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Condensed Matter Physics (self) PhD Projects, Programs & Scholarships

We have 45 Condensed Matter Physics (self) PhD Projects, Programs & Scholarships

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  Computer simulations of surfactant self-assembly, adsorption, and friction in oil-based lubricants
  Prof P Camp
Applications accepted all year round

Funding Type

PhD Type

Academic Supervisor. Professor Philip J. Camp, School of Chemistry, University of Edinburgh. Industrial Supervisor. Dr Beatrice N.
  Modelling the self-organisation of metal-organic molecular networks on active substrates.
  Prof N Caffrey
Applications accepted all year round

Funding Type

PhD Type

The goal of this project is to computationally design atomically-thin ‘smart surfaces’ which can change their form or function in response to external stimuli.
  Three-Dimensional Active Liquid Crystals: Defects and Topology
  Dr GP Alexander
Applications accepted all year round

Funding Type

PhD Type

Active matter is a class of materials in which the individual constituents continually consume energy to generate work or motion, maintaining the system in dynamic, self-organised, nonequilibrium states [1].
  A Scalable and Coherent Semiconductor Spin-Photon Interface (EPS2020/28)
  Dr B D Gerardot
Application Deadline: 28 February 2020

Funding Type

PhD Type

Scalability is an outstanding challenge in semiconductor quantum technologies. This project aims to address this by realizing small nodes of coherent spin-photon interfaces.
  Making monoatomic layers by physical methods
  Dr R Boya
Applications accepted all year round

Funding Type

PhD Type

Following the discovery of graphene, many self-standing, stable, single atomic layers such as boron nitride (BN), molybdenum disulphide (MoS2), tungsten disulphide (WS2) etc., have been isolated.
  Quantum Dot Spin State Tailoring for Scalable On-Chip Quantum Information Processing
  Dr K Lagoudakis, Prof R Martin
Applications accepted all year round

Funding Type

PhD Type

A successful implementation of a fault tolerant quantum computer based on solid state spin qubits will most likely involve their arrangement in a regular lattice.
  Computational design of bio-inspired silica materials for carbon capture
  Dr M Jorge
Applications accepted all year round

Funding Type

PhD Type

Materials that are porous at the nanoscale are used in a wide variety of applications, like gas separation, carbon capture, catalysis and drug delivery.
  Applications of topology to soft matter physics
  Dr M Grant, Dr R Hepworth
Applications accepted all year round

Funding Type

PhD Type

This project will address mathematical problems in the research field of algebraic topology, inspired by the theory of topological defects in soft materials.
  Boundary Effects in Active Matter Systems
  Dr F Ginelli
Applications accepted all year round

Funding Type

PhD Type

he study of collective properties of active matter is a fast-emerging interdisciplinary research field.
  Enhancing predictability in chaotic systems
  Dr F Ginelli, Prof A Politi
Applications accepted all year round

Funding Type

PhD Type

The goal of this research program – which involves theoretical analysis and numerical simulations -- is to apply fundamental results and recent developments (to which the supervisors significantly contributed) of dynamical system theory to enhance our ability to predict the future evolution of complex and chaotic dynamical systems -- such as weather and climate systems.
  Modelling the deformation of cells
  Dr F Perez-Reche
Applications accepted all year round

Funding Type

PhD Type

Cells are the elementary building blocks of living organisms. The correct functioning of living organisms is therefore conditioned to the ability of living cells to withstand forces and deformations and to promptly adapt to their mechanical environment.
  New responsive electrolytes for energy conversion
  Dr A Martinez-Felipe, Dr M N Campbell-Bannerman
Applications accepted all year round

Funding Type

PhD Type

Fuel cells have high efficiency, generate low levels of emissions, and can consume renewable sources, in combination with energy vectors, making them excellent candidates as for alternative power production technologies.
  Process models for Portland cement manufacturing
  Dr M N Campbell-Bannerman, Dr P Kechagiopoulos
Applications accepted all year round

Funding Type

PhD Type

Cement is the most ubiquitous product after drinking water, with 4.1B tons produced in 2017 alone, enough for half a ton per person per year worldwide.
  Thermally superconducting and superinsulating nanofluids and their use in nanodevices
  Dr M N Campbell-Bannerman, Dr J Derksen
Applications accepted all year round

Funding Type

PhD Type

Nanotechnology is the forefront of a new industrial revolution. As the scale of new devices shrink, the design bottle-neck becomes getting rid of waste heat.
  Modelling Wetting on Structured Surfaces using the Lattice Boltzmann Method
  Dr H Kusumaatmaja
Application Deadline: 20 March 2020

Funding Type

PhD Type

The wetting behaviour of liquids on solid surfaces plays an important role for current and emerging technologies involving liquids from the nano- to the macro-scales.
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