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Google Scholar 2020 - present 2010 - 2019 2007 - 2009 Competitive and Cooperative CO2–H2O Adsorption through Humidity Control in a Polyimide Covalent Organic Framework H. Veldhuizen, S. A. Butt, A. van Leuken, B. van der Linden, W. Rook, S. van der Zwaag, M. A. van der Veen* ACS Applied Materials & Interfaces 2023. DOI: 10.1021/acsami.3c04561 Carbon monoxide separation: Past, present and future X. Ma, J. Albertsma, D. Gabriels, R. Horst, S. Polat, C. Snoeks, F. Kapteijn, H. B. Eral, D. Vermaas, B. Mei, S. de Beer, M. A.van der Veen* Chemical Society Reviews 2023, 52, 3741-3777. DOI: 10.1039/D3CS00147D Confined water cluster formation in water harvesting by metal organic frameworks: CAU-10-H versus CAU-10-CH3 M. A. van der Veen,* S. Canossa, M. Wahiduzzaman, G. Nenert, D. Frohlich, D. Rega, H. Reinsch, L. Shupletsov, K. Markey, D. E. De Vos, M. Bonn, N. Stock, G. Maurin, E. H. G. Backus Advanced Materials 2023, DOI: 10.1002/adma.202210050 Highlighted in Nature Water: Lee, JS.M. Water cluster formation in metal–organic frameworks. Nat. Water 2023, 1, 417. DOI: 10.1038/s44221-023-00088-3 Structure–Property Relationship of Piezoelectric Properties in Zeolitic Imidazolate Frameworks: A Computational Study S. Mula, L. Donà, B. Civalleri, M.A. van der Veen* ACS Applied Materials & Interfaces 2022, 14, 45, 50803–50814 ​​​​​​​Impact of Flow-Induced Disturbances During Synthesis on the Photophysical Properties of Naphthalene Diimide Covalent Organic Frameworks H. Veldhuizen, S. de Zwaag, M.A. van der Veen* Microporous Mesoporous Materials 2022, 343, 112122 Molecular-level understanding of highly selective heavy rare earth element uptake by organophosphorus modified MIL-101 (Cr) F. Keshavarz, V. Kavun, M.A. van der Veen, E. Repo, B. Barbiellini Chemical Engineering Journal 2022, 440, 135905 How Reproducible Are Surface Areas Calculated from the BET Equation? J. Osterrieth, et al. (round robin in the field, + 50 authors) Advanced Materials 2022, 34 (27), 2270205 Emergence of cooperative rotor dynamics in metal–organic frameworks via tuned steric interactions A. Gonzalez-Nelson, S. Mula, M. Šimėnas, S. Balčiūnas, A.R. Altenhof, C. S. Vojvodin, J. Banys, R.W. Schurko, F.-X. Coudert,* M. A. van der Veen* https://pubs.acs.org/doi/10.1021/jacs.1c03630 Selective recovery and separation of Rare Earth Elements by organophosphorus modified MIL-101(Cr) V. Kavun, M.A. van der Veen, E. Repo https://www.sciencedirect.com/science/article/pii/S1387181120307472 Overcoming Crystallinity Limitations of Aluminium Metal-Organic Frameworks by Oxalic Acid Modulated Synthesis S. Canossa, A. Gonzalez-Nelson, L. Shupletsov, M. del Carmen Martin, M.A. van der Veen* Chem. Eur. J. 2020, 26, 16, 3564-3570 Preparation and Dielectric Characterization of P(VDF-TrFE) Copolymer Based Composites Containing Metal-Formate Frameworks M. Šimėnas, S. Balciunas, A. Gonzalez-Nelson, M. Kinka, M. Ptak, M.A. van der Veen, M. Maczka, J. Banys J. Phys. Chem. C 2019, 123, 26, 16380–16387. Rotational Dynamics of Linkers in Metal–Organic Frameworks A. Gonzalez-Nelson,* F.-X. Coudert, M.A. van der Veen* Nanomaterials, 2019, 9(3), 330. Morphology and structure of ZIF-8 during crystallisation measured by dynamic angle-resolved second harmonic scattering S. Van Cleuvenbergen,* Z.J. Smith, O. Deschaume, C. Bartik, S. Wachsmann, T. Verbiest, M. A. van der Veen* Nature Communications, 2018, 9, 3418. Regioregularity Increases Second-Order Nonlinear Optical Response of Polythiophenes in Solution S. Deckers*, J. Steverlynck, P. Willot, S. Vandendriessche, G. Koeckelberghs, I. Asselberghs, T. Verbiest, M. van der Veen* J. Phys. Chem. C 2015, 119 (32), 18513–18517. Nonlinear optical enhancement caused by a higher order multipole mode of metallic triangles van der Veen,M.*, Rosolen, G., Verbiest, T., Vanbel, M.K., Maes, B., Kolaric, B.* J. Mater. Chem. C 2015, 3, 1576-1581. Spontaneous Polarization in Bio-organic Materials Studied by Scanning Pyroelectric Microscopy (SPEM) and Second Harmonic Generation Microscopy (SHGM) Putzyes, T.,* Wübbenhorst, M., van der Veen, M. Int. J. Thermophys., 2015, 36, 819-828. Metal–organic frameworks as heterogeneous photocatalysts: advantages and challenges Nasalevich, M.A., van der Veen, M., Kapteijn, F., Gascon, J.* CrystEngComm, 2014, 16(23), 4919-4926. Poly(3-alkylthiophene)s produce unexpectedly large second-order nonlinear optical response Deckers, S., Vandriessche, S., Cornelis, D., Clays, K., Koeckelberghs, G., Asselberghs, I. Verbiest, T., van der Veen, M.* Chemical Communications, 2014, 50 (21), 2741 – 2743. Structures, sorption characteristics and nonlinear optical properties of a new series of highly stable aluminium MOFs Reinsch, H., van der Veen, M.,* Gil, B., Verbiest, T., De Vos, D., Stock N.* Chemistry of Materials, 2013, 25(1), 17-26. Probing microporous materials with second-harmonic generation. van der Veen, M.,* Verbiest, T., De Vos, D. Microporous and Mesoporous Materials, 2013, 166, 102-108. Point group symmetry determination via observables revealed with polarized second-harmonic microscopy. 2. Applications van der Veen, M.,* Vermoortele, F., De Vos, D., Verbiest T. Analytical Chemistry, 2012, 84(15), 6386-6390. Point group symmetry determination via observables revealed with polarized second-harmonic microscopy. 1. Theory van der Veen, M.,* Vermoortele, F., De Vos, D., Verbiest T. Analytical Chemistry, 2012, 84(15), 6378-6385. Host-guest and guest-guest interactions between xylene isomers confined in the MIL-47(V) pore system Ghysels, A., Vandichel, M., Toon Verstraelen, T., van der Veen, M., De Vos, D., Waroquier, M., Van Speybroeck V. Theoretical Chemistry Accounts, 2012, 131(7), 1234. All optical determination of microscopic and macroscopic structure of chiral and polar crystals obtained from achiral, apolar molecules Van Cleuvenbergen, S.,* Hennrich, G., Willot, P., Koeckelberghs, G., Clays, K., Verbiest, T., van der Veen, M.* Journal of Physical Chemistry C, 2012, 116(22), 12219-12225. NH2-MIL-53(Al): a reversible solid state nonlinear optical switch displaying an unprecedented contrast Serra-Crespo, P. (jfa), van der Veen, M. (jfa), Gobechiya, E. (jfa), Houthoofd, K., Filinchuk, Y., Kirschhock, C., Martens, J., Sels, B., De Vos, D., Kapteijn, F., Gascon, J. Journal of the American Chemical Society, 2012, 134(20), 8314-8317. Mapping of the organization of p-nitroaniline in SAPO-5 by second-harmonic generation microscopy van der Veen, M.,* Van Noyen, J., Sels., B., Jacobs, P., Verbiest, T., De Vos, D. Physical Chemistry Chemical Physics, 2010, 12 (36), 10688-10692. Localization of p-nitroaniline chains inside zeolite ZSM-5 with second-harmonic generation microscopy van der Veen, M., Sels, B., De Vos, D., Verbiest, T. Journal of the American Chemical Society 2010, 132(19), 6630-6631. The Use of Second-Harmonic Generation to Study Diffusion through Films under a Liquid Phase van der Veen, M. (jfa),* De Roeck, M. (jfa), Vankelecom, I., De Vos, D., Verbiest, T. ChemPhysChem 2010, 11(4), 870-874. In Situ Orientation-Sensitive Observation of Molecular Adsorption on a Liquid/Zeolite Interface by Second-Harmonic Generation van der Veen, M.,* Valev, V., Verbiest, T., De Vos, D. Langmuir 2009, 25(8), 4256-4261. Metal-organic frameworks as high-potential adsorbents for liquid-phase separations of olefins, alkylnaphthalenes and dichlorobenzenes Alaerts, L., Maes, M., van der Veen, M., Jacobs, P., De Vos, D. Physical Chemistry Chemical Physics 2009, 11(16), 2903-2911. Selective Adsorption and Separation of Xylene Isomers and Ethylbenzene with the Microporous Vanadium(IV) Terephthalate MIL-47 Alaerts, L., Kirschhock, C., Maes, M., van der Veen, M., Finsy, V., Depla, A., Martens, J., Baron, G., Jacobs, P., Denayer, J., De Vos, D.* Angewandte Chemie (International ed.) 2007, 46(23), 4293-4297.

Publication

2021 Origin of the synergistic effect between TiO2 crystalline phases in the Ni/TiO2-catalyzed CO2 methanation reaction D. Messou, V. Bernardin, F. Meunier, M. Borges Ordoño, A. Urakawa, B.F. Machado, V. Collière, R. Philippe, P. Serp, C. Le Berre, J. Catal., 398, 14-28 Enhancing Sustainability Through Heterogeneous Catalytic Conversions at High Pressure N. Phongprueksathat, A. Urakawa, Heterogeneous Catalysts: Advanced Design, Characterization and Applications (Wiley) Methodologies to Hunt Active Sites and Active Species A. Urakawa, Heterogeneous Catalysts: Advanced Design, Characterization and Applications (Wiley) Heterogeneously Catalyzed CO2 Hydrogenation to Alcohols N. Phongprueksathat, A. Urakawa, CO2 Hydrogenation Catalysis (Wiley) Greener and facile synthesis of Cu/ZnO catalysts for CO2 hydrogenation to methanol by urea hydrolysis of acetates N. Phongprueksathat, A. Bansode, T. Toyao, A. Urakawa, RSC Advances 11 (24), 14323-14333 Silica-Supported PdGa Nanoparticles: Metal Synergy for Highly Active and Selective CO2-to-CH3OH Hydrogenation S.R. Docherty, N. Phongprueksathat, E. Lam, G. Noh, O.V. Safonova, A. Urakawa, C. Copéret, JACS Au, 1 (4), 450-458 Enhanced Activity of Integrated CO2 Capture and Reduction to CH4 under Pressurized Conditions toward Atmospheric CO2 Utilization F. Kosaka, Y. Liu, S.-Y. Chen, T. Mochizuki, H. Takagi, A. Urakawa, K. Kuramoto, ACS Sust. Chem. Eng., 9 (9), 3452-3463 PEM electrolysis‐assisted catalysis combined with photocatalytic oxidation towards complete abatement of nitrogen‐containing contaminants in water J. Ampurdanés, S. Bunea, A. Urakawa, ChemSusChem, 14 (6), 1534 Selective dehydration of glycerol on copper based catalysts R.J. Chimentão, P. Hirunsit, C.S. Torres, M. Borges Ordoño, A. Urakawa, J.L.G. Fierro, D. Ruiz, Catalysis Today, 367, 58-70

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Students Amos Yusuf, Mick Dam & Bas Brouwer winners of Mekel Prize 2024

Master students Amos Yusuf, from the ME faculty (Mick Dam, from the EEMCS faculty and graduate Bas Brouwer have won the Mekel Prize 2024 for the best extra scientific activity at TU Delft: the development of an initiative that brings master students into the classroom teaching sciences to the younger generations. The prize was ceremonially awarded by prof Tim van den Hagen on 13 November after the Van Hasselt Lecture at the Prinsenhof, Delft. They received a statue of Professor Jan Mekel and 1.500,- to spend on their project. Insights into climate change are being openly doubted. Funding for important educational efforts and research are being withdrawn. Short clips – so called “reels” – on Youtube and TikTok threaten to simplify complex political and social problems. AI fakes befuddle what is true and what is not. The voices of science that contribute to those discussion with modesty, careful argument and scepticism, are drowned in noise. This poses a threat for universities like TU Delft, who strive to increase student numbers, who benefit from diverse student populations and aim to pass on their knowledge and scientific virtues to the next generation. It is, therefore, alarming that student enrolments to Bachelor and Master Programs at TU Delft have declined in the past year. Students in front of the class The project is aimed to make the sciences more appealing to the next generation. They have identified the problem that students tend miss out on the opportunity of entering a higher education trajectory in the Beta sciences – because they have a wrong picture of such education. In their mind, they depict it as boring and dry. In his pilot lecture at the Stanislas VMBO in Delft, Amos Yusuf has successfully challenged this image. He shared his enthusiasm for the field of robotics and presented himself as a positive role model to the pupils. And in return the excitement of the high school students is palpable in the videos and pictures from the day. The spark of science fills their eyes. Bas Brouwer Mick Dam are the founders of NUVO – the platform that facilitates the engagement of Master Students in high school education in Delft Their efforts offer TU Delft Master Students a valuable learning moment: By sharing insights from their fields with pupils at high school in an educational setting, our students can find identify their own misunderstandings of their subject, learn to speak in front of non-scientific audiences and peak into education as a work field they themselves might not have considered. An extraordinary commitment According to the Mekel jury, the project scored well on all the criteria (risk mitigation, inclusiveness, transparency and societal relevance). However, it was the extraordinary commitment of Amos who was fully immersed during his Master Project and the efforts of Brouwer and Dam that brought together teaching and research which is integral to academic culture that made the project stand out. About the Mekel Prize The Mekel Prize will be awarded to the most socially responsible research project or extra-scientific activity (e.g. founding of an NGO or organization, an initiative or realization of an event or other impactful project) by an employee or group of employees of TU Delft – projects that showcase in an outstanding fashion that they have been committed from the beginning to relevant moral and societal values and have been aware of and tried to mitigate as much as possible in innovative ways the risks involved in their research. The award recognizes such efforts and wants to encourage the responsible development of science and technology at TU Delft in the future. For furthermore information About the project: https://www.de-nuvo.nl/video-robotica-pilot/ About the Mekel Prize: https://www.tudelft.nl/en/tpm/our-faculty/departments/values-technology-and-innovation/sections/ethics-philosophy-of-technology/mekel-prize

New catheter technology promises safer and more efficient treatment of blood vessels

Each year, more than 200 million catheters are used worldwide to treat vascular diseases, including heart disease and artery stenosis. When navigating into blood vessels, friction between the catheter and the vessel wall can cause major complications. With a new innovative catheter technology, Mostafa Atalla and colleagues can change the friction from having grip to completely slippery with the flick of a switch. Their design improves the safety and efficiency of endovascular procedures. The findings have been published in IEEE. Catheter with variable friction The prototype of the new catheter features advanced friction control modules to precisely control the friction between the catheter and the vessel wall. The friction is modulated via ultrasonic vibrations, which overpressure the thin fluid layer. This innovative variable friction technology makes it possible to switch between low friction for smooth navigation through the vessel and high friction for optimal stability during the procedure. In a proof-of-concept, Atalla and his team show that the prototype significantly reduces friction, averaging 60% on rigid surfaces and 11% on soft surfaces. Experiments on animal aortic tissue confirm the promising results of this technology and its potential for medical applications. Fully assembled catheters The researchers tested the prototype during friction experiments on different tissue types. They are also investigating how the technology can be applied to other procedures, such as bowel interventions. More information Publicatie DOI : 10.1109/TMRB.2024.3464672 Toward Variable-Friction Catheters Using Ultrasonic Lubrication | IEEE Journals & Magazine | IEEE Xplore Mostafa Atalla: m.a.a.atalla@tudelft.nl Aimee Sakes: a.sakes@tudelft.nl Michaël Wiertlewski: m.wiertlewski@tudelft.nl Would you like to know more and/or attend a demonstration of the prototype please contact me: Fien Bosman, press officer Health TU Delft: f.j.bosman@tudelft.nl/ 0624953733

A key solution to grid congestion

On behalf of the TU Delft PowerWeb Institute, researchers Kenneth Brunninx and Simon Tindemans are handing over a Position Paper to the Dutch Parliament on 14 November 2024, with a possible solution to the major grid capacity problems that are increasingly cropping up in the Netherlands. The Netherlands is unlikely to meet the 2030 climate targets, and one of the reasons for this is that large industry cannot switch to electricity fast enough, partly because of increasingly frequent problems around grid capacity and grid congestion. In all likelihood, those problems will actually increase this decade before they can decrease, the researchers argue. The solution offered by the TU Delft PowerWeb Institute researchers is the ‘flexible backstop’. With a flexible backstop, the current capacity of the power grid can be used more efficiently without sacrificing safety or reliability. A flexible backstop is a safety mechanism that automatically and quickly reduces the amount of electricity that an electric unit can draw from the grid (an electric charging station or a heat pump) or deliver (a PV installation). It is a small device connected or built into an electrical unit, such as a charging station or heat pump, that ‘communicates’ with the distribution network operator. In case of extreme stress on the network, the network operator sends a signal to the device to limit the amount of power. Germany recently introduced a similar system with electric charging stations. The backstop would be activated only in periods of acute congestion problems and could help prevent the last resort measure, which is cutting off electricity to users. ‘Upgrading the electricity network remains essential, but in practice it will take years. So there is a need for short-term solutions that can be integrated into long-term planning. We, the members of the TU Delft PowerWeb Institute, call on the government, network operators and regulator to explore the flexible backstop as an additional grid security measure,’ they said. The entire Paper can be read here . Kenneth Brunninx Associate Professor at the Faculty of Engineering, Governance and Management, where he uses quantitative models to evaluate energy policy and market design with the aim of reducing CO2 emissions. Simon Tindemans is Associate Professor in the Intelligent Electrical Power Grids group at Faculty of Electrical Engineering, Mathematics and Computer Science. His research interests include uncertainty and risk management for power grids. TU Delft PowerWeb Institute is a community of researchers who are investigating how to make renewable energy systems reliable, future proof and accessible to everyone.

25 year celebration of formal collaboration between Delft University of Technology and the University of Campinas

On 25 October 2024 we celebrated 25 years of formal collaboration between Delft University of Technology and the University of Campinas. What began as a project to exchange some students in chemical engineering has now grown to a multifaceted and broad academic collaboration which accumulated into 24 joint research projects (>20 M Euro); 16 advanced courses and 15 Doctors with a Dual Degree PhD. Patricia Osseweijer, TU Delft Ambassador Brazil explained, “We are proud to show and reflect on this special day the added value we created resulting from our joint activities. The lessons we learned demonstrate that especially continuity of funds and availability for exchanges has contributed to joint motivation and building trust which created strong relations. This is the foundation for academic creativity and high-level achievements.” The program presented showcases of Dual Degree projects; research activities and education. It discussed the future objectives and new fields of attention and agree on the next steps to maintain and strengthen the foundation of strong relations. Telma Franco, Professor UNICAMP shared that “joint education and research has substantially benefitted the students, we see that back in the jobs they landed in,” while UNICAMP’s Professor Gustavo Paim Valenca confirmed that “we are keen to extend our collaboration to more engineering disciplines to contribute jointly to global challenges” Luuk van der Wielen highlighted that “UNICAMP and TU Delft provide valuable complementary expertise as well as infrastructures to accelerate research and innovation. Especially our joint efforts in public private partnerships brings great assets” To ensure our future activities both University Boards have launched a unique joint program for international academic leadership. This unique 7-month program will accommodate 12 young professors, 6 from each university. The programme began on 4 November 2024 in Delft, The Netherlands.