AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |
Back to Blog
Iridium metal xps3/31/2024 ![]() Introduction Functional materials on the nano- to macro-scale provide solutions for some of the most critical scientific problems of the current age, from the use of heterogeneous catalysts to improve the environmental footprint and commercial viability of fine chemical synthesis ( e.g. She also uses computational methods to simulate photoemission spectra, and uses a joint experimental and theoretical approach in her research. She is currently enrolled on an EngD programme (2019–2023), sponsored by Thermo Fisher Scientific, and focuses on photoemission spectroscopy and valence band spectrum analysis. In her fourth year project she developed and modified nanostructured TiO 2 electrodes and used these to fabricate and analyse their performance in solar cells. Roxy graduated with an MSci Chemistry from UCL in 2018. He has interests in standards, experimental design, data analysis and multi-technique analysis. Since 2007 he has been the Surface Analysis manager at Cardiff University and the technical manager of HarwellXPS since 2017. Graham Hutchings FRS focusing on model catalytic studies using high pressure XPS and oversaw the ESPRC Access to Research Equipment initiative for X-Ray Photoelectron Spectroscopy. Davies, where he then undertook postdoctoral research under the supervision of Prof. Morgan obtained his PhD in surface science and catalysis in 2002 from Cardiff University under the supervision of Prof. She also uses computational methods to simulate photoemission spectra, and uses a joint experimental and theoretical approach in her research.ĭavid J. His research interests include investigating selectively catalytic hydrogenation using electrochemical methods and CO oxy-chlorination reactions with various surface characterization techniques such as X-ray photoelectron spectroscopy and Surface enhanced Raman spectroscopy. After that, he received his PhD degree in Electrochemistry from Cardiff University (UK) under the supervision of Prof. He received his BS degree in Applied Chemistry from Beijing University of Chemical Technology (China) and MSc in Chemical Enzymology from Queen's University Belfast (UK). Shaoliang Guan is currently a Research Associate and Co-Investigator at the EPSRC National Facility for Photoelectron Spectroscopy (HarwellXPS), UK. Josh joined Harwell XPS in 2021 as a postdoctoral researcher exploring novel applications of CRYO-XPS. Studying surface chemistry of anisotropic nanoparticles used for magneto-optical diagnosis. ![]() He pursued his PhD in materials science under the supervision of Professor Phil Davies. Josh Davies-Jones graduated from Cardiff University in 2012 with a Master of Chemistry. He is the current chair for the Society of Chemical Industry's early career materials science committee. His current research interests include developing composite oxide porous nanomaterials and the study of nanomaterial formation by XPS and related surface analysis techniques. He moved to Aston university as a PDRA in 2014, developing hierarchically porous catalysts for domino or cascade reactions, before joining University College London and HarwellXPS in 2018. Mark Isaacs graduated with an MChem from Cardiff University in 2010, before undertaking a PhD with Profs Adam Lee and Karen Wilson in the development of silver-based nanocomposites for antibacterial applications. This review aims to bring to the attention of the general materials audience a landscape of some atypical applications of lab-based XPS and combinatorial approaches of related surface analysis, such as ion scattering, ultraviolet photoelectron, electron energy loss and auger emission spectroscopies found on many lab-based instrument set-ups. Advanced XPS techniques, or a combination of XPS and a complementary surficial probe may elicit auxiliary information outside of the scope of the standard sphere of appreciation. X-ray photoelectron spectroscopy (XPS) has achieved maturity as an analytical technique in that it is a ubiquitous tool in the materials community, however as made apparent by recent reviews highlighting it's misuse as a means of chemical deduction, it is a practice which is greatly misunderstood even in its simplest form.
0 Comments
Read More
Leave a Reply. |