Add to ORKGABSTRACT: Colloidal quantum-dots are bright, tunable emitters that are ideal for studying near-field quantum-optical interactions. However, their colloidal nature has hindered their facile and precise placement at desired near-field positions, particularly on the structured substrates prevalent in plasmonics. Here, we use high-resolution electro-hydrodynamic printing (<100 nm feature size) to deposit countable numbers of quantum dots on both flat and structured substrates with a few nanometer precision. We also demonstrate that the autofocusing capability of the printing method enables placement of quantum dots preferentially at plasmonic hot spots. We exploit this control and design diffraction-limited photonic and plasmonic sources wit...
Semiconductor quantum dots (QDs) feature excellent properties, such as high quantum efficiency, tuna...
The quantum plasmonics field has emerged and been growing increasingly, including study of single em...
Colloidal quantum dot (QD) systems offer distinct optical and electronic properties that are not eas...
Colloidal quantum-dots are bright, tunable emitters that are ideal for studying near-field quantum-o...
Colloidal quantum dots are robust, efficient, and tunable emitters now used in lighting, displays, a...
The patterning of colloidal quantum dots with nanometer resolution is essential for their applicatio...
We report on a template-stripping method for the direct surface patterning of colloidal quantum-dot ...
International audienceThe electroluminescence of a carpet of colloidal quantum dots in electrical co...
ABSTRACT: Using an optimized lift-off process we develop a technique for both nanoscale and single-d...
Plasmonics offers the opportunity of tailoring the interaction of light with single quantum emitters...
Using an optimized lift-off process we develop a technique for both nanoscale and single-dot pattern...
Using an optimized lift-off process we develop a technique for both nanoscale and single-dot pattern...
The small size of colloidal nanocrystal quantum dots (QDs) leads to a variety of unique optical prop...
Over the last several decades, colloidal quantum dots (QDs) have been widely studied because of thei...
Colloidal quantum dots are nanometer-sized crystalline semiconductor nanoparticles. Owing to the qua...
Semiconductor quantum dots (QDs) feature excellent properties, such as high quantum efficiency, tuna...
The quantum plasmonics field has emerged and been growing increasingly, including study of single em...
Colloidal quantum dot (QD) systems offer distinct optical and electronic properties that are not eas...
Colloidal quantum-dots are bright, tunable emitters that are ideal for studying near-field quantum-o...
Colloidal quantum dots are robust, efficient, and tunable emitters now used in lighting, displays, a...
The patterning of colloidal quantum dots with nanometer resolution is essential for their applicatio...
We report on a template-stripping method for the direct surface patterning of colloidal quantum-dot ...
International audienceThe electroluminescence of a carpet of colloidal quantum dots in electrical co...
ABSTRACT: Using an optimized lift-off process we develop a technique for both nanoscale and single-d...
Plasmonics offers the opportunity of tailoring the interaction of light with single quantum emitters...
Using an optimized lift-off process we develop a technique for both nanoscale and single-dot pattern...
Using an optimized lift-off process we develop a technique for both nanoscale and single-dot pattern...
The small size of colloidal nanocrystal quantum dots (QDs) leads to a variety of unique optical prop...
Over the last several decades, colloidal quantum dots (QDs) have been widely studied because of thei...
Colloidal quantum dots are nanometer-sized crystalline semiconductor nanoparticles. Owing to the qua...
Semiconductor quantum dots (QDs) feature excellent properties, such as high quantum efficiency, tuna...
The quantum plasmonics field has emerged and been growing increasingly, including study of single em...
Colloidal quantum dot (QD) systems offer distinct optical and electronic properties that are not eas...