Login / Signup

Flexo-Pyrophotronic Effect Modulated Giant Near Infrared Photoresponse from VO 2 -Based Heterojunction for Optical Communication.

Mohit KumarDukhwan KimHyungtak Seo
Published in: Small methods (2023)
The flexoelectric phenomenon, which occurs when materials undergo mechanical deformation and cause strain gradients and a related spontaneous electric polarization field, can result in wide variety of energy- and cost-saving mechano-opto-electronics, such as night vision, communication, and security. However, accurate sensing of weak intensities under self-powered conditions with stable photocurrent and rapid temporal response remains essential despite the challenges related to having suitable band alignment and high junction quality. Taking use of the flexoelectric phenomena, it is shown that a centrosymmetric VO 2 -based heterojunction exhibits a self-powered (i.e., 0 V), infrared (λ = 940 nm) photoresponse. Specifically, the device shows giant current modulation (10 3 %), good responsivity of >2.4 mA W -1 , reasonable specific detectivity of ≈10 10 Jones, and a fast response speed of 0.5 ms, even at the nanoscale modulation. Through manipulation of the applied inhomogeneous force, the sensitivity of the infrared response is enhanced (> 640%). Ultrafast night optical communication like Morse code distress (SOS) signal sensing and high-performing obstacle sensors with potential impact alarms are created as proof-of-concept applications. These findings validate the potential of emerging mechanoelectrical coupling for a wide variety of novel applications, including mechanoptical switches, photovoltaics, sensors, and autonomous vehicles, which require tunable optoelectronic performance.
Keyphrases
  • high resolution
  • multiple sclerosis
  • mass spectrometry
  • high speed
  • photodynamic therapy
  • sleep quality
  • quality improvement
  • single molecule
  • atomic force microscopy
  • perovskite solar cells
  • rare case
  • transition metal