Ahmed Sheta, a PhD student who is under Prof. Julio Lloret-Fillol supervision, has successfully defended his PhD thesis entitled “CO₂ as a C1 Surrogate under Electrocatalytic Conditions” publicly on Tuesday, 9 September.

The members of the evaluation committee were Prof. Marc Robert (Centre National de la Recherche Scientifique (CNRS), France), Dr. Sergio Gonell Gómez (Universitat Jaume I (UJI)) and Dr. Ana M. Geer (ISQCH Instituto de Síntesis Química y Catálisis Homogénea).

Ahmed is from Egypt, where he completed both his Bachelor’s and Master’s degrees in Chemistry at Damietta University. In his free time, he enjoys watching and playing football, as well as reading. He is also a proud father of two children, Aser (10) and Amar (3).

He is a PhD fellow at ICIQ under the supervision of Prof. Julio Lloret-Fillol, funded by an FPI fellowship (PRE2020-094153, MCIN/AEI /10.13039/501100011033 and ESF “European Social Fund. Investing in your future”).

Why did you become a scientist?

Since childhood, I’ve been driven by curiosity and a passion for understanding the world. I enjoy analyzing data, designing experiments, and solving complex problems, which naturally led me to science.

What is your thesis about?

My thesis explores the electrocatalytic conversion of CO₂ into valuable chemicals. By treating CO₂ as a “C1 building block,” my work aims to transform a greenhouse gas into a sustainable resource for chemical production.

What triggered your interest in this subject?

I was motivated by the urgent need for sustainable solutions to climate change. The idea of converting CO₂ from a pollutant into a valuable feedstock fascinated me and aligned with my commitment to environmental responsibility.

What applications can your thesis have in the future?

This research could enable the production of fuels and chemicals from CO₂ using renewable electricity, reducing dependence on fossil fuels. It also contributes to carbon capture and utilization strategies, supporting a circular carbon economy.

What will you miss most from ICIQ?

I’ll miss the vibrant and collaborative community. Daily discussions with colleagues, shared challenges, and collective successes created an inspiring environment that made research both productive and enjoyable.

What advice would you give to someone starting a PhD?

Embrace setbacks as learning opportunities, build strong relationships with colleagues, and take care of your well-being. A PhD is a marathon—resilience, curiosity, and balance are key to success.

Where are you going next?

I am applying for an MSCA fellowship in the UK. If successful, I’ll continue my research on CO₂ utilization, expand my skills, and contribute to new projects in a stimulating environment.

What is your favourite molecule?

CO₂. Often seen as a climate “villain,” it’s actually a versatile molecule with huge potential. In my research, it represents both a challenge and an opportunity to build a more sustainable chemical industry.

If you were a piece of lab equipment, what would you be?
I would be a potentiostat, since it lies at the heart of electrochemical experiments. It precisely controls and measures electrical signals, enabling a deep understanding of electron transfer processes—exactly what I study in CO₂ electrocatalysis. In the same way, I approach research with precision and careful analysis, aiming to unravel complex chemical transformations.

La entrada تهانينا, Dr. Sheta! se publicó primero en ICIQ.

A new study by ICN2 researchers highlights how experimental factors such as temperature, measurement techniques, and data normalisation can significantly influence methane oxidation results. The findings underscore the need for standardised protocols to advance sustainable fuel research.

El cáncer de páncreas es uno de los tumores mejor conocidos a nivel molecular, y sin embargo su índice de supervivencia sigue siendo extremadamente bajo. Menos del 5% de los pacientes llegan a vivir cinco años tras el diagnóstico.

Esto tiene que ver con el diagnóstico tardío, dado que la mayoría de los casos se detectan cuando el tumor ya no es operable. Además, en cáncer de páncreas aún no se ha podido avanzar en el uso de terapias personalizadas o de inmunoterapia, exitosas en otros tipos tumorales.

Los últimos avances en la investigación en esta área serán presentados el próximo 17 de septiembre en el congreso Cáncer de Páncreas: retos y perspectivas futuras, organizado por los investigadores del Centro Nacional de Investigaciones Oncológicas (CNIO) Mariano Barbacid y Carmen Guerra en la Fundación Ramón Areces.

Una veintena de investigadores e investigadoras de centros en su mayoría europeos expondrán resultados de investigación básica, traslacional y clínica, sobre el origen y la evolución molecular y celular de estos tumores; la búsqueda de nuevas terapias en modelos experimentales; y los ensayos con una nueva generación de fármacos, especialmente los inhibidores del oncogén KRAS.

El objetivo es ofrecer “una visión actualizada de los avances que están teniendo lugar en el estudio y tratamiento del ADP (Adenocarcinoma Ductal de Páncreas)”, señalan los organizadores.

Mariano Barbacid es jefe del grupo de Oncología Experimental del CNIO, donde investiga también Carmen Guerra, especializada en cáncer de páncreas. Por parte del CNIO intervienen además en el congreso Francisco X. Real, jefe del grupo de Carcinogénesis Epitelial; Nuria Malats, jefa del grupo de Epidemiología Genética y Molecular; y Vasiliki Liaki, del grupo de Oncología Experimental.

Prevención y detección precoz

Real destaca la necesidad de desarrollar estrategias preventivas para el cáncer de páncreas. Su grupo investiga los mecanismos moleculares implicados en las etapas más iniciales del cáncer de páncreas y ha descubierto recientemente una estrategia farmacológica que podría contribuir a reducir el riesgo de desarrollo de este tumor.

Malats hablará de la relación a escala molecular entre el cáncer de páncreas, la diabetes y la obesidad. Liaki presentará resultados que muestran la efectividad de diversas terapias combinadas en modelos animales, potencialmente útiles para “guiar el desarrollo de ensayos clínicos que puedan beneficiar a pacientes de cáncer de páncreas”.

Nuevos fármacos y abordajes con inmunoterapia

La investigadora Teresa Macarulla, del Instituto de Oncología Vall d’ Hebron (VHIO), expondrá las nuevas estrategias terapéuticas que están siendo exploradas “para mejorar las tasas de supervivencia de los pacientes de cáncer de páncreas en la próxima década”, explica.

Ignacio Garrido-Laguna, del Huntsman Cancer Institute – Cancer Hospital South, de la Universidad de Utah (EE.UU.), analizará los resultados que están obteniendo los recientes fármacos inhibidores del oncogén KRAS, mutado en el 90% de los pacientes con el cáncer de páncreas más común. Hablará de los ensayos clínicos con nuevos inhibidores en estudio y de su sinergia con estrategias basadas en la inmunoterapia.

Peter Bailey, director de Investigación Traslacional en el Centro de Investigación del Cáncer de Páncreas Botton-Champalimaud (Lisboa), investiga sobre todo los mecanismos genéticos y no genéticos que impulsan la resistencia a la quimioterapia en el cáncer de páncreas. Bailey ha realizado contribuciones fundamentales a la clasificación del cáncer de páncreas (los llamados «subtipos de Bailey»).

La asistencia al congreso es gratuita hasta completar aforo, con inscripción online previa.

Información sobre el programa y los participantes: Actividades – Fundación Ramón Areces

La entrada Los últimos avances en la investigación del cáncer de páncreas, en un congreso organizado por investigadores del CNIO en la Fundación Ramón Areces se publicó primero en CNIO.

Suyun Sun, a PhD student who is under Prof. Julio Lloret-Fillol supervision, has successfully defended his PhD thesis entitled “Chloroalkanes as Radical Precursors Mediated by Well – Defined Nickel Catalysts under Photoredox Catalysis: Synthetic Application and Mechanistic Investigation” publicly Monday, 8 September.

The members of the evaluation committee were Prof. Rubén Martín Romo (ICIQ), Prof. Fabio Juliá Hernández (Universidad de Murcia) and Dr. Esther Alza (Treellum Technologies).

Suyun Sun obtained his Bachelor’s degree in Polymer Science and Engineering from Shenyang University of Chemical Technology and his Master’s degree in Chemistry from ICIQ. In the spring of 2021, he joined the Lloret-Fillol group at ICIQ. Outside the lab, he enjoys hiking, photography, botany, horticulture, floristry, and classical music. Suyun’s doctoral research is generously funded by the China Scholarship Council, which is affiliated with the Ministry of Education of the P.R.C.

Why did you become a scientist?

As chemists, we create compounds and complexes that have never before existed on this planet. To me, conducting scientific research is not only meaningful but also genuinely exciting

What is your thesis about?

My research focuses on utilizing inert chloroalkanes as building blocks in organic synthesis through photoredox nickel catalysis, underpinned by comprehensive mechanistic understanding.

What triggered your interest for the subject of your thesis?

For me, science is about building on the knowledge and achievements of those who came before us, and then pushing the boundaries to realize what once seemed impossible. My thesis embodies this spirit: drawing on established concepts in catalysis while developing new strategies that unlock previously inaccessible reactivity.

From the lessons learnt (or skills developed) at ICIQ, which one do you value the most?

If the things don’t work, make them work.

What do you wish you had known at the beginning of your PhD?

I wish I had known that I would actually enjoy the journey and feel proud of myself, just as I do now, while writing these words.

What advice do you have for someone who’s starting their PhD now?

Project mostly don’t go as planned, half of your PhD will be fixing things that don’t work, and the other half will be realizing your results raise more questions than they answer. But hey, that’s perfectly normal.

If you were a piece of lab equipment, what would you be?

A cuvette. It is versatile for various spectroscopic techniques, and I believe I get along with it very well.

Tell us something about you that people might not know… 

Beyond science, I’m both a florist / gardening enthusiast and a flutist. One lets me work with colours and scents, the other with sounds and melodies

La entrada 恭喜, Dr. Sun! se publicó primero en ICIQ.

A research team led by Prof. Nuria Lopez from ICIQ and Prof. Sophia Haussener from EPFL has developed a novel ab-initio multiscale methodology for electrochemical CO₂ reduction (e-CO₂R). By combining the atomic-scale kinetics with the transport effects, the team has identified optimal electrolyte conditions that enhance the selectivities of e-CO₂R products.

e-CO₂R is a promising technology to convert harmful greenhouse gases into valuable chemicals and fuels using renewable electricity. While catalyst materials have been widely studied, the surrounding electrolyte environment also strongly influences the reactivity and faradaic efficiencies. Despite advances in the computational catalyst design through scaling relations and volcano plots, the rational design of electrolyte microenvironments remained scarcely investigated.

The team filled this gap by coupling ab-initio microkinetic modeling with continuum-scale transport simulations, explicitly considering electrolyte effects across all relevant length scales. For liquid electrolytes, the results revealed an inverse relationship between cation concentration and CO₂ availability at the catalyst interface. This led to a “volcano” type relation between current densities and the number of microenvironments at the electrode/electrolyte interface. Extending the methodology to realistic membrane/electrode configurations, the researchers showed that while ionomers can overcome this limitation through fixed background charge concentrations, water management becomes critical to achieve high current densities.

These findings were recently published in the journal Nature Catalysis, marking an important step towards rational design of electrolytes.

Prof. Lopez said “This is a long-term and fantastic collaboration between two computational groups to model the electrochemical interfaces. All the information usually hard to obtain through experimental characterization is now unlocked through the ab-initio multiscale model.”

Prof. Haussener said “Multiscale modelling is essential to capture the complex interactions at the electrode/electrolyte interfaces and guide the design of efficient eCO₂R systems. Our innovative approach stems from combining expertise across fields in interdisciplinary teams.”

Looking ahead, the researchers plan to extend their methodologies to model gas-diffusion electrolyzers and zero-gap membrane electrode assembly configurations, which are essential for optimizing industrial-scale electrolyzers. This work has broad implications for the development of predictive digital twin technologies, not only for e-CO₂R but also for other electrochemical processes such as electrosynthesis of organic compounds.

Reference publication

Microenvironment effects in electrochemical CO2 reduction from first-principles multiscale modelling
Lorenzutti, F.; Seemakurthi, R. R.; Johnson, E. F.; Morandi, S.; Nikačević, P.; López, N.; Haussener, S.
Nat. Catal. 2025
DOI: 10.1038/s41929-025-01399-2

La entrada Modelling electrolyte effects in CO₂ reduction se publicó primero en ICIQ.

From September 3 to 5, 2025, the Basque Center for Applied Mathematics (BCAM) hosted the Bilbao–Barcelona Analysis and PDE Meeting. For three days, researchers from both cities met face to face, joined by colleagues from other institutions, to share results, exchange ideas, and keep alive a collaboration that has already proven fruitful over the years.

The CRM was present in every part of the gathering. Our director, Carme Cascante, joined Albert Mas (UPC and CRM affiliate) on the organizing committee. Several affiliated researchers were also invited to speak: Marcel Guardia, Joaquim Ortega-Cerdà and Xavier Ros-Oton from the Universitat de Barcelona, Xavier Tolsa from the Universitat Autònoma de Barcelona, and Gissell Estrada and Olli Saari from the Universitat Politècnica de Catalunya. The next generation was represented too, with our PhD student Joaquim Duran contributing to the sessions.

Both BCAM and CRM are part of the SOMMa alliance, which brings together research centres in Spain recognised with the Severo Ochoa and Maria de Maeztu distinctions. The meeting highlighted the strength of the Barcelona–Bilbao connection and showed how mathematics moves forward when ideas circulate freely and technical depth is shared in open discussion.

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The post CRM at the Bilbao–Barcelona Analysis and PDE Meeting first appeared on Centre de Recerca Matemàtica.

• Este órgano formula recomendaciones sobre los principios éticos y deontológicos relativos a la actividad investigadora.

El investigador Juan Manuel Galcerán Sáez, del Instituto de Neurociencias (IN CSIC-UMH), ha sido nombrado nuevo presidente del Comité de Ética del Consejo Superior de Investigaciones Científicas (CSIC), organismo adscrito al Ministerio de Ciencia, Innovación y Universidades.

Foto: Juan Manuel Galcerán Sáez en el Instituto de Neurociencias CSIC – UMH

Galcerán Sáez, Científico Titular del CSIC en el IN, centro mixto de la Universidad Miguel Hernández (UMH) de Elche y el CSIC, está adscrito al Grupo de Plasticidad Celular en Desarrollo y Enfermedad, que estudia el comportamiento de las células en el desarrollo y las enfermedades, en particular las asociadas a los movimientos celulares.

Es doctor en Bioquímica y Biología Molecular y cuenta con una larga trayectoria en biología molecular y genética, así como en el uso de diversos modelos animales y de nuevas metodologías alternativas en investigación. Desde la creación del Órgano Encargado del Bienestar Animal (OEBA) del IN CSIC-UMH, Galcerán forma parte activa de este comité, lo que refuerza su vinculación con los aspectos éticos y de bienestar asociados a la investigación científica.

“Asumo el cargo con ilusión y entusiasmo”, ha declarado el nuevo presidente y añade: “Me uno a un equipo multidisciplinar altamente cualificado que cuenta con amplia experiencia, y pondré mis conocimientos al servicio del CSIC para contribuir a seguir impulsando una investigación ética, responsable y de excelencia”.

El investigador sustituye en el cargo al filósofo Txetxu Ausín, del Instituto de Filosofía (IF-CSIC), quien desempeñó esta responsabilidad desde 2022. El CSIC da las gracias al equipo saliente por su labor a lo largo de los años, y da la bienvenida a la nueva presidencia.

Nuevos vocales en el Comité

El Comité de Ética del CSIC está constituido por una pluralidad de miembros, algunos de ellos ajenos al CSIC, con formación académica muy diversa (medicina, filosofía, biología, química, física, inteligencia artificial…).

La Profesora de Investigación en el Instituto de Robótica e Informática Industrial (IRI) Carme Torras Genís ejerce la vicepresidencia del Comité y recientemente han sido nombrados nuevos vocales:

Lucía Llanos Jiménez, doctora en Medicina; Farmacóloga Clínica; de la secretaría técnica del Comité de Ética de la Investigación de la Fundación Jiménez Díaz y miembro del Comité de Integridad Científica del Instituto de Investigación Sanitaria de la mencionada Fundación.

Mónica Méndez Lago, doctora en Ciencias Políticas y Sociales; profesora titular en Ciencia Política y de la Administración (en excedencia); y consejera Técnica en el Departamento de Investigación del Centro de Investigaciones Sociológicas.

Pompeu Casanovas Romeu, doctor en Filosofía y en Antropología Jurídica; profesor de Investigación en IA, Derecho y Ética en el IIIA-CSIC; investigador asociado al Instituto de Derecho y Tecnología de la UAB; profesor adjunto en la Law School de la Universidad de La Trobe (Melbourne, Australia) y miembro del Comité de Ética para la IA en la misma universidad.

También forman parte del Comité Laura Barrios Álvarez, de la secretaría General Adjunta Informática del CSIC; María José Camarasa Rius, profesora de investigación en el Instituto de Química Médica (IQM); José Vicente García Ramos, profesor de investigación en el Instituto de Estructura de la Materia (IEM); Rodolfo Gutiérrez Palacios, catedrático de la Universidad de Oviedo; José Javier Lucas Lozano, profesor de Investigación del Centro de Biología Molecular Severo Ochoa (CBM); y Ananda Pascual Ascaso, investigadora Científica en el Instituto Mediterráneo de Estudios Avanzados (IMEDEA).

Comité de Ética del CSIC

El Comité de Ética es un órgano colegiado de apoyo a la Presidencia y al Consejo Rector del CSIC, de naturaleza consultiva y carácter permanente. Ejerce las funciones de reflexionar, emitir informes y formular recomendaciones sobre los principios éticos y deontológicos relativos a la actividad investigadora. Asimismo, evalúa los aspectos éticos de la investigación que se realiza en el marco del Consejo, desempeñando una muy significativa labor de seguimiento y control de las garantías que demanda el ejercicio de la investigación científica.

Este órgano dispone de un Subcomité de Bioética, que revisa la idoneidad de las prácticas y procedimientos utilizados en el desarrollo de la actividad científica en el ámbito de las Ciencias de la Vida, y de un Subcomité de Conflictos, que trata los conflictos que plantea el personal del CSIC en el ejercicio de su actividad investigadora, así como las distintas desviaciones de las buenas prácticas científicas. También cuenta con un Departamento de Ética en la Investigación.

(Nota de prensa del CSIC en el fichero adjunto)

Fuente: CSIC Comunicación (comunicacion@csic.es)

La entrada Juan Manuel Galcerán Sáez, nuevo presidente del Comité de Ética del CSIC se publicó primero en Instituto de Neurociencias de Alicante.