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Â׶شóѧѧԺBenjamin Moss²©Ê¿ÕÐÊÕÈ˹¤ÖÇÄÜ¡¢Ôλ¹âÆס¢´ß»¯Ïà¹Ø26Ä격ʿÉú
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µ¼Ê¦¼ò½é Dr. Benjamin Moss is a Lindemann Fellow at the California Institute of Technology in the High-Throughput Experimentation (HTE) Laboratory and an incoming Lecturer in Inorganic Materials Chemistry at University College London. He obtained his PhD in 2020 at Imperial College London under the supervision of Prof. James Durrant, where he developed transient operando reflectance spectroscopy for photocatalyst nanoparticle systems. After that, Ben joined Prof. Ifan Stephens¡¯ group at Imperial College, focusing on automated operando UV¨Cvis spectroscopy for electrocatalysis. He has published a series of papers in JACS, Nature Chemistry, Nature Reviews Methods Primers, and Nature Catalysis. His current research interest lies in developing high-throughput spectroelectrochemical methods to extract electrocatalyst activity descriptors. ÉêÇ뷽ʽ Contact: benmoss@caltech.edu ²©Ê¿ÏîÄ¿ PhD Studentship: High-Throughput Operando Spectroscopy for (Photo)Electrocatalyst Discovery University College London. Start date June-October 2026. Affordable renewable electricity creates major opportunities for carbon-neutral fuels and chemicals, as progress is now limited by how quickly we can discover electrocatalysts that convert renewable power into chemical products. Unlike drug discovery¡ªwhere machine-learning (ML) models are driven by vast, standardized datasets¡ª(photo)electrocatalysis lacks large, high-quality experimental data because catalysts form dynamic, disordered nanometre-scale interfaces that must be measured in situ using traditionally slow spectroscopies. This PhD addresses this bottleneck by developing new automated, high-throughput operando spectroscopic workflows to generate statistically robust structure¨Cfunction datasets. These tools will enable systematic exploration of catalyst behaviour across materials systems and provide the experimental foundations for data-driven discovery. The project is ideal for students excited by fundamental science, instrumentation, automation, and digital chemistry. You will work across chemistry, physics, engineering, and data science to develop new experimental capabilities at UCL. Ñо¿ÄÚÈÝ Research Activities • Design and optimisation of automated, open-source operando spectroscopic instrumentation • High-throughput operando characterisation of electro- and photoelectrocatalysis • Large-scale materials characterisation and dataset creation • Operando mechanistic studies of catalyst restructuring and reaction intermediates • Opportunities for training and travel (US, China, Japan) ÉêÇëÒªÇó Candidate Profile Backgrounds welcomed: Chemistry, Chemical Engineering, Materials Science, Physics, or Digital Chemistry. ÉêÇë±Ø±¸Ìõ¼þ Essential: • Programming experience (Python) and data analysis • A motivated, curious researcher who enjoys building tools and working across disciplines. ÉêÇëÓÅÏÈÌõ¼þ Desirable: • Instrumentation or automation experience • Electrochemistry / electrocatalysis • Optical or spectroelectrochemical spectroscopy • Machine learning for scientific applications ×ÊÖúÓë×ʸñ Funding & Eligibility This studentship is available to applicants with UK nationality or permanent residency. Overseas candidates may enquire about alternative funding options. |
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