16th International conference on materials chemistry (MC16) 3 - 6 July 2023, Dublin, Ireland
3 - 6 July 2023, Dublin, Ireland 16th International conference on materials chemistry (MC16) #MC16 #materialschemistry
Book of abstracts
Registered charity number: 207890
Plenary biographies
Kim Jelfs Dr. Kim Jelfs is a Reader and Royal Society University Research Fellow in the Department of Chemistry at Imperial College. Her group specialises in the use of computer simulations to assist in the discovery of supramolecular materials, particularly porous materials and organic electronics. This includes the development of software to automate the assembly and testing of materials, with the application of artificial intelligence techniques including an evolutionary algorithm. Kim completed her PhD in Computational Chemistry at UCL (UK) in 2010, studying the crystal growth of zeolitic materials. She worked as a PDRA conducting simulations across the experimental groups of Profs. Andy Cooper and Prof. Matt Rosseinsky at the University of Liverpool, before beginning her independent research at Imperial in 2013. She was awarded a 2018 Royal Society of Chemistry Harrison- Meldola Memorial Prize, a 2019 Philip Leverhulme Prize in Chemistry, was the 2022 Blavatnik Awards Laureate in Chemistry and holds an ERC Starting Grant. Kim is an Associate Editor for Chemical Communications . Olli Ikkala, Dr. Olli Ikkala is a distinguished professor of Aalto University/ Department of Applied Physics. His research interest is to develop functional materials based on hierarchical self-assemblies, biomimetics, and materials originating from nature. Originally educated in quantum physics, he was first affiliated 10 years in chemical industry to develop electrically conducting polymers. Professor Olli Ikkala has + 300 articles cited ca. 25,000 times, many in the most prestigeous journals. He has been awarded twice both the Advanced Grant of ERC and the Academy Professorship of Academy of Finland. The awards include Alexander von Humboldt Research Award and Finnish Science Award. His recent interest is related to life-inspired dynamic materials, for example chemical programming for learning-inpired functions and homeostasis. He works in several advisory and evaluation duties nationally and internationally and has collaborated over the years with polymer, paint, and forest product industry. Julia A. Kornfield Professor Julia A. Kornfield is the Elizabeth W. Gilloon Professor of Chemical Engineering at the California Institute of Technology. Her group designs and synthesizes new molecules guided by understanding their physics. Polymers developed at Caltech are currently used to customize human vision by noninvasively optimizing a lens after it is implanted into a patient’s eye (FDAapproved 2017). Kornfield co-founded Fluid Efficiency, which uses “megasupramolecules" to improve hydrocarbon transport and safety. Thus, her work spans from fundamental research on the molecular basis of polymer structure and properties, to commercialization of polymers that improve sustainability, health and safety. Elected to the National Academy of Engineering and the National Academy of Inventors, she has been recognized as an outstanding mentor by Caltech’s Graduate Students and received the Bingham Medal of the Society of Rheology, among other honors.
Chad Mirkin, PhD Chad Mirkin, PhD is the Director of the International Institute for Nanotechnology and the Rathmann Professor of Chemistry, Chemical & Biological Engineering, Biomedical Engineering, Materials Science & Engineering, and Medicine at Northwestern University. He is a chemist and a world-renowned nanoscience expert, who is known for his discovery and development of spherical nucleic acids (SNAs) and SNA-based biodetection and therapeutic schemes, Dip-Pen Nanolithography (DPN) and related cantilever-free nanopatterning and materials discovery methodologies, and contributions to supramolecular chemistry and nanoparticle synthesis. Mirkin received his B.S. degree from Dickinson College (1986) and a Ph.D. degree from the Penn State University (1989). He was an NSF Postdoctoral Fellow at the MIT prior to becoming a professor at Northwestern in 1991. He has authored >850 manuscripts and >1,200 patent applications (>400 issued) and founded ten companies. Mirkin has been recognized with >230 international awards, including the Kabiller Prize in Nanoscience and Nanomedicine, SCI Perkin Medal, Dan David Prize, and NAS Sackler Prize in Convergence Research. He served on the President’s Council of Advisors on Science & Technology, and he is one of very few scientists to be elected to all three US National Academies. Mirkin was an Associate Editor of J. Am. Chem. Soc. and is a Proc. Natl. Acad. Sci. USA Editorial Board Member. He has given >870 invited lectures and educated >300 graduate students and postdoctoral fellows, of whom >130 are now faculty members at top institutions around the world.
Roberta Sessoli Università degli Studi di Firenze, Italy
Peter Strasser Peter Strasser studied chemistry at the University of Tübingen, Germany, at Stanford University and at the University of Pisa and obtained his “Diploma” degree in Chemistry. He conducted his doctoral research under the direction of Prof. Gerhard Ertl, and obtained his PhD in “Physical Chemistry and Electrochemistry” from the ‘Fritz-Haber- Institute of the Max-Planck-Society’ in Berlin. He then joined “Symyx Technologies Inc.”, a then Start-up company in Silicon Valley pioneering Combinatorial and High Throughput Screening and Discovery of catalytic materials, as a postdoctoral associate and was later promoted Senior Member of staff and served as project/group leader in Electrocatalysis and Heterogeneous Catalysis. He then assumed the position of Assistant Professor at the Department of Chemical and Biomolecular Engineering at the University of Houston, before he became the chaired professor of “Electrochemistry and Electrocatalysis” in the Chemical Engineering Division of the Department of Chemistry at the Technical University Berlin. He is a Visiting Professor at the Department of Material Science at Tongji University, China. Peter Strasser has received awards and honors such as the F-cell award (2022), the European Fuel Cell Forum (EFCF) Christian Schönbein Gold Medal award (2021), the Royal Society of Chemistry (RSC) Faraday Medal (2021),the ISE Brian Conway Prize in Physical Electrochemistry (2021), The Nature publishing award (2018), the IAHE Sir William Grove award in hydrogen research (2018), the Otto-Roelen medal in Catalysis by the German Catalysis Society (2016), the Ertl Prize (2016), as well as the Otto-Hahn Research Medal by the Max-Planck Society (2000). Since 2018, he has continuously been listed in the annual worldwide Clarivate Web of Science list of “Highly Cited Researchers” documenting the significant and broad influence of his scientific work. Since 2022, he is Fellow of the International Society of Electrochemistry (ISE). Peter Strasser is a named inventor on 19 U.S., Japanese, and European patents. He has presented more than 200 invited lectures or seminars at various academic, industrial, and governmental organizations or conferences around the world. He has authored or co- authored more than 350 peer-reviewed scientific journal publications, as well as the book High-Throughput Screening in Chemical Catalysis Concepts, Strategies and Applications, Wiley-VCH, New York. All these publications are related to various aspects of surface electrochemistry and catalysis. His h-index is currently 118 (Google Scholar). Peter Strasser’s entrepreneurial activities include roles as mentor for academic spin-off Start-up companies such as “DexLeChem” GmbH (http://www.dexlechem.com/home_en), “Next Gen Chlor” (https://www.founderio.com/de/startup/368108), and more recently “Liquid Loop” GmbH (https://www.liquidloop.eu), which commercializes technology developed in Prof. Strasser’s research group.
Keynote biographies
Cameron Alexander Cameron Alexander is Professor of Polymer Therapeutics at the School of Pharmacy, University of Nottingham, UK. Professor Alexander received degrees (BSc and PhD) in Chemistry from the University of Durham, UK and carried out post-doctoral research at the Melville Laboratory for Polymer Synthesis, University of Cambridge. He is a Fellow of the Royal Society of Chemistry and received the UK Macro Group Medal in 2014 for contributions to polymer science. His research focuses on drug, gene and cell delivery for applications in areas ranging from vaccines and therapeutics for infectious diseases through to cancers and neurodegeneration. This work has been generously funded by research councils, industry and charities. Professor Alexander has been highly fortunate to work with scientists from more than 20 countries in his research group in the last decade, and the group maintains strong international links irrespective of political border!. Paul Attfield Paul Attfield holds a Chair in Materials Science at Extreme Conditions at the School of Chemistry and Centre for Science at Extreme Conditions, University of Edinburgh. He received B.A. and D.Phil. degrees from Oxford University, and he was a Co-Director of the Interdisciplinary Research Centre in Superconductivity at the University of Cambridge during 1991-2003. He received the Royal Society of Chemistry’s Meldola and Corday- Morgan medals and Peter Day award, and he was elected a Fellow of the Royal Society in 2014. Early research contributions included pioneering resonant X-ray scattering experiments of cation and valence ordering, and studies of disorder effects in functional oxides. Current research is centred on electronic and magnetic materials including use of high pressure methods. Andrew Beale Andrew Beale is a Professor of Inorganic Chemistry, Group leader at the Research Complex at Harwell, Chief Scientific Officer of Finden Ltd and a management group member of the EPSRC-sponsored UK Catalysis Hub. He was awarded a BSc from the University of Sussex followed by a PhD at the Royal Institution of Great Britain on the subject of in situ X-ray crystallisation studies of mixed oxide materials. He then worked as a Postdoctoral fellow, VENI research fellow and Assistant Professor in the Department of Inorganic Chemistry and Catalysis at Utrecht University in the Netherlands. Andy then returned to the UK and to UCL in 2013 as an EPSRC Early career fellow. His interests lie in establishing structure-function relationships in materials, including catalytic solids and energy storage as a function of both time and space using X-ray & optical spectroscopic and scattering methods applied under in situ and operando conditions. In 2012 he co-founded Finden Ltd providing high-end characterisation of solid- state functional materials spanning the fields of catalysis, energy, automotive parts and pharmaceuticals. He is also a Fellow of the Royal Society of Chemistry.
Eugene Chen Eugene Chen is a University Distinguished Professor, the John K. Stille Endowed Chair in Chemistry, and the Millennial Professor of Polymer Science and Sustainability. He received his undergraduate education in China and his Ph.D. degree from The University of Massachusetts, Amherst. His group’s research is centered on polymer science, green & sustainable chemistry, and chemical catalysis. His team has been recognized with: Excellence in Commercialization Award in 2012 by the Colorado Cleantech Industry Association; the Presidential Green Chemistry Challenge Award in 2015 by the US Environmental Protection Agency; and the Arthur Cope Mid-Career Scholar Award in 2019 by the American Chemical Society. Andrew P. Dove Andrew P. Dove is a Professor of Chemistry in the School of Chemistry at the University of Birmingham. His group’s research is centred around degradation in polymers with specific focusses on the development and application of sustainable polymers and degradable polymeric biomaterials. Andrew completed his Ph.D. at Imperial College, London in 2003 where he focused on metal catalyzed coordination insertion polymerization. Andrew undertook postdoctoral research first under the guidance of Prof. Robert M. Waymouth at Stanford University, California, and then as a CIPMA postdoctoral fellow at IBM, San Jose, California, under the supervision of Dr. James L. Hedrick and Prof. Robert M. Waymouth. Andrew returned to the UK to take up a RCUK Fellowship in Nanotechnology at the University of Warwick in 2005, being appointed as Assistant Professor in 2006, Associate Professor in 2009 and Full Professor in 2014. He moved to the University of Birmingham in 2018 where he is a Professor of Sustainable Polymer Chemistry. His work has been acknowledged by several awards and prizes including the 2014 RSC Gibson-Fawcett Award, 2016 ACS Biomacromolecules/Macromolecules Young Researcher Award, 2018 RSC Norman Heatley Award, 2019 MacroGroup UK Medal and 2022 RSC Corday-Morgan Prize. María Escudero Escribano María Escudero Escribano is an ICREA Professor at the Catalan Institute of Nanoscience and Nanotechnology (ICN2) in Barcelona, where she leads the NanoElectrocatalysis and Sustainable Chemistry (NanoESC) Group. She graduated in Chemical Engineering from the University of Extremadura and obtained her Ph.D. in Chemistry from the Autonomous University of Madrid (2011). She carried out her postdoctoral research at the Technical University of Denmark (2012-2015) and was a DFF-Sapere Aude: Research Fellow at Stanford University (2015-2017). She joined the University of Copenhagen in 2017 as a tenure-track Assistant Professor and Group Leader in 2017 and was promoted to Associate Professor in 2021. In September 2022, she joined ICN2 as an ICREA Professor. The NanoESC Group (https://www.nanoesclab.com/), led by María, investigates tailored interfaces and catalyst nanomaterials for renewable energy conversion and production of sustainable fuels and chemicals. María has received numerous awards at national and international levels in recognition of her groundbreaking research. These awards include the European Young Chemist Award (Gold Medal) 2016, the Princess of Girona Scientific Research Award 2018, the Electrochemical Society (ECS) Energy Technology Division Young Investigator Award 2018, the Spanish Royal Society of Chemistry Young Researchers Award 2019, the Clara Immerwahr Award 2019, the RSC Environment, Sustainability and Energy Division Horizon Prize: John Jeyes Award 2021, and the Journal of Materials Chemistry Lectureship 2021. She is an Elected Member of the Young Academy of Spain. In 2022, María was awarded an ERC Consolidator Grant from the European Research Council with her project ATOMISTIC: atomic-scale tailored materials for electrochemical methane activation and production of valuable chemicals.
Marina Freitag Dr Marina Freitag is currently a Reader in Energy Materials and a Royal Society University Research Fellow at Newcastle University. She is developing new light-driven technologies that incorporate coordination polymers to solve the most important challenges in the research area, including issues of sustainability, stability and performance of hybrid PV. The development of such highly innovative concepts has given Marina international recognition, including recipient of the prestigious 2022 Royal Society of Chemistry Harrison-Meldola Memorial Prize 2022, and placed her at the heart of a new wave of sustainable optoelectronic devices.Her research into hybrid molecular devices, began during her doctoral studies (2007-2011, Rutgers University, NJ, USA) where she was awarded an Electrochemical Society Travel Award and Dean Dissertation Fellowship 2011. Dr Freitag moved to Uppsala University (2013-2015) for a postdoctoral research position, which focused on the implementation of alternative redox mediators, leading to a breakthrough today known as “zombie solar cells”. Dr Freitag was invited to further develop this work at École Polytechnique Fédérale de Lausanne (EPFL) with Prof. Anders Hagfeldt (July 2015-August 2016). From 2016-2020 she was appointed as Assistant Professor at Uppsala University, Sweden, where she received the Göran Gustaffsson Young Researcher Award 2019 Tomislav Friščić Tomislav Friščić is a Professor and Leverhulme International Chair in Green and Sustainable Chemistry at the University of Birmingham (UK). His team is developing strategies for safer, environmentally-friendly synthesis and the design of advanced functional materials. He is a co-author on over 300 peer-reviewed publications, book chapters and patent applications (4 granted so far), and is also a co-founder of two “CleanTech” start-up companies. He received his B.Sc. at the University of Zagreb with Branko Kaitner (2001), Ph.D. with Leonard MacGillivray at the University of Iowa (2006). He was a post-doctoral associate with William Jones (2006) at the Pfizer Institute for Pharmaceutical Materials Science, and Herchel Smith Research Fellow at the University of Cambridge (2008). He was a Professor and Tier-1 Canada Research Chair in Mechanochemistry and Solid-state Chemistry at McGill University until 2022. He is a Fellow of the Royal Society of Chemistry, member of the College of New Scholars, Artists and Scientists of the Royal Society of Canada, corresponding member of the Croatian Academy of Sciences and Arts, and a former Chair of the Canadian National Committee for Crystallography. His group’s work was recognized by awards, including the NSERC John C. Polany Award (2022), the Brusina Medal of the Croatian Society of Natural Sciences (2021), Award for Research Excellence in Materials Chemistry of the Canadian Society for Chemistry (2019), Royal Society of Canada Rutherford Medal (2018), Steacie Prize for Natural Sciences (2018), and others. Janine George Dr. Janine George received her PhD in computational and solid-state chemistry in 2017 from RWTH Aachen University, where she was advised by Richard Dronskowski. Her PhD was funded by the Fonds der chemischen Industrie. She then worked as a postdoctoral researcher and Marie Curie fellow in the laboratories of Geoffroy Hautier and Gian-Marco Rignanese at Université catholique de Louvain in Belgium, where she specialized on materials informatics and data-driven research. During her postdoc, she worked as a guest researcher in Volker Deringer’s group at the University of Oxford, which was funded by HPCEuropa3. She has been a junior group leader at the Federal Institute for Materials Research and Testing (Bundesanstalt für Materialforschung und -prüfung, BAM) and at the Friedrich-Schiller University in Jena since May 2021. Her research group is interested in data analysis and high-throughput computation for material discovery.
Becky Greenaway Dr Becky Greenaway is a Lecturer and Royal Society University Research Fellow at Imperial College London. She completed her DPhil at the University of Oxford in 2013 under the supervision of Prof. Ed Anderson. She then worked with Prof. Andy Cooper FRS as a PDRA at the University of Liverpool, before being awarded a URF in 2019 allowing her to establish an independent research career. In May 2020 she joined the Department of Chemistry at Imperial, where she now serves on the management team for the EPSRC Centre for Rapid Online Analysis of Reactions (ROAR), the management board for ATLAS – a new high-throughput automation facility for accelerated materials research, and she is the automation lead in the recently launched DigiFAB Institute. Becky is also on the early career advisory board for ChemPlusChem. Current research in the group focusses on the accelerated discovery of functional molecular organic materials assembled using dynamic covalent strategies. This includes the development of high-throughput automated workflows, and also of non-conventional phases of porous materials such as liquids, liquid crystals, and glasses. Silvia Giordani Silvia Giordani is a Full Professor Chair of Nanomaterials and the Head of School of Chemical Sciences at Dublin City University. After receiving a “Laurea” in Chemistry and Pharmaceutical Technology from the University of Milan (Italy) in 1999, she moved to the Center for Supramolecular Science at the University of Miami (USA) where she graduated with a Master and a PhD in Chemistry. In 2003 she moved to Trinity College Dublin (TCD), Ireland to work on a EU-funded Marie Curie project on “Template Grown Molecular Nanomaterials” as the young researcher. She successfully applied for the Marie Curie reintegration grant to work on a research project at the University of Trieste. In 2007 she received the prestigious President of Ireland Young Researcher Award and started her independent career as Research Assistant Professor at TCD. In September 2013 she funded the “Nano Carbon Materials” research lab at the Istituto Italiano di Tecnologia (IIT). In December 2016 she was appointed Associate Professor in Organic Chemistry at the University of Turin, Italy and in October 2018 Professor Chair of Nanomaterials within the School of Chemical Sciences at Dublin City University. Her main research interests are in the design, synthesis, and characterization of a wide range of nanomaterials for applications in smart and responsive bio- related nanotechnologies. She is the author/ co-author of approx. 150 manuscripts, reviews and book chapters. She is the recipient of many international prizes and honours including the L’Oreal UNESCO for Women in Science fellowship, the William Evans visiting fellowship from the University of Otago (New Zealand) and is a Visiting Scientist to the Bio-Nano Institute at Toyo University (Japan). Tanja Junkers Tanja Junkers graduated with a PhD degree in physical chemistry from Goettigen University in Germany in 2006, having worked on the determination of kinetic rate coefficients for radical reactions during polymerizations. In the two years that followed, she was research associate at the University of New South Wales in Sydney, shifting her focus more and more towards synthetic polymer chemistry. Between 2008 and beginning of 2010 she was a senior research scientist at the Karlsruhe Institute of Technology in Germany in the group of Prof. Christopher Barner-Kowollik. Early 2010 she was then appointed professor at Hasselt University in Belgium, where she founded the Polymer Reaction Design group. In January 2018 she joined Monash University as full professor, focusing on her work on continuous flow polymerizations, (nano)particle formation and design of complex precision polymers. In recent years she expanded her research interests into the field of lab automation, machine learning and data driven polymer chemistry. She is an associate editor for the journals Chemical Science and Polymer Chemistry of the RSC, and a titular member of the IUPAC polymer division.
Hema Karunadasa Hema Karunadasa is an Associate Professor of Chemistry at Stanford University, a Faculty Scientist at the SLAC National Lab, and a Senior Fellow of the Precourt Institute for Energy. She grew up in Sri Lanka and received her A.B. from Princeton University. She obtained her Ph.D. in inorganic chemistry from UC Berkeley and then did her postdoctoral research at the Lawrence Berkeley National Lab and at the California Institute of Technology. Her group uses solution-state methods for the self-assembly of solid-state materials, with an emphasis on halide perovskites and their derivatives. Her recent awards include the Brown Science Foundation Investigator award (2022) and the American Chemical Society Harry Gray award (2020) and the Inorganic Lectureship (2022). She is an Associate Editor for Chemical Science (Royal Chemical Society). George Malliaras George Malliaras is the Prince Philip Professor of Technology at the University of Cambridge. He leads the Bioelectronics Laboratory, an interdisciplinary group of scientists, engineers and clinicians who translate advances in electronics to better tools for healthcare. George received a PhD from the University of Groningen, the Netherlands and did a postdoc at the IBM Almaden Research Center, USA. Before joining Cambridge, he was a faculty member at Cornell University in the USA, where he also served as the Director of the Cornell NanoScale Facility, and at the School of Mines in France. His research has been recognized with awards from the New York Academy of Sciences, the US National Science Foundation, and DuPont, and an Honorary Doctorate from the University of Linköping in Sweden. He is a Fellow of the Materials Research Society and of the Royal Society of Chemistry and serves as Deputy Editor of Science Advances. Carlos Martí-Gastaldo Carlos Martí-Gastaldo was initially trained in Coordination Chemistry and Molecular Magnetism in E. Coronado´s group at the ICMol-University of Valencia (PhD 2009), before shifting focus to apply his training to the design of Metal-Organic Frameworks during my postdoctoral stage as a Marie Curie Fellow in M. J. Rosseinsky's group at the University of Liverpool (2010-2012). He began his independent career in 2013 in Liverpool, with the award of a Royal Society University Research Fellowship. In 2014, he returned to the ICMol with a Ramón y Cajal Fellowship to lead the design of highly stable MOFs, one of the strategic research lines of the 1st ‘María de Maeztu’ Excellence program awarded to the center. With the award of an ERC Starting Grant in 2016, he established his own research group at the ICMol. The Functional Inorganic Materials team (FuniMat) is focused on the design and processing of porous inorganic materials for biological and environmental-related applications. He founded the start-ups ‘Porous Materials for Advanced Applications’ (2018) and ‘Porous Materials in Action’ (2021) to accelerate the transfer of research results into socially useful products and services. He received an ERC Consolidator Grant in 2022 and is one of the guarantor investigators of the 2nd ‘María de Maeztu’ Excellence program of ICMol (2021-2024), and main responsible of the implementation of a new research line for the Molecular Design of Biomaterials in the center.
James Neilson James Neilson studied Materials Science & Engineering at Lehigh University for his undergraduate degree, completing research with Professor Himanshu Jain, as well as Professor Stephen Elliot at the University of Cambridge during a summer exchange. James earned his Ph.D. in 2011 from the University of California Santa Barbara working with Professor Daniel Morse and Professor Ram Seshadri. He then performed postdoctoral research at Johns Hopkins University with Professor Tyrel McQueen until 2013. In 2013, he joined the faculty of Colorado State University as an Assistant Professor in the Department of Chemistry. Since then, he has received numerous awards for his research and teaching, including the Sloan Research Fellowship from the A. P. Sloan Foundation, the Cottrell Scholar Award from the Research Corporation for Science Advancement, and early career awards from both the Department of Energy and National Science Foundation. Since his promotion to Associate Professor, James has received a Leverhulme Trust Visiting Professorship to spend the 2022-2023 academic year at the Inorganic Chemistry Laboratory at the University of Oxford. The key research theme throughout this journey has been to understand how materials synthesis influence structure and properties, along with challenges in elucidating the nature of order and disorder in atomistic structures. Kyoko Nozaki Kyoko Nozaki is a Professor at the University of Tokyo. She graduated from Kyoto University and received her Ph.D. in 1991 from the same university. Since 1991, she has been a faculty member at Kyoto University, moved to the University of Tokyo in 2002, and has been a Professor at the University of Tokyo since 2003. Her research interest is focused on the development of homogeneous and heterogeneous catalysts for polymer synthesis and organic synthesis. Lab web site: http://park.itc.u-tokyo.ac.jp/nozakilab/indexE.html Itziar Oyarzaball Dr. Oyarzabal is an Ikerbasque Research Fellow at BCMaterials, the Basque Center for Materials, Applications & Nanostructures. Itziar completed her PhD in Applied Chemistry and Polymeric Materials at the University of the Basque Country (UPV/EHU, Spain) in 2015, where she studied the magnetic (Single Molecule Magnet behaviour) and luminescent properties of discrete coordination complexes. The 3 months stay in the group of Dr. Brechin at the University of Edinburgh allowed her to receive the distinction of International Doctor and she was awarded with the extraordinary PhD Prize given by UPV/EHU. In 2016 she continued working at UPV/EHU and in 2017 she joined the group of Dr. Clérac at Centre de Recherche Paul Pascal (CRPP, France) thanks to a Marie Skłodowska-Curie Individual Fellowship. In 2019 she prolonged her stay at CRPP due to a postdoctoral grant from the Basque Government, which allowed her to continue her research in the development of 2D metal-organic materials with interesting magnetic and conductive properties. Since 2021, she is working at BCMaterials and developing independent research lines around applicable high-performance magnetic materials.
Molly M Stevens FREng FRS Prof Molly M Stevens FREng FRS is Professor of Biomedical Materials and Regenerative Medicine and the Research Director for Biomedical Material Sciences in the Department of Materials, in the Department of Bioengineering and the Institute of Biomedical Engineering at Imperial College London. Prof Stevens’ multidisciplinary research balances the investigation of fundamental science with the development of technology to address some of the major healthcare challenges. Her work has been instrumental in elucidating the bio-material interfaces. She has created a broad portfolio of designer biomaterials for applications in disease diagnostics and regenerative medicine. Her substantial body of work influences research groups around the world with over 30 major awards for the groups research and Clarivate Analytics Highly Cited Researcher in Cross-Field research. Prof. Stevens holds numerous leadership positions including Director of the UK Regenerative Medicine Platform "Smart Acellular Materials" Hub, Deputy Director of the EPSRC IRC in Early-Warning Sensing Systems for Infectious Diseases and has previously served as President of the Royal Society of Chemistry Division of Materials Chemistry. She is the founder of several companies translating innovations in therapeutics and biosensing. Kevin Sivula , EPFL, Switzerland Originally from the United States, Prof. Sivula studied chemical engineering at the Universities of Minnesota (Twin Cities), and California (Berkeley), before joining EPFL. He was appointed Assistant Professor in 2011 and Associate Professor in 2018. He directs the Laboratory for molecular engineering of optoelectronic nanomaterials (LIMNO), which focuses on developing materials and systems for solar energy harvesting and related applications, and teaches courses in transport phenomena and chemical product design. Website: http://limno.epfl.ch/ Sam Stranks Sam Stranks is Professor of Optoelectronics and Royal Society University Research Fellow at the University of Cambridge. He established his research group in Cambridge in 2017, which focuses on the optical and electronic properties of emerging semiconductors including halide perovskites, carbon allotropes and organic semiconductors for low-cost electronics applications such as photovoltaics and lighting. Sam completed his PhD as a Rhodes Scholar at Oxford University, receiving the 2012 Institute of Physics Roy Thesis Prize. From 2012-2014, he was a Junior Research Fellow at Oxford University and Worcester College, Oxford, before holding a Marie Curie Fellowship at the Massachusetts Institute of Technology (2014-2016). He received the 2016 IUPAP Young Scientist in Semiconductor Physics Prize, the 2017 Early Career Prize from the European Physical Society, the 2018 Henry Moseley Award and Medal from the Institute of Physics, the 2019 Marlow Award from the Royal Society of Chemistry and the 2021 Philip Leverhulme Prize. In 2016 he was named a TED Fellow, and in 2017 listed by the MIT Technology Review as one of the 35 under 35 innovators in Europe. Sam is a co- founder of Swift Solar, a startup developing lightweight perovskite PV panels, and Sustain/ Ed, a not-for-profit developing education for school-age children around climate change solutions. He is also an Associate Editor at the AAAS journal Science Advances.
Miriam M. Unterlass Miriam M. Unterlass studied chemistry, process engineering and materials science in Germany, the UK, and France, and obtained a PhD at the Max Planck Institute of Colloids and Interfaces in 2011. She worked as a postdoc at the École École Supérieure de Physique et de Chimie Industrielles in Paris, France, before starting her own group at the Technical University of Vienna (TUW), Austria, in 2012. Miriam was tenured asisstant and subsequently associate professor at TUW and obtained her habilitation in materials chemistry in 2018. In 2021, she became full professor of solid state chemistry at the University of Konstanz. Since 2018, Miriam Unterlass is an Adjunct Principal Investigator at the Research Centre for Molecular Medicine of the Austrian Academy of Sciences (CeMM) in Vienna (Austria). The ambition of her group’s research is to find and develop sustainable advanced materials and molecules without compromising the compounds’ performance and diversity, especially through employing water as reaction and processing medium. She has received several accolades, including the Staatspreis Patent 2020, the FWF START prize 2017, the Austrian founder’s award PHÖNIX 2016, the Anton Paar Science award 2015, and has been elected as member of the Young Academy of the Austrian Academy of Sciences (ÖAW) in 2018. She is alumna of the Fast Track program of the Robert Bosch foundation (2016-2018) and of the International Visitor Leadership Program (IVLP) of the U.S. Department of State (2018).
Approaches to materials design and discovery
P01-DD Solvent-free mechanochemical synthesis of catalytically active nanomaterials Elisabete Alegria Instituto Superior de Engenharia de Lisboa, Portugal
P02-DD
A low temperature route to lead sulfide (galena) films from bis(heterocyclic-dithiocarbamato) lead (II) precursors Yasser Turki Alharbi The Royal Commission for Jubail/Yanbu-Yanbu Industrial College, Saudi Arabia Biotemplating of barium titanate in deep eutectic solvent synthesis Jessica Andrews University of Sheffield, UK Biodegradable Polymer composites of MOF-5 for efficient and sustained delivery of cephalexin and metronidazole Anoff Anim University of Bradford, UK
P03-DD
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P05-DD Mechanical properties of novel polymer composites from high density polyethylene plactic waste and cork oak Toussaint Barboni Università di Corsica, France
P06-DD
From lithium to sodium – structural investigation of sodium phosphidogermanates Manuel Botta Technical University of Munich, Germany Training a Gaussian process regression model of formamide for use in molecular simulations Matthew Brown University of Manchester, UK
P07-DD
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Scratching the surface Aaron Byrne CREST, TU Dublin, Ireland
P09-DD
Functionalisation of InP quantum dot surfaces Ashleigh Cartlidge Keele University, UK
P01
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Synthesis of zeolites from waste container glass and scrap aluminium Nichola Coleman University of Greenwich, UK Interactions of lead(II) ions with crushed concrete fines Nichola Coleman University of Greenwich, UK The synthesis and characterization of a novel molybdenum(III) amidinate towards vapor-phase growth of Mo-based materials Taylor Currie University of Central Florida, USA Novel lithium containing compounds with the composition Li1+3xSrAl1-xP2 – in a variant of the CaAl2Si2 structure type and a related modification Vincent Daiber Technical University of Munich, Germany Mapping the phase-, size- and shape-controlled hydrothermal synthesis of materials with principal component analysis Peter Dunne Trinity College Dublin, Ireland A waste-derived basic silicate catalyst for lactose to lactulose isomerisation Victoria Elmes University of Greenwich, UK Morphological control of LiNi0.8Mn0.1Co0.1O2 lithium-ion cathodes using biotemplating Ryan Emmett University of Sheffield, UK Automation of machine learning driven interatomic potential generation for predicting vibrational properties Christina Ertural Bundesanstalt für Materialforschung und -prüfung (BAM), Germany Unusual inward growth of hexagonal nanosheets by the self-assembly of a homopolymer Yi rong Fan Ningxia University, China
P11-DD
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P02
P19-DD
Hydrothermal synthesis of Metal tellurates nanocrystals (Ni3TeO6 and Cu3TeO6) with magnetic and photoconductivity properties
Javier Fernandez Catala University of Oulu, Finland
P20-DD Polymeric toroids derived from the fusion induced particle assembly of anisotropic bowl-shaped nanoparticles Yaning Gao Ningxiauniversity, China
P21-DD
Investigating the role of magic size clusters in the growth of InP quantum dots Theodore Anthony Gazis Keele University, UK High-quality zirconium vanadate samples for negative thermal expansion analysis Janine George Bundesanstalt für Materialforschung und -prüfung, Germany Development of TADF red emitters based on the structure of curcuminoids Daria Grzywacz University of Gdansk, Poland New geometric degrees of freedom in ReO3-type coordination networks Sebastian Hallweger TUM School of Natural Sciences, Germany
P22-DD
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P25-DD Amorphous lewis-acidic zirconium chloro fluoride as a catalyst for heterogeneous C-F Bond activation and HF transfer reactions of fluoroalkanes Christian Heinekamp Bundesanstalt fuer Materialforschung und prüfung, Germany P26-DD Explore ways to control mechanochemical processes & scale up based on in situ data Christian Heinekamp Federal Institute for Materials Research and Testing, Germany
P27-DD
Structure and functionality in a new {Zn3[W(CN)8]2(DPNDI)}∞ hybrid porous coordination polymer Katarzyna Jędrzejowska Jagiellonian University in Krakow, Faculty of Chemistry, Poland
P03
P28-DD Tetrazine click as versatile method for covalent post-functionalization of metal-organic frameworks Damian Jędrzejowski Jagiellonian University in Krakow, Faculty of Chemistry, Poland
P29-DD
A compact photo-cell reactor for online H2 photoproduction: revisiting the Pd, Pt, & Au/TiO2 Schottky junctions Pablo Jiménez Calvo WW4-LKO, University of Erlangen-Nuremberg, Germany Modified precursor route to the multimetallic oxides using oxalate complexes Marijana Jurić Ruđer Bošković Institute, Croatia Growth and properties of 2H-Si microneedles using HVPE Kyoung Hwa Kim Korea Maritime and Ocean University, South Korea Characteristics of Ge-AlN core-shell microneedles Kyoung Hwa Kim Korea Maritime and Ocean University, South Korea Computational approaches to molecular and solid materials with desired physicochemical properties Konstantinos Kotsis University College Dublin, Ireland Design of bifunctional hybrid ultramicroporous materials Bhawna Kumari University of Limerick, Ireland
P30-DD
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P34-DD
P35-DD Developing stable biopolymer-based coatings for antifouling medical implants: simple »thiol-click« approach on polydimethylsiloxane Katja Kuzmič University of Maribor, Slovenia
P36-DD
Computational criteria for hydrogen evolution reaction activity in Au25- based nanoclusters Laura Laverdure University of Jyväskylä, Finland Use of [CoCr] complexes with alkyl-substituted ammonium cations for the preparation of the spinel oxide Co2CrO4 Ana Lozančić Institut Ruđer Bošković, Croatia
P37-DD
P04
P38-DD
Finding synthesisable structures: adapting the generalised convex hull to molecular crystals Jennie Martin University Of Southampton, UK Computer-vision assisted colorimetric analysis of the UV-promoted degradation of polyurethane foams Timothy McCabe University of Strathclyde, UK Low temperature sintering to reduce thermal conductivity of a metal oxide thermoelectric material Stephanie Mudd University of Sheffield, UK Bonding descriptors as features in machine learning of materials properties Aakash Ashok Naik BAM Bundesanstalt für Materialforschung und -prüfung, Germany
P39-DD
P40-DD
P41-DD
P42-DD Nanoscale mixed metal frameworks for photocatalysis Allan Niidu Tallinn University of Technology Virumaa college, Estonia
P43-DD
Infrared and vibrational circular dichroism spectroscopy: a powerful toolset for probing GXG hydrogels and determining the main fibril axis Nichole O'Neill Drexel University, USA Development of composite materials using HDPE and PP plastics wastes and cork oak Svetlana Petlitckaia University of Corsica, France
P44-DD
P45-DD Synthesis and properties of new well-defined polymeric material of exo-n-(triazole-cinchona alkaloids)norbornene-5,6-dicarboxyimide Marta Piętka Adam Mickiewicz University in Poznań, Poland
P46-DD
Additive manufacturing of Ni-Fe 2 O 3 -TiO 2 three-dimensional photocatalyst architectures Norma Alicia Ramos Delgado University of Twente, Netherlands
P47-DD Towards automated phase isolation Danny Ritchie University of Liverpool, UK
P05
P48-DD
Peroxidase mimicking of heteroatom-codoped carbon and the application in colorimetric sensors Sadaf Saeedi Garakani Stockholm Universitet, Sweden Synthesis approaches, characterisation and potential application of porphyrin-lanthanide based metal-organic frameworks Narhari Sapkota University of Turku, Finland
P49-DD
P50-DD BODIPY photosensitisers for holographic patterning of photopolymerisable materials Aimee Sheehan TU Dublin, Ireland
P51-DD In-line PXRD characterisation of the reactive crystallisation of Calcium Sulphate within a millilitre-scale continuous-flow reactor Raphael Stone University of Leeds, UK P52-DD Fabrication and characterization of α-FeOOH/α-Fe 2 O 3 heterostructures Wenming Tong University Of Galway, Ireland P53-DD High-throughput bonding analysis of magnetic materials Katharina Ueltzen Federal Institute for Materials Research and Testing, Germany P54-DD MOF engineering towards Lewis base heterogeneous catalysts David Villalgordo Hernández University of Alicante, Spain P55-DD Pressure-induced changes in the electronic and structural scenario of selected inorganic and hybrid organic-inorganic materials Martina Vrankić Ruđer Bošković Institute, Croatia P56-DD Crystal structure, chemical bonding, and physical properties of Heusler phases and endohedral cluster compounds Michal Winiarski Gdansk University of Technology, Poland
P57-DD Sizing up materials design Martijn Zwijnenburg University College London, UK
P06
Future materials
P58-F
Novel multidecker porphyrin-phthalocyanine assemblies constructed around tripheylene cores Sultanah Alhunayhin Organic Chemistry, Saudi Arabia Probing charge transfer through antifouling polymer brushes by electrochemical methods: supporting self-assembled monolayer chain length matters Judita Anthi Institute of Physics of the Czech Academy of Sciences, Czech Republic Insertion of the rationally designed new cationic polymer in the polyamide membrane for efficient separation applications in water desalination Zeeshan Arshad King Fahd University of Petroleum and Minerals, Saudi Arabia Omnidirectional Waveguide Encoded Lattice (OWEL): collecting light at all angles Kathryn Benincasa McMaster University, Canada Magnetic and magnetocaloric performances of frustrated fcc lanthanide oxides Fiamma Berardi University of Cambridge, UK Engineered growth of polycrystalline amino acids for eco-friendly piezoelectric device components Suman Bhattacharya University of Limerick, Ireland Enhancement of the catalytic activity of lithium amide towards ammonia decomposition by addition of transition metals Caitlin Brooker-Davis University of Birmingham, UK Engineering biomass derived lignin: a sustainable approach for development of antiviral hydrogels Sanjam Chandna Freie Universität Berlin, Germany
P59-F
P60-F
P61-F
P62-F
P63-F
P64-F
P65-F
P07
P66-F
The magnetocaloric effect in perovskite-type GdMnO 3 and Gd(Mn 0.25 Fe 0.25 Co 0.25 Ni 0.25 )O 3 prepared by sol-gel method Yun-Hyuk Choi Daegu Catholic University, South Korea Use of layered double hydroxides to access chiroptically active 2D metal oxides Áine Coogan Trinity College Dublin, Ireland Computational treatment of lanthanide dopants in oxides by DFT with Hubbard corrections Dan Criveanu University of Nottingham, UK Adapting the surfaces of commercially available 3D printing resins for applications in separation science Sinead Currivan TU Dublin, Ireland Circular high-performance aza-Michael polymers as innovative materials originating from nature Dan Day University of York, UK Direct laser writing of electro-actuating microstructures Jason Delente Trinity College Dublin, Ireland Green synthesis of silver nanoparticles using a halide-free natural deep eutectic solvent to control growth Joseph Eyre Nottingham Trent University, UK Scandium(0) nanoparticles: synthesis and follow-up reactions Lara-Pauline Faden Karlsruhe Institute of Technology, Germany The indophenine reaction as a metal-free method for synthesizing conjugated polymers with sub-1 eV optical bandgaps Jônatas Faleiro Berbigier University of Saskatchewan, Canada
P67-F
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P08
P75-F
Fabrication of optically responsive microstructures via direct laser writing Teodora Faraone Trinity College Dublin, Ireland Playing with the weakest supramolecular interactions in a 3D crystalline hexakis[60]fullerene induces control over hydrogenation selectivity Estefanía Fernández Bartolomé Universidad Complutense de Madrid, Spain Real-time label-free monitoring of living crystallization-driven self- assembly in two dimensions Yujie Guo King's College London, UK Measuring the conversion of epoxy-amines cured with homopolymerizer via near-infrared spectroscopy and dynamic scanning calorimetry Francis Gurman The University of Sheffield, UK
P76-F
P77-F
P78-F
P79-F
Ionic liquids mediated metal-organic frameworks Masahiro Hara Imperial College London, UK Hydrogenic defects in metal-organic frameworks Christopher Hendon University of Oregon, USA
P80-F
P81-F
Hydrothermal synthesis of carbon dots from Irish seaweed and seaweed derivatives Karlijn Hertsig Trinity College Dublin, Ireland Reverse Intersystem Crossing acceleration in blue TADF emitters: spectroscopic and computational studies Vladyslav Ievtukhov University of Gdansk, Poland Nanostructured polymer membranes for fast and selective gas transport Sunshine Iguodala Imperial College London, UK
P82-F
P83-F
P09
P84-F
Development of cellulose-based composite adsorbents for CO 2 capture Marcellin Premila Jerome Khalifa University, United Arab Emirates Synthesis and characterization of Ti 3 C 2 TX MXene nanoparticles from large MAX phase precursors for wearable electronic textile devices Laura Jug University of Maribor, Slovenia Frenkel excitons in vacancy-ordered titanium halide perovskites (Cs 2 TiX 6 ) Seán Kavanagh University College London/Imperial College London, UK Hydrothermal synthesis of nano porous ZnO-polysaccharides composites Kanako Kimura University of Leeds, UK Amorphous (non-glassy) properties of Ti-based metal-organic frameworks Ayano Kono University of Cambridge, UK Chiral Eu(III) triple stranded dimetallic helicates: structural and luminescent properties Oxana Kotova Trinity College Dublin, Ireland Negative Doping in semiconducting 2H-MoS 2 and surface functionalisation Aleksandra Krajewska Trinity College Dublin, Ireland Processing of green PLA/MWCNT/lignin composites into electrodes with electrochemical response Silvia Lage-Rivera Universidade da Coruña, Spain
P85-F
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P88-F
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P92-F
Self-assembly of lignin nanoparticles to photonic crystal Jinrong Liu Stockholm university, Sweden
P10
P93-F
Ultra-fast pH detection in water by a responsive polymer containing a fluorescent dye David Londono de la Cruz University of Birmingham, UK Switchable self-trapping and remote interactions of multiple beams in a photoresponsive hydrogel Fariha Mahmood McMaster University, Canada 3-D optical data storage and recovery in intersecting waveguide- encoded lattices Fariha Mahmood McMaster University, Canada Characterisation of cation order in A-site doped polar hexagonal multiferroic MnAMo 3 O 8 (A 2+ = Fe, Co, Zn) Holly McPhillips University of Kent, UK Controlling the microstructure of polymer foams via microfluidic templating Thomas Moore University of Leeds, UK Aza-DIPY and aza-BODIPY chromophores as a tunable platform for diradicaloid materials Viktor Nemykin University of Tennessee - Knoxville, USA Non-covalent self-assembly within microfluidic environments James Nicholas University of Barcelona/ETH Zurich, Spain Solvent-mediated amplification of polycrystalline biomolecular piezoelectricity Ciaran O'Malley University of Limerick, Ireland Mechanically Interlocked Molecules; rotaxanes and their future with lanthanide metal complexes Niamh O'Shea Trinity College Dublin, Ireland
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P101-F
P11
P102-F
Self-assembly of Si-based particles for infrared-active metamaterials Megan Parker University of Bordeaux, France Tetraquinoxaline cavitand-crosslinked polymers as potential molecular auxetics Alessandro Pedrini University of Parma, Italy Surface functionalization of transition metal dichalcogenides for intrinsically self-healing hydrogels Chirag R. Ratwani Bournemouth University, UK Switchable spin crossover material for passive control of temperature fluctuations in buildings Esther Resines-Urien IMDEA Nanociencia, Spain Phase transformations in the nickel phosphide system induced by transition-metal doping and electro-catalytic study Neerish Revaprasadu University of Zululand, South Africa Understanding the influence of stabiliser concentration on the formation of high quality In 2 O 3 thin films Aysha Riaz University College London, UK
P103-F
P104-F
P105-F
P106-F
P107-F
P108-F
Radical nanoparticles for photon upconversion Kieran Richards Swansea University, UK
P109-F
Aryl sulfonium based novel multifunctional Polyoxovanadate hybrid: photochromism and oxidative desulfurization (ODS) catalysis reaction Kousik Routh IIT Mandi, India New strategy towards periodically organized polyoxometalates on HOPG for molecular electronics applications Juba Salhi Sorbonne Université, France
P110-F
P12
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