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Nanotechnology PhD Projects, Programs & Scholarships in Cardiff

We have 14 Nanotechnology PhD Projects, Programs & Scholarships in Cardiff

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Showing 1 to 14 of 14
  Confined epitaxial growth of InP on silicon for advanced photonic structures
  Dr Q Li, Dr D Wallis
Application Deadline: 30 June 2020

Funding Type

PhD Type

With the widespread use of mobile devices, the level of data traffic in the world is going up very quickly.
  VC International Scholarship in Physical Sciences - Understanding carrier dynamics in CuInZnS3 quantum dots toward high-performance indoor photovoltaics
  Dr BH Hou, Prof W W Langbein, Prof P Borri, Prof P M Smowton
Application Deadline: 1 June 2020

Funding Type

PhD Type

CuInZnS3 quantum dots (CIZS QDs) is a non-toxic and phosphide free material which has a significant potential for wearable PVs and indoor PVs.
  VC International Scholarship in Physical Sciences - Lattice Anchoring Mediated Colloidal Quantum Dot Passivated Perovskite Superlattice Toward High Ambient Tolerance Multiple-Junction Solar Cells
  Dr BH Hou, Prof W W Langbein, Dr S Lynch, Prof P M Smowton
Application Deadline: 1 June 2020

Funding Type

PhD Type

Organic-inorganic lead halide perovskites solar cells (PSCs) are recognized as promising third-generation photovoltaic technology due to their excellent photovoltaic performance and high compatibility with cost-effective manufacturing processes.
  VC International Scholarship in Physical Sciences -Hybrid Energy Harvester Based on Colloidal Quantum Dot Solar Cells and Triboelectric Nanogenerator
  Dr BH Hou, Dr S Lynch, Prof W W Langbein, Prof P M Smowton
Application Deadline: 1 June 2020

Funding Type

PhD Type

Recent advances in energy harvesting using photovoltaic and triboelectric effects demonstrate outstanding performances of energy harvesters as power supplies.
  VC International Scholarship in Physical Sciences -Flexible textile-based self-powered energy harvesting and storage system for smart wearable electronics.
  Dr BH Hou, Prof O Williams, Prof G Min
Application Deadline: 1 June 2020

Funding Type

PhD Type

Smart wearable electronics that are fabricated on fabrics or textile substrates are of importance for next-generation portable electronic device systems.
  1.55 μm lasers epitaxially grown on silicon for optical interconnects
  Dr Q Li, Prof P M Smowton
Application Deadline: 30 June 2020

Funding Type

PhD Type

Achieving high performance, long lifetime, and electrical injection silicon-based lasers will deliver the last missing building block in silicon photonics, a platform that can not only enable optical interconnects, but also serve other growth markets such as cluster computing, light detection and ranging (LIDAR), machine vision and environmental sensing.
  Nanomaterials for the Next Generation of Functional and Smart Fluids
  Dr D Zabek, Dr J Bartley, Prof G Min
Application Deadline: 31 May 2020

Funding Type

PhD Type

Background. Functional-, or smart materials naturally respond to external forces by adapting their mechanical, electrical, thermal and magnetic properties to the environment.
  Building bionanohybrid circuits: understanding and applying single protein molecule function
  Prof J E Macdonald, Dr D Jones, Dr O Castell
Application Deadline: 5 June 2020

Funding Type

PhD Type

Merging ideas and principles from biology with the physical sciences has proved pivotal in improving our fundamental understanding of nature and the generation of new technologies that impact on our everyday lives.
  Understanding carrier dynamics in CuInZnS3 quantum dots toward high-performance indoor photovoltaics.
  Prof W W Langbein, Dr BH Hou
Applications accepted all year round

Funding Type

PhD Type

Project description. CuInZnS3 quantum dots (CIZS QDs) is a non-toxic and phosphide free material which has a significant potential to be used in wearable PVs and indoor PVs [1,2].
  Lattice Anchoring Mediated Colloidal Quantum Dot Passivated Perovskite Superlattice Toward High Ambient Tolerance Multiple-Junction Solar Cells
  Dr BH Hou, Prof W W Langbein
Applications accepted all year round

Funding Type

PhD Type

Project description.
  Hybrid Energy Harvester Based on Colloidal Quantum Dot Solar Cells and Triboelectric Nanogenerator
  Dr BH Hou, Prof P M Smowton
Applications accepted all year round

Funding Type

PhD Type

Recent advances in energy harvesting using photovoltaic and triboelectric effects demonstrate outstanding performances of energy harvesters as power supplies.
  Active Colloidal-Quantum-Dot Light Emitting Devices: QD Laser and QD LEDs
  Dr BH Hou, Prof P M Smowton
Applications accepted all year round

Funding Type

PhD Type

Realization of electrically pumped lighting and lasing with colloidal quantum dots will have a revolutionary impact on many disciplines including display, photonics, optical communication, chemical sensing, and medical diagnostics.
  Exciton dynamics in diamond and two-dimensional metal dichalcogenide enabled van der Waals heterostructures
  Prof O Williams, Dr BH Hou
Applications accepted all year round

Funding Type

PhD Type

Two-dimensional (2D) materials offer a platform that allows the creation of heterostructures with a variety of properties. One- atom-thick crystals now comprise a large family of these materials, collectively covering a comprehensive range of features and numerous intrigue scientific challenges.
  Flexible textile-based self-powered energy harvesting and storage system for smart wearable electronics
  Dr BH Hou, Prof O Williams
Applications accepted all year round

Funding Type

PhD Type

Smart wearable electronics that are fabricated on fabrics or textile substrates are of importance for next-generation portable electronic device systems.
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