven chemical reactions. Noble metal nanostructures have been the most studied plasmonic materials, but the hot electron lifetime is extremely short. Here, we have discovered extraordinarily long-lived hot electrons in degenerately doped molybdenum oxides with surface plasmon resonance in the visible and near-infrared region. Their lifetime is nanosecond-scale, which is enhanced by 4 orders of magnitude compared to their noble metal counterparts. Such a property is ascribed to the quasi-metallic feature of molybdenum oxides driven by hydrogen dopant-induced bandgap trap states, in which the electron–phonon scattering is dominant over the ultrafast electron–electron scatt...
A pulse of high kinetic energy electrons (1–3 eV) in metals can be generated after surface exposure ...
Localized surface plasmon resonance (LSPR) of plasmonic nanoparticles and nanostructures has attract...
Conspectus Energy dissipation at surfaces and interfaces is mediated by excitation of elementary pro...
Harvesting of hot electrons in non-noble metal plasmonic materials is still little explored. Here th...
Hot electrons generated through plasmonic excitations in metal nanostructures show great promise for...
Plasmon hot carriers are interesting for photoredox chemical synthesis but their direct utilization ...
In this work, we observe plasmon-induced hot electron extraction in a heterojunction between indium ...
The smart design of plasmonic nanostructures offers a unique capability for the efficient conversion...
Achieving strong coupling between plasmonic oscillators can significantly modulate their intrinsic o...
Plasmonic nanoparticles and quasi-2D (Q2D) transition metal dichalcogenides (TMDs) have been identif...
When an incident electromagnetic wave at optical frequencies couples to a metallic nanostructure, it...
The recent discovery that metal nanoparticles can generate hot carriers upon light excitation is see...
Metal nanoparticles are excellent light absorbers. The absorption processes create highly excited el...
Abstract Based on the effective Schrödinger–Poisson model a new physical mechanism for resonant hot-...
Hot electrons generated in metal nanoparticles can drive chemical reactions and selectively deposit ...
A pulse of high kinetic energy electrons (1–3 eV) in metals can be generated after surface exposure ...
Localized surface plasmon resonance (LSPR) of plasmonic nanoparticles and nanostructures has attract...
Conspectus Energy dissipation at surfaces and interfaces is mediated by excitation of elementary pro...
Harvesting of hot electrons in non-noble metal plasmonic materials is still little explored. Here th...
Hot electrons generated through plasmonic excitations in metal nanostructures show great promise for...
Plasmon hot carriers are interesting for photoredox chemical synthesis but their direct utilization ...
In this work, we observe plasmon-induced hot electron extraction in a heterojunction between indium ...
The smart design of plasmonic nanostructures offers a unique capability for the efficient conversion...
Achieving strong coupling between plasmonic oscillators can significantly modulate their intrinsic o...
Plasmonic nanoparticles and quasi-2D (Q2D) transition metal dichalcogenides (TMDs) have been identif...
When an incident electromagnetic wave at optical frequencies couples to a metallic nanostructure, it...
The recent discovery that metal nanoparticles can generate hot carriers upon light excitation is see...
Metal nanoparticles are excellent light absorbers. The absorption processes create highly excited el...
Abstract Based on the effective Schrödinger–Poisson model a new physical mechanism for resonant hot-...
Hot electrons generated in metal nanoparticles can drive chemical reactions and selectively deposit ...
A pulse of high kinetic energy electrons (1–3 eV) in metals can be generated after surface exposure ...
Localized surface plasmon resonance (LSPR) of plasmonic nanoparticles and nanostructures has attract...
Conspectus Energy dissipation at surfaces and interfaces is mediated by excitation of elementary pro...