Add to ORKGTo improve quantum dot solar cell performance, it is crucial to make efficient use of the available incident sunlight to ensure that the absorption is maximized. The ability of metal nanoparticles to concentrate incident sunlight via plasmon resonance can enhance the overall absorption of photovoltaic cells due to the strong confinement that results from near-field coupling or far-field scattering plasmonic effects. Therefore, to simultaneously and synergistically utilize both plasmonic effects, the placement of different plasmonic nanostructures at the appropriate locations in the device structure is also critical. Here, we introduce two different plasmonic nanoparticles, Au and Ag, to a colloidal PbS quantum dot heterojunction at the top ...
Characteristic plasmon-induced enhancement of photocurrent has been observed by coupling PbS quantiz...
Highly efficient, PbS:Hg quantum dot-sensitized, plasmonic solar cells with TiO2 triple-layer photoa...
The enhancement of hot electron generation using plasmonic nanostructures is a promising strategy fo...
To improve quantum dot solar cell performance, it is crucial to make efficient use of the available ...
Colloidal quantum dots (CQD) are used in the fabrication of efficient, low-cost solar cells synthesi...
A new configuration of a plasmonic quantum dots solar structure is proposed. Gold-silver core-shell ...
Recent advances in spectrally tuned, solution-processed plasmonic nanoparticles have provided unprec...
This article describes a cooperative plasmonic effect on improving the performance of polymer bulk h...
Enhanced near infrared photoresponse in plasmonic InGaAs/GaAs quantum dot solar cells (QDSC) is demo...
Embedding nanoparticles (NPs) in the buffer layer of bulk heterojunction polymer solar cells (BHJ PS...
A synthetic approach has recently been developed which results in Cu<sub><i>x</i></sub>In<sub><i>y</...
Plasmonic light trapping can increase the absorption of light in thin semiconductor films. We invest...
Core-shell particles composed of a dielectric core and a metallic nanoshell exhibit tunable surface ...
Core–shell particles composed of a dielectric core and a metallic nanoshell exhibit tunable surface ...
We demonstrated plasmonic effects. in an inverted tandem polymer solar cell configuration by blendin...
Characteristic plasmon-induced enhancement of photocurrent has been observed by coupling PbS quantiz...
Highly efficient, PbS:Hg quantum dot-sensitized, plasmonic solar cells with TiO2 triple-layer photoa...
The enhancement of hot electron generation using plasmonic nanostructures is a promising strategy fo...
To improve quantum dot solar cell performance, it is crucial to make efficient use of the available ...
Colloidal quantum dots (CQD) are used in the fabrication of efficient, low-cost solar cells synthesi...
A new configuration of a plasmonic quantum dots solar structure is proposed. Gold-silver core-shell ...
Recent advances in spectrally tuned, solution-processed plasmonic nanoparticles have provided unprec...
This article describes a cooperative plasmonic effect on improving the performance of polymer bulk h...
Enhanced near infrared photoresponse in plasmonic InGaAs/GaAs quantum dot solar cells (QDSC) is demo...
Embedding nanoparticles (NPs) in the buffer layer of bulk heterojunction polymer solar cells (BHJ PS...
A synthetic approach has recently been developed which results in Cu<sub><i>x</i></sub>In<sub><i>y</...
Plasmonic light trapping can increase the absorption of light in thin semiconductor films. We invest...
Core-shell particles composed of a dielectric core and a metallic nanoshell exhibit tunable surface ...
Core–shell particles composed of a dielectric core and a metallic nanoshell exhibit tunable surface ...
We demonstrated plasmonic effects. in an inverted tandem polymer solar cell configuration by blendin...
Characteristic plasmon-induced enhancement of photocurrent has been observed by coupling PbS quantiz...
Highly efficient, PbS:Hg quantum dot-sensitized, plasmonic solar cells with TiO2 triple-layer photoa...
The enhancement of hot electron generation using plasmonic nanostructures is a promising strategy fo...