Internal talk - Toward Single-molecule Electrical Detection: Molecular Quantum Dot Sensors
Fabrizio Mo
Politecnico di Torino

Thu., Nov. 14, 2024, 1 p.m.
This seminar is held in presence and online.
Room: HAL 115
Online: Zoom link of our Chair

Linkedin


Single-molecule detection has recently become a reality, achieving the ultimate limit of chemical detection sensibility. It enables the quantification and detection of dynamical (bio)-chemical processes, rare events, and aberrant chemical species, which are otherwise lost in the chemical noise. Furthermore, calibration-free sensing is in principle possible, opening the way toward new sensing paradigms.
The electrical single-molecule detection enables the integration of the sensor with the front-end electronics, thus setting the conditions for large-scale production of automatic, portable, multi-purpose, innovative sensory systems. At present, the knowledge in electrical single-molecule detection is still at its embryonal stage, and the literature lacks design principles and guidelines.
The talk focuses on electrical single-molecule detection through molecular quantum dots. It covers some selected topics concerning recent and ongoing theoretical and experimental achievements regarding the engineering and design of such sensors. It encloses a brief discussion on future developments in this novel and thrilling area of research.


Brief CV

Fabrizio Mo is currently a Research Assistant at VLSI Lab – Molecular Nanocomputing Unit, Polytechnique of Turin, Italy. His primary research topics are single-molecule electrical sensors and relative front-end electronics. His research interest is also focused on molecular electronics, transport in nano-devices, and nanotechnology, especially beyond CMOS systems.



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Internal talk - Toward Single-molecule Electrical Detection: Molecular Quantum Dot Sensors
Fabrizio Mo
Politecnico di Torino

Thu., Nov. 14, 2024, 1 p.m.
This seminar is held in presence and online.
Room: HAL 115
Online: Zoom link of our Chair

Linkedin


Single-molecule detection has recently become a reality, achieving the ultimate limit of chemical detection sensibility. It enables the quantification and detection of dynamical (bio)-chemical processes, rare events, and aberrant chemical species, which are otherwise lost in the chemical noise. Furthermore, calibration-free sensing is in principle possible, opening the way toward new sensing paradigms.
The electrical single-molecule detection enables the integration of the sensor with the front-end electronics, thus setting the conditions for large-scale production of automatic, portable, multi-purpose, innovative sensory systems. At present, the knowledge in electrical single-molecule detection is still at its embryonal stage, and the literature lacks design principles and guidelines.
The talk focuses on electrical single-molecule detection through molecular quantum dots. It covers some selected topics concerning recent and ongoing theoretical and experimental achievements regarding the engineering and design of such sensors. It encloses a brief discussion on future developments in this novel and thrilling area of research.


Brief CV

Fabrizio Mo is currently a Research Assistant at VLSI Lab – Molecular Nanocomputing Unit, Polytechnique of Turin, Italy. His primary research topics are single-molecule electrical sensors and relative front-end electronics. His research interest is also focused on molecular electronics, transport in nano-devices, and nanotechnology, especially beyond CMOS systems.



Share