A. Diéguez scite author profile

The rapid development of display technologies has raised interest in arrays of self-emitting, individually controlled light sources atthe microscale. Gallium nitride (GaN) micro-light-emitting diode (LED) technology meets this demand. However, the current technology is not suitable for the fabrication of arrays of submicron light sources that can be controlled individually. Our approach is based on nanoLED arrays that can directly address each array element and a self-pitch with dimensions below the wavelength of light. The design and fabrication processes are explained in detail and possess two geometries: a 6 × 6 array with 400 nm LEDs and a 2 × 32 line array with 200 nm LEDs. These nanoLEDs are developed as core elements of a novel on-chip super-resolution microscope. GaN technology, based on its physical properties, is an ideal platform for such nanoLEDs.

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Microstructure and morphology of tin dioxide multilayer thin film gas sensors

Sangaletti

Depero

Diéguez

et al. 1997

Sensors and Actuators B: Chemical

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A low-noise time-gated single-photon detector in a HV-CMOS technology for triggered imaging

Figueras¹,

Alonso²,

Montiel³

et al. 2013

Sensors and Actuators A: Physical

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A. Diéguez

The LHCb Detector at the LHC

The aging effect on SnO2–Au thin film sensors: electrical and structural characterization

Directly addressable GaN-based nano-LED arrays: fabrication and electro-optical characterization

Microstructure and morphology of tin dioxide multilayer thin film gas sensors

A low-noise time-gated single-photon detector in a HV-CMOS technology for triggered imaging

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