91福利

Biography

Dr. Sangtarash is an Associate Professor in Nanoelectronics and in the School of Engineering at the 91福利. She obtained her PhD from Lancaster University as a Marie-Curie Early Stage Researcher, developing the theory of nanoscale transport, within the EU Innovative Training Network 鈥淢olecular-scale Electronics: Concepts, Contacts and Stability鈥� . She was awarded the Lancaster JUNO Prize for research excellence in 2016. After finishing her PhD, she became a Senior Research Associate at Physics department, Lancaster University and in 2018 she awarded a Leverhulme Trust Early Career Fellowship working on material engineering for high-performance molecular-scale thermoelectricity. Dr Sangtarash joined the 91福利 in 2020.

Research Interests

Research Overview

Magic ratios and mid gap theory for molecular electronics

Magic ratio theory provides a simple but accurate design tool to predict electrical codncutance and thermoelectricity in graphene like molecules.

Selected related publications

• S Sangtarash, , PhD thesis, 2017.
• S Sangtarash, et al., JACS, 2015. DOI:.
• S Sangtarash, et al., Nanoscale, 2016. DOI:
• Y Geng, et al., JACS, 2015. DOI:
• S Sangtarash, et al., Phys. Chem. Chem. Phys., 2018. DOI:

• A Daaoub, et al., Angew. Chem. Int. Ed., 2023. DOI: nk opens in a new window

Graphene nanoribbon electronics

Graphene nanoribbons (GNRs) are quasi one-dimensional single-atom-thin carbon-based nanostructures. Their electronic properties can be controlled by engineering their shape and edge structure which makes them attractive for nanoelectronic applications.

Selected related publications

• ML Abbassi, et al, ACS Nano, 2020, DOI:

• P R茅my, et al. JACS, 2020, DOI:
• ML Abbassi, et al, Nature Nanotechnology, 2019, DOI:
• J Zhang, et al, Nature Electronics, 2023. DOI:

Quantum interference for molecular electronics

Quantum interference can be used to enhance electronic properties of molecular junctions at room temperature.

Selected related publications

• S Sangtarash, 2021, arXiv:
• W Chuanli, et al. Nano Letters, 2020, DOI:
• S Sangtarash, et al. Nanoscale Advances, 2020, DOI:
• Bai et al, Nature Materials, 2019. DOI:

• S Naghibi, et al., Angew. Chem. Int. Ed., 2022. DOI:

Teaching Interests

ES191: Electrical and Electronic Circuits

ES195: Materials for Engineering

ES197: Systems Modelling, Simulation and Computation

Publications

For full list visit:

Projects and Grants

• EPSRC new investigator award, May 2023: responsive mode, Principle investigator
  Project Title: Quantum Engineering of Atomically Precise Nanoclusters for Cooling and Energy Harvesting (NanoCool)
  Value: 拢447K | Duration: 01/02/2025 - 31/01/2028
• Horizon Europe EIC PathFinderOpen - UKRI InnovateUK Guarantee Scheme, Co-investigator, No: 101099098
  Project Title: Atomically Precise Nanoribbons Quantum Platform (ATYPIQUAL).
  Duration: 01/10/2023 - 31/03/2027
• The Leverhulme Trust Early Career Fellowship, (Covid Extension)
  Duration: 01/05/2022 - 30/04/2024
• The Leverhulme Trust Early Career Fellowship, Principle investigator, No: ECF-2018-375
  Project Title: Quantum engineering of high-performance molecular-scale thermoelectricity.
  Duration: 01/05/2019 - 30/04/2022