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Advances in visible and ultraviolet self-powered photodetectors: exploring 2D materials and Janus heterostructures

  • Umer Ahsan
    ,
  • Ehsan Elahi
    ,
  • Abdul Sattar
    ,
  • Kalyan Jyoti Sarkar
    ,
  • Muhammad Asad
    ,
  • Hina Mustafa
  • University of Chemistry and Technology, Prague
    ,
  • COMSATS University Islamabad
    ,
  • Shenzhen Technology University
    ,
  • University of Bedfordshire
Research Output: Contribution to journal Review article Peer-review

Open access

Sustainable Development Goals

  • SDG 7 - Affordable and Clean Energy
    SDG 7 Affordable and Clean Energy

Abstract

Self-powered photodetectors (SPPDs) are becoming crucial in energy-efficient optoelectronics. They operate wi.thout any external power, utilizing built-in electric fields and photovoltaic effects. Their applications range from wearable sensors to optical communication. Recent advancements in 2D materials, perovskites, Janus heterostructures, Schottky junctions, and flexible substrates have significantly improved their responsivity, broadband absorption, and mechanical flexibility. However, challenges in stability, large-scale fabrication, and charge transport efficiency remain, hindering their commercial adoption. This review critically examines the recent progress in heterostructure-based SPPDs, addressing key challenges in their device performance, material integration, and scalability. While previous researches have explored individual material platforms, gaps remain in long-term stability, interface defects, and large-area processing. This study highlights the potential of novel fabrication techniques and doping strategies to enhance the detection performance by analyzing advances in interface engineering, band alignment, and hybrid material systems. Results highlight the promise of self-driven optimization, flexible electronics, and photodetectors based on quantum materials, offering valuable insights into the future trajectory of self-powered optoelectronics. This review highlights the existing challenges and opportunities, offering insights for future advancements in high-performance, self-sustaining photodetection technologies.

Publication Information

Output type

Research Output: Contribution to journal Review article Peer-review

Original language

English

Pages from-to (Number of pages)

Pages 537-574 (38 pages)

Journal (Volume, Issue Number)

Nanoscale (Volume 18, Issue 2)

Publication milestones

  • Accepted/In press - 07/10/2025
  • E-pub ahead of print - 17/10/2025
  • Published - 17/10/2025

Publication status

Published - 17/10/2025

ISSN

2040-3364

External Publication IDs

  • PubMed: 41378382
  • Scopus: 105024613440