Monolithic InSb nanostructure photodetectors on Si using rapid melt growth

Heera Menon; Hossein Jeddi; Nicholas Paul Morgan; Anna Fontcuberta I Morral; Håkan Pettersson; Mattias Borg

doi:10.1039/d2na00903j

Monolithic InSb nanostructure photodetectors on Si using rapid melt growth

Nanoscale Adv. 2023 Jan 18;5(4):1152-1162. doi: 10.1039/d2na00903j. eCollection 2023 Feb 14.

Authors

Heera Menon^{1

2}, Hossein Jeddi^{2

3

4}, Nicholas Paul Morgan⁵, Anna Fontcuberta I Morral⁵, Håkan Pettersson^{2

3

4}, Mattias Borg^{1

2}

Affiliations

¹ Electrical and Information Technology, Lund University Lund Sweden.
² NanoLund, Lund University Box 118 Lund SE-221 00 Sweden.
³ School of Information Technology, Halmstad University Box 823 Halmstad SE-301 18 Sweden.
⁴ Solid State Physics, Lund University Box 118 Lund SE-221 00 Sweden.
⁵ Laboratory of Semiconductor Materials, Ecole Polytechnique Federale de Lausanne Lausanne Switzerland.

Abstract

Monolithic integration of InSb on Si could be a key enabler for future electronic and optoelectronic applications. In this work, we report the fabrication of InSb metal-semiconductor-metal photodetectors directly on Si using a CMOS-compatible process known as rapid melt growth. Fourier transform spectroscopy demonstrates a spectrally resolved photocurrent peak from a single crystalline InSb nanostructure with dimensions of 500 nm × 1.1 μm × 120 nm. Time-dependent optical characterization of a device under 1550 nm illumination indicated a stable photoresponse with responsivity of 0.50 A W^-1 at 16 nW illumination, with a time constant in the range of milliseconds. Electron backscatter diffraction spectroscopy revealed that the single crystalline InSb nanostructures contain occasional twin defects and crystal lattice twist around the growth axis, in addition to residual strain, possibly causing the observation of a low-energy tail in the detector response extending the photosensitivity out to 10 μm wavelengths (0.12 eV) at 77 K.