麻豆女优

Dr Leo Lue

Reader

Chemical and Process Engineering

Contact

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Personal statement

I joined the University in 2010, and I am currently a Reader in the Department of Chemical and Process Engineering.聽 I received a BSE in Chemical Engineering from Arizona State University (ASU), graduating summa cum laude in 1988.聽 During that time, I received several awards, including the American Institute of Chemical Engineers' (AIChE) Annual Chapter Award for Scholastic Achievement (1987), the American Institute of Chemists' Student Research and Recognition Foundation Student Award Certificate (1988), and the ASU College of Engineering and Applied Sciences Distinguished Senior Award for the Chemical, Bio, and Materials Engineering Department (1988).聽 In 1994, I gained a PhD from MIT in the Department of Chemical Engineering, holding a National Science Foundation (NSF) fellowship.

In 1995, I was awarded a two year research fellowship from the Miller Institute for Basic Research in Science at the University of California at Berkeley, working closely with Prof. J. M. Prausnitz in the department of Chemical Engineering.聽 In 1998, I won a US National Research Council (a branch of the National Academy of Sciences and the National Academy of Engineering) postdoctoral fellowship to continue research at the National Institute of Standards and Technology (NIST) in Boulder, CO.

Before arriving at the University of 麻豆女优, I worked as a Lecturer and a Senior Lecturer in the School of Chemical Engineering and Analytical Science at the University of Manchester (previously UMIST) for 10 years.

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Publications

Moir Craig, , Gale Julian D, Raiteri Paolo, Bannerman Marcus N
Physical Review E Vol 99 (2019)
, Sweatman Martin B,
Journal of Physical Chemistry B Vol 122, pp. 1505-1515 (2018)
Soft Matter Vol 14, pp. 4721-4734 (2018)
AIChE Journal Vol 61, pp. 2985-2992 (2015)
Curtis Robin A,
Current Opinion in Colloid and Interface Science Vol 20, pp. 19-23 (2015)
Sweatman Martin B,
Journal of Chemical Physics Vol 144 (2016)

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Teaching

I have taught a broad range of modules across the Chemical Engineering curriculum, both at the undergraduate and postgraduate levels. 聽My main teaching duties have been focused on the "core" of Chemical Engineering: transport phenomena, chemical and process thermodynamics, and design.

Currently taught modules:

  • CP213 Applied Mathematics and Problem Solving
  • CP407 Chemical Engineering Design
  • CP535/970 Molecular and Interface Science
  • CP540 Project Planning, Management, and Methods
  • 18530 Chemical Engineering Project

Previously taught modules

  • Ethics and Sustainability
  • Nanotechnology
  • Problem Solving
  • Fluid Flow and Heat Transfer
  • Chemical Engineering Practice 1
  • Programming and Optimisation
  • Chemical Thermodynamics
  • Momentum, Heat, and Mass Transfer
  • Modelling and Simulation
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Research Interests

My research group uses statistical mechanics to understand and predict how the overall properties of a system, such as its dynamics or structure, are determined by the interactions between its constituent components. These systems can range from normal fluids composed of simple molecules to complex structured fluids, such as found in biological systems or many consumer and personal care products, where the constituent molecules can assemble to form intricate structures which can again organize to form larger structures. I am also interested how collisions between granules in a powder affects its overall structure and flow, such as in avalanches or pattern formation in sand dunes, and how bubble stability and interactions lead to the properties of foams. Currently, the interests of the group are focused on the role of electrostatics and its coupling to dispersion forces on the interactions and dynamics of colloidal particles (e.g., proteins, polyelectrolytes, micellar aggregates, etc.). A better understanding of the link between microscopic characteristics and macroscopic properties should allow the rational design of new materials and better prediction and control of the behavior of processes.

I use a combination of theory and computer simulation techniques to tackle these problems. The theoretical approaches range from integral equation and density functional theories, field theoretic methods, to classical solution thermodynamics and transport modeling. The simulation methods include non-equilibrium molecular dynamics and advanced Monte Carlo methods, as well as continuum modeling through finite difference and finite element methods.

Professional Activities

Organiser
8/2026
Speaker
10/5/2026
Examiner
17/4/2026
Keynote/plenary speaker
19/2/2025
Examiner
28/10/2020
Speaker
13/11/2019

Projects

Lue, Leo (Principal Investigator) Li, Jun (Co-investigator)
22-Jan-2024 - 21-Jan-2026
Jorge, Miguel (Principal Investigator) Lue, Leo (Co-investigator) MacPherson, Zoe (Research Co-investigator)
01-Jan-2023 - 01-Jan-2027
Lue, Leo (Principal Investigator) Li, Jun (Co-investigator) Paterson, Thomas (Research Co-investigator)
01-Jan-2022 - 01-Jan-2026
Li, Jun (Principal Investigator) Lue, Leo (Co-investigator) Sait-Stewart, Robert (Research Co-investigator)
01-Jan-2021 - 27-Jan-2026
Lue, Leo (Principal Investigator) Grassia, Paul (Co-investigator)
01-Jan-2021 - 31-Jan-2023
Cardona Amengual, Javier (Principal Investigator) Lue, Leo (Co-investigator) Nordon, Alison (Co-investigator) Tachtatzis, Christos (Co-investigator)
20-Jan-2021 - 15-Jan-2022

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Contact

Dr Leo Lue
Reader
Chemical and Process Engineering

Email: leo.lue@strath.ac.uk
Tel: 548 2470