Add to ORKGThe requirements for broadband photodetection are becoming exceedingly demanding in hyperspectral imaging. Whilst intrinsic photoconductor arrays based on mercury cadmium telluride represent the most sensitive and suitable technology, their optical spectrum imposes a narrow spectral range with a sharp absorption edge that cuts their operation to < 25 um. Here, we demonstrate a giant ultra-broadband photoconductivity in twisted double bilayer graphene heterostructures spanning a spectral range of 2 - 100 um with internal quantum efficiencies ~ 40 % at speeds of 100 kHz. The giant response originates from unique properties of twist-decoupled heterostructures including pristine, crystal field induced terahertz band gaps, parallel photoactive c...
Broadband detection of mid-infrared (IR) photons extends to advanced optoelectronic applications suc...
We exploit the broad-band transparency of graphene and the favorable band line up of graphene with v...
In an earlier work, we had reported a method that enables graphene–silicon junctions to display exce...
Graphene research so far has focused on electronic 1-6 rather than photonic applications, in spite o...
Graphene with ultra-high carrier mobility and ultra-short photoresponse time has shown remarkable po...
© 2015 American Chemical Society. Recently, research on graphene based photodetectors has drawn subs...
(English) Despite the extensive research in the semiconductor industry, Moore’s law is finally slowi...
This is the author accepted manuscript. The final version is available from AAAS via the DOI in this...
We exploit the broad-band transparency of graphene and the favorable band line up of graphene with v...
High-performance photodetectors operating over a broad wavelength range from ultraviolet, visible, t...
Although graphene has met many of its initially predicted optoelectronic, thermal, and mechanical pr...
Graphene/silicon hybrid photodetector operating at communication wavelength has attracted enormous a...
International audienceSensitization of graphene with inorganic semiconducting nanostructures has bee...
Graphene, a single-atom-thick plane of carbon, has unique optoelectronic properties that result in a...
In this study, we combine graphene with gold oxide (AuO<sub><i>x</i></sub>), a transparent and high-...
Broadband detection of mid-infrared (IR) photons extends to advanced optoelectronic applications suc...
We exploit the broad-band transparency of graphene and the favorable band line up of graphene with v...
In an earlier work, we had reported a method that enables graphene–silicon junctions to display exce...
Graphene research so far has focused on electronic 1-6 rather than photonic applications, in spite o...
Graphene with ultra-high carrier mobility and ultra-short photoresponse time has shown remarkable po...
© 2015 American Chemical Society. Recently, research on graphene based photodetectors has drawn subs...
(English) Despite the extensive research in the semiconductor industry, Moore’s law is finally slowi...
This is the author accepted manuscript. The final version is available from AAAS via the DOI in this...
We exploit the broad-band transparency of graphene and the favorable band line up of graphene with v...
High-performance photodetectors operating over a broad wavelength range from ultraviolet, visible, t...
Although graphene has met many of its initially predicted optoelectronic, thermal, and mechanical pr...
Graphene/silicon hybrid photodetector operating at communication wavelength has attracted enormous a...
International audienceSensitization of graphene with inorganic semiconducting nanostructures has bee...
Graphene, a single-atom-thick plane of carbon, has unique optoelectronic properties that result in a...
In this study, we combine graphene with gold oxide (AuO<sub><i>x</i></sub>), a transparent and high-...
Broadband detection of mid-infrared (IR) photons extends to advanced optoelectronic applications suc...
We exploit the broad-band transparency of graphene and the favorable band line up of graphene with v...
In an earlier work, we had reported a method that enables graphene–silicon junctions to display exce...