Micromachines (Jun 2022)

A Critical Review on the Sensing, Control, and Manipulation of Single Molecules on Optofluidic Devices

  • Mahmudur Rahman,
  • Kazi Rafiqul Islam,
  • Md. Rashedul Islam,
  • Md. Jahirul Islam,
  • Md. Rejvi Kaysir,
  • Masuma Akter,
  • Md. Arifur Rahman,
  • S. M. Mahfuz Alam

DOI
https://doi.org/10.3390/mi13060968
Journal volume & issue
Vol. 13, no. 6
p. 968

Abstract

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Single-molecule techniques have shifted the paradigm of biological measurements from ensemble measurements to probing individual molecules and propelled a rapid revolution in related fields. Compared to ensemble measurements of biomolecules, single-molecule techniques provide a breadth of information with a high spatial and temporal resolution at the molecular level. Usually, optical and electrical methods are two commonly employed methods for probing single molecules, and some platforms even offer the integration of these two methods such as optofluidics. The recent spark in technological advancement and the tremendous leap in fabrication techniques, microfluidics, and integrated optofluidics are paving the way toward low cost, chip-scale, portable, and point-of-care diagnostic and single-molecule analysis tools. This review provides the fundamentals and overview of commonly employed single-molecule methods including optical methods, electrical methods, force-based methods, combinatorial integrated methods, etc. In most single-molecule experiments, the ability to manipulate and exercise precise control over individual molecules plays a vital role, which sometimes defines the capabilities and limits of the operation. This review discusses different manipulation techniques including sorting and trapping individual particles. An insight into the control of single molecules is provided that mainly discusses the recent development of electrical control over single molecules. Overall, this review is designed to provide the fundamentals and recent advancements in different single-molecule techniques and their applications, with a special focus on the detection, manipulation, and control of single molecules on chip-scale devices.

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