Pristine ZnO has been extensively reported for high responsivity UV photodetectors based applications. However, in general, its photo-response in visible and NIR region is very poor. In this article, a simple and cost-effective technique of synthesizing pristine ZnO honeycomb nanostructure based high responsivity broadband (200 nm-950 nm) photodetector is demonstrated. The dark current of the device was found to be as low as 5.6 pA at 10 V applied bias. The maximum photo-current to dark current ratio was ∼ 3.2 × 107 at 300 nm wavelength (measured at-10 V applied bias). The calculated linear dynamic range of the device is as high as 128.9 dB. The maximum specific photodetectivity, photoresponsivity and external quantum efficiency (@ 300 nm) calculated at-10 V bias was 2.07 × 1015 cm Hz1/2W-1, 115 A W-1 and 47,583% respectively, which is comparable to some of the existing commercial broadband photodetectors. © 1989-2012 IEEE.

Tejendra Dixit

Cost effectiveness

Honeycomb structures

II-VI semiconductors

Photodetectors

Zinc oxide

DARK CURRENT RATIO

External quantum efficiency

HONEYCOMB

Hydrothermal

LINEAR DYNAMIC RANGES

Photoresponses

PHOTORESPONSIVITY

UV PHOTODETECTORS

Photons

IIT Madras is a public technical and research university located in Chennai, Tamil Nadu. Founded in 1959, it is recognised as an Institute of National Importance.

IIT Madras has been ranked as the top engineering institute in India for four years in a row by the National Institutional Ranking Framework of the MHRD

It currently offers undergraduate, postgraduate and research degrees across 16 disciplines in Engineering, Sciences, Humanities and Management. About 596 faculty belonging to science and engineering departments and centres of the Institute are engaged in teaching, research and industrial consultancy.

IIT Madras

Electron Depleted ZnO Nanowalls-Based Broadband Photodetector

IEEE Photonics Technology Letters

Herein, the effect of prolong UV illumination over ZnO optoelectronic characteristics has been investigated. The photoluminescence analysis has shown significant enhancement in deep level emission (DLE) after sample being exposed to UV radiations. The formation of photo-induced oxygen vacancies (VO) over the ZnO surface was found to be responsible for such noteworthy enhancement in DLE. The observed phenomenon was further utilized for controlled incorporation of VO in ZnO via UV illumination, towards obtaining optimal device performance. The UV treated photo-detector has shown significantly high photo-responsivity and photo-sensitivity in the deep UV region. © 2018

Scripta Materialia

Systematic investigations on the effect of prolong UV illumination on optoelectronic properties of ZnO honeycomb nanostructures

Pristine ZnO nanostructures (NSs) are less sensitive to deep UV radiations, which restrict their usage to near UV region only. In order to extend its usability in deep UV region; Zn interstitial rich honeycomb (HC) NSs of ZnO is developed. The device shows remarkably high photoresponsivity of 1150 A W−1 in deep UV region (λ = 254 nm). Additionally, enhanced deep UV photosensitivity is observed and can be attributed to the incorporation of Zn ions in ZnO lattice and large surface to volume ratio of HC NSs. Furthermore, in dark conditions, the width of the depletion region is comparable to the thickness of HC NSs (20 nm) that results in complete depletion of charge carriers in NSs, which results in significant reduction in dark current. Moreover, HC NSs are provided continuous conduction path which eliminates the potential barrier forming at the NSs interfaces, resulting in efficient charge transportation. The measured photocurrent to dark current ratio is as large as ≈6 orders of magnitude. Such large photosensitivity in the deep UV region of electromagnetic spectrum makes these devices a promising candidate for development of deep UV photo-detectors for commercial applications. © 2018 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim

Physica Status Solidi - Rapid Research Letters

Zinc Interstitial Rich ZnO Honeycomb Nanostructures for Deep UV Photodetection

Journal of Physics D: Applied Physics

Fabrication of high responsivity deep UV photo-detector based on Na doped ZnO nanocolumns

IEEE Transactions on Nanotechnology

UV/IR Dual-Wavelength Photodetector Design Based on ZnO/PMMA/PbSe Nanocomposites

RSC Advances

Low temperature-processed ZnO thin films for p–n junction-based visible-blind ultraviolet photodetectors

Journal	Data powered by TypesetIEEE Photonics Technology Letters
Publisher	Data powered by TypesetInstitute of Electrical and Electronics Engineers Inc.
ISSN	10411135
Open Access	No