The Science and Solutions for a Changing Planet (SSCP) Doctoral Training Partnership integrates six host partners and a number of business and policy sector partners, to offer an exciting programme that trains and inspire the next generation of environmental experts and leaders to tackle some of the toughest challenges of our time.
The main objective of the project is to develop and exploit emerging microfluidic and big data optimisation approaches, coupled with small angle scattering, in the context of complex fluids, or “formulations”.
The department of Chemical Engineering at Imperial College London is seeking to recruit a PhD student to carry out research with Professors Titirici in the exciting area of metal free oxygen electrocatalysis.
We are seeking a PhD student to join the Department of Chemical Engineering, Imperial College within the research group of Prof. Titirici to investigate the synthesis of fluorescent carbon dots from biomass derivatives produced using hydrothermal processes and to understand their interaction with light.
Microbially-synthesised cellulose nanofibres, more commonly known as bacterial cellulose (BC), is an ultra-pure form of cellulose nanofibers with mechanical performance exceeding that of single E-glass or Kevlar fibre.