Random sized plasmonic nanoantennas on Silicon for low-cost broad-band near-infrared photodetection

Mohammad Amin Nazirzadeh; Fatih Bilge Atar; Berk Berkan Turgut; Ali Kemal Okyay

doi:10.1038/srep07103

Random sized plasmonic nanoantennas on Silicon for low-cost broad-band near-infrared photodetection

Mohammad Amin Nazirzadeh
, Fatih Bilge Atar
, Berk Berkan Turgut
, Ali Kemal Okyay

Bilkent University

Research output: Contribution to journal › Article › peer-review

Abstract

In this work, we propose Silicon based broad-band near infrared Schottky barrier photodetectors. The devices operate beyond 1200 nm wavelength and exhibit photoresponsivity values as high as 3.5 mA/W with a low dark current density of about 50 pA/μm². We make use of Au nanoislands on Silicon surface formed by rapid thermal annealing of a thin Au layer. Surface plasmons are excited on Au nanoislands and this field localization results in efficient absorption of sub-bandgap photons. Absorbed photons excite the electrons of the metal to higher energy levels (hot electron generation) and the collection of these hot electrons to the semiconductor results in photocurrent (internal photoemission). Simple and scalable fabrication makes these devices suitable for ultra-low-cost NIR detection applications.

Original language	English
Article number	7103
Journal	Scientific Reports
Volume	4
DOIs	https://doi.org/10.1038/srep07103
Publication status	Published - 19 Nov 2014
Externally published	Yes

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10.1038/srep07103

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title = "Random sized plasmonic nanoantennas on Silicon for low-cost broad-band near-infrared photodetection",

abstract = "In this work, we propose Silicon based broad-band near infrared Schottky barrier photodetectors. The devices operate beyond 1200 nm wavelength and exhibit photoresponsivity values as high as 3.5 mA/W with a low dark current density of about 50 pA/μm2. We make use of Au nanoislands on Silicon surface formed by rapid thermal annealing of a thin Au layer. Surface plasmons are excited on Au nanoislands and this field localization results in efficient absorption of sub-bandgap photons. Absorbed photons excite the electrons of the metal to higher energy levels (hot electron generation) and the collection of these hot electrons to the semiconductor results in photocurrent (internal photoemission). Simple and scalable fabrication makes these devices suitable for ultra-low-cost NIR detection applications.",

author = "Nazirzadeh, \{Mohammad Amin\} and Atar, \{Fatih Bilge\} and Turgut, \{Berk Berkan\} and Okyay, \{Ali Kemal\}",

year = "2014",

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doi = "10.1038/srep07103",

language = "English",

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AU - Nazirzadeh, Mohammad Amin

AU - Atar, Fatih Bilge

AU - Turgut, Berk Berkan

AU - Okyay, Ali Kemal

PY - 2014/11/19

Y1 - 2014/11/19

N2 - In this work, we propose Silicon based broad-band near infrared Schottky barrier photodetectors. The devices operate beyond 1200 nm wavelength and exhibit photoresponsivity values as high as 3.5 mA/W with a low dark current density of about 50 pA/μm2. We make use of Au nanoislands on Silicon surface formed by rapid thermal annealing of a thin Au layer. Surface plasmons are excited on Au nanoislands and this field localization results in efficient absorption of sub-bandgap photons. Absorbed photons excite the electrons of the metal to higher energy levels (hot electron generation) and the collection of these hot electrons to the semiconductor results in photocurrent (internal photoemission). Simple and scalable fabrication makes these devices suitable for ultra-low-cost NIR detection applications.

AB - In this work, we propose Silicon based broad-band near infrared Schottky barrier photodetectors. The devices operate beyond 1200 nm wavelength and exhibit photoresponsivity values as high as 3.5 mA/W with a low dark current density of about 50 pA/μm2. We make use of Au nanoislands on Silicon surface formed by rapid thermal annealing of a thin Au layer. Surface plasmons are excited on Au nanoislands and this field localization results in efficient absorption of sub-bandgap photons. Absorbed photons excite the electrons of the metal to higher energy levels (hot electron generation) and the collection of these hot electrons to the semiconductor results in photocurrent (internal photoemission). Simple and scalable fabrication makes these devices suitable for ultra-low-cost NIR detection applications.

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VL - 4

JO - Scientific Reports

JF - Scientific Reports

M1 - 7103

ER -

Random sized plasmonic nanoantennas on Silicon for low-cost broad-band near-infrared photodetection

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