PARTNERS PARTNERS
NANOPHOTONICS TECHNOLOGY CENTER – UNIVERSITAT POLITÈCNICA DE VALÈNCIA
-SPAIN-
UNIVERSITA DEGLI STUDI DI MILANO
-ITALY-
AMOLF
-THE NETHERLANDS-
UNIVERSITEIT TWENTE
-THE NETHERLANDS-
SYMERES
-THE NETHERLANDS-
KING’S COLLEGE LONDON
-UNITED KINGDOM-
Tallinn University of Technology
-ESTONIA-
NANOPHOTONICS TECHNOLOGY CENTER -UNIVERSITAT POLITÈCNICA DE VALÈNCIA – SPAIN
Alejandro Martínez
Professor at Universitat Politècnica de Valencia
Alejandro Martínez received the Telecommunications Engineer BsC and PhD degrees from the Universitat Politècnica de Valencia (UPV), Spain, in 2000 and 2004, respectively. Since 2004, he has been engaged to this university in different positions, becoming full Professor in December 2017. He is leading the “Plasmonics, optomechanics and chiral photonics” group at the Nanophotonics Technology Center at the same university. The main interest of this group is to develop new nanophotonic devices to be integrated into silicon photonic integrated circuits for applications in telecom systems and biosensing. He has co-authored over 150 papers in international peer-reviewed journals and holds 8 patents. He has also given invited talks (> 10) at international conferences. He has supervised 9 doctoral theses and more than 30 Master theses. He has been the principal investigator of several European (TAILPHOX, GAIA, THOR, SIOMO, SAPHER, MUSICIAN and CHIRALFORCE) and national projects. He is also member of IEEE, AAAS and Optica.
Iago Diez
Iago Diez has a background in Physics (BSc) and Nanotechnology (MSc) and received his PhD in 2022 on Inverse design of nanophotonic cavities from the University of Exeter (United Kingdom). He is currently a postdoctoral researcher part of the team at Nanophotonic Technology Center based in Universitat Politecnica de Valencia (Spain). His role in the group is to study the chiral optical forces produced by integrated photonic waveguides that enable the sorting of chiral nanoparticles or enantiomers, from a theoretical point of view and at an experimental level testing photonic integrated circuits in combination with microfluidics.
Josep Martínez Romeu
PhD Student
I was born in Valencia (Spain) in 1997. Have a degree and master in physics and am interested in all thing physics and programming. I also have a masters in data science. I have experience analysing physical data and medical and text data. I have worked with python, R, C++, Matlab and SQL. Have experience working with Excel and web scraping. My interests focus on physics and math, and designing and studying different physical systems, in particular those involving electromagnetism.
UNIVERSITA DEGLI STUDI DI MILANO – ITALY
Francesca Baletto
Associate professor
- PhD in Physics (2003) from Univ. of Genova, Italy.
- UNESCO- fellow (2003-06) at ICTP, Trieste, Italy.
- Research Assistant (2006-07) at the Dept, of Materials Science and Engineering, MIT (USA)
- Lecturer (2007-2013), Senior Lecturer (2013-2018), Reader (2018-2021) at the Physics Department King’s College London (UK), 2021 Visiting professor at DIPC, San Sebastian (Spain).
- Since 2022, «direct call» as associate professor in Physics at the Physics Department, University of Milan, Italy. Currently visiting professor at the King’s College London.
My scientific interest regard the desing and characterization of nanomaterials based on metallic nanoparticles for catalysis and photocatalysis. My background is in numerical modelling and bridges materials science, nanophysics, and chemistry. My contribution is the implementation and use of numerial tools to study, control, and elucidate the relationship between the morphology and chemo-physical properties of nanoparticles. Recent accomplishments focus on tailoring the catalytic, magnetic, and optical features of metallic nanoparticles, leading to novel desing rules. Closely to the objectives of CHIRALFORCE is to show how the optical properties of gold and Au-based nanoparticles can be tuned by their geometrical shape, and how to retrieve polarizability fro first-principles calculations such as time dependent density functional theory.
Promoting women and mums in science and the diversity in science to overcome societal barriers through the project Fiorire con la scienza (in Italian only, http://fiorireconlascienza.unimi.it/).
Mirko Vanzan
Postdoctoral Reasearch Fellow
Dr. Miko Vanzan got his Master in Materials Sciences in 2017 from University of Padova, with the evaluation of 110/110 cum laude. He received his PhD in 2022 with a thesis entitled «Investigating energy and charge transfers in hybrid molecule-nanoparticle systems through atomistic computational methods». He was visiting student and then visiting scholar in the group of Angel Rubio at the University of the Basque Country UPV/EHU. From 2023 he is a Postdoctoral Research Fellow at the University of Milan.
Dr. Mirko Vanza’s activity focuses mainly on the investigation of structural, dynamical and optical properties of hybrid nanoclusters-molecular systems. In particular, he is interested in the optical response of chiral molecules and chiral nanoclusters composed of a few hundreds metallic atoms for photocatalytic applications.
NWO-I (AMOLF) – THE NETHERLANDS
Wim Noorduin
Group leader Self-Organizing Matter, and Professor at University of Amsterdam (Netherlands)
Wim Noorduin leads the Self-Organizing Matter group at AMOLF and is professor by special appointment at the University of Amsterdam. He is co-founder (and currently scientific advisor) of Lumetallix, a start-up company that exploits innovative photoluminescent technology for mitigating lead pollution.
In 2010, Noorduin received his PhD from Radboud University. From 2010 to 2013, he was a postdoctoral researcher at Harvard University. From 2014 to 2015, he functioned as both a research associate at Harvard University and an assistant professor at Radboud University. From 2015 onwards, he has been leader of the Self-Organising Matter group at the NWO-Institute AMOLF in Amsterdam.
Currently, Noorduin’s research focuses on the dynamic interplay between chemical reactions and crystallization phenomena to control the emergence of complexity in the solid state. His group is known for designing physical/chemical schemes to self-organize complex materials and develop new chiral amplification methods for the synthesis of enantiomerically pure building blocks. Current research includes the development of new routes to control crystallization, material composition, shape and hierarchical organization of mineralized structures and the design of physical/chemical feedback mechanisms to self-correct and amplify the emergence of complexity. Noorduin’s research is funded by various grants, including the ERC Consolidator, and Veni, Vidi and KLEIN grant from the Netherlands Organization for Scientific Research.
Femius Koenderink
Group leader Resonant Nanophotonics at AMOLF, and Professor at University of Amsterdam (Netherlands)
Femius Koenderink (1976) studied Experimental Physics (MSc 1998, cum laude) and Mathematics (MSc 1999, cum laude) at Utrecht University. He did his PhD studies at the University of Amsterdam in the field of light emission and scattering in 3D photonic crystals, and subsequently joined ETH Zürich as postdoctoral fellow with Vahid Sandoghdar to specialize in near field optics. Since 2008 he is principal investigator of the “Resonant Nanophotonics” team at AMOLF, where since 2016 he is also Department Head. In 2012 he was appointed as professor by special appointment at the Institute of Physics, University of Amsterdam. He received the NWO Veni, Vidi and Vici personal talent awards (dutch equivalents of the ERC Starting and Consolidator scheme), and was elected to the ACS Photonics Young Investigator Lectureship (2018), and Optica Fellow in 2022.
Femius Koenderink is fascinated by the physics of subwavelength strongly scattering resonant structures to control propagation, emission, detection, and amplification of light. His work sits at the interface of plasmonics, metasurfaces, nanoscopy of single nano-objects and the field of light-matter interaction at the level of single molecules and single photon sources. His group develops state of the art optical techniques including polarization and phase-resolved Fourier microscopy technique to quantify far-field radiation patterns of nanoscale objects. This technique will be further extended and applied in the CHIRALFORCE project. Koenderink has published ca. 150 papers, presented > 50 invited lectures, and supervised 16 PhD theses. His industry collaborations include the domains of solid state lighting (Philips, Signify, Lumileds), microscopy and spectroscopy (DELMIC), and wafer metrology (Bruker, ASML) . Innovations have been transferred for patenting to Lumileds, ASML, NXP and Philips, while polarimetric Fourier microscopy is now part of the DELMIC product line-up.
Marko Kamp
Senior Research Technician at AMOLF (The Netherlands)
After obtaining his Bachelor of Engineering in Applied Physics at the Saxion University of Applied Sciences (Enschede, the Netherlands), Marko worked few years on the development of tracegas detectors based on photo-acoustics at Sensor Sense in Nijmegen (the Netherlands). In 2011 he started working at AMOLF as the technician for the Resonant Nanophotonics group. In this role he worked with many PhD students and postdocs to develop and improve measurement setups.
With his extensive knowledge of optics and all equipment involved he became the microscopy expert for the whole AMOLF institute. This involvement has resulted in co-authorship of seven papers in international peer-reviewed journals.
Susanna Bertuletti
Postdoctoral Researcher
Dr. Susanna Bertuletti is a Postdoctoral researcher at AMOLF, where she works on the synthesis and characterization of nanoparticles and organic molecules.
She is graduated in Chemistry (University of Milan, 2013-2016, B.Sc. 110/110) and specialized in Organic and Medicinal Chemistry (University of Milan, 2016-2018, M.Sc. summa cum laude). During her internships she became familiar with organic synthesis and NMR spectroscopy.
She did her PhD in Pharmaceutical Sciences (Italian National Research Council SCITEC-CNR and University of Milan, 2018-2021), deepening her synthetic organic chemistry background and becoming an expert in biocatalysis (i.e., using enzymes as catalysts) applied to the green synthesis of pharmaceutically relevant compounds. Moreover, she learned how to produce enzymes from bacterial hosts and purify them, and she gained deep knowledge in analytical techniques such as absorbance, CD and NMR spectroscopy, polarimetry, GC, GC-MS, and HPLC. These techniques were aimed at the resolution and characterization of enantiomerically enriched compounds.
She moved to Amsterdam in October 2021 for a Postdoctoral position at the University of Amsterdam (UvA), where she worked on two projects for one year on biocatalysis applied to industrial processes and synthetic organic chemistry to obtain complex molecules (rotaxanes).
Before starting her position at AMOLF, she worked for one year (09/2022-08/2023) in a biotechnology startup, Sapreme Development BV, where she learned to functionalize and characterize monoclonal antibodies with oligonucleotides and saponins of pharmaceutical relevance.
Zihao Lu
Postdoctoral Researcher at AMOLF
I obtained my bachelor’s (2015) and master’s degrees (2018) in material science and engineering at Xiamen University (China). I then joined the Bio-Inspired Photonics group at the University of Cambridge (UK) as a Ph.D. student with Prof. Vignolini, working on chiral plasmonic composite materials. Currently, I am a postdoctoral research associate with Prof. F. Koenderink at AMOLF (Netherlands), focusing on Fourier imaging of chiral nano-objects with polarization resolutions.
UNIVERSITEIT TWENTE – THE NETHERLANDS
Han Gardeniers
Professor
Han (J.G.E.) Gardeniers (MSc Chemistry 1985, PhD Exp. Solid-state Physics 1990, both from Radboud University Nijmegen) joined the University of Twente in 1990 and was a visiting researcher at Carnegie Mellon University (Pittsburgh PA, USA) and University College of London during the years 1994-1995. From 2001 till 2003 he worked as a senior scientist at Kymata Ltd./Alcatel Optronics and Micronit Microfluidics. In 2007 he started his research group «Mesoscale Chemical Systems», which focuses on micro and nanostructures for chemical applications, including microreactors and microfluidic systems for chemical analysis. He received an NWO Vici grant in 2004 and an ERC Advanced Grant in 2017, co-authored over 300 reviewed journal papers and was co-inventor on 13 patents.
Bahar Atik Eroglu
PhD candidate at the University of Twente
Bahar Atik Eroglu received her Chemistry BSc and MSc degrees from Middle East Technical University (METU). During her MSc studies, she also started working at METU MEMS Center where she gained 3 years of cleanroom experience. She fabricated and characterized various MEMS structures and focused on optimizing the absorber and sensing layers of microbolometers. She then took the responsibility for wet etching processes in the cleanroom. Since December 2022, she has been pursuing her PhD degree at the University of Twente, working for CHIRALFORCE, where she focuses on the cleanroom fabrication and integration of microfluidics into waveguides.
SYMERES – THE NETHERLANDS
Michel Leeman
Senior Team Leader
Michel Leeman received his PhD in 2009 on the topic of the resolution of enantiomers by crystallization. Currently, he is a Senior Team Leader at Symeres (Groningen, The Netherlands) where he is involved in projects concerning organic chemistry and the resolution of enantiomers for many pharmaceutical partners. He has co-authored 35 papers in international peer-reviewed journals and is a co-inventor on 3 patents.
TALLINN UNIVERSITY OF TECHNOLOGY
(TALTECH) – ESTONIA
Ott Scheler
Tenured Associate Professor (Microfluidics), Division of Gene technology and biomedicine: Department of Chemistry and Biotechnology, Tallin University of Technology.
I’m working as a (tenured) associate professor at TalTech, Estonia and my main research interests are i) developing (droplet) microfluidic and automation tools and ii) applying those developed tools in different biotechnological and chemical applications. I did my postdoc in the field of microfluidics at Garstecki lab in Institute of Physical Chemistry at Polish Academy of Sciences. I have Phd in Biotechnology from University of Tartu, Estonia.
During my career I’ve had the opportunity to work in following interesting research areas: nucleic acid based diagnostics, biosensorics, microbiology, (droplet) microfluidics, microscopy and bioanalytics. In addition to developing lab automation in Chiralforce project my other current scientific interests are: developing tools to understand antimicrobial susceptibility and resistance (AMR) mechanisms, including the effect of different pollutants (microplastic, chemicals, antibiotics, etc.) to AMR.
KING’S COLLEGE LONDON – UNITED KINGDOM
Francisco José Rodriguez Fortuño
Reader in Nanophotonics
Francisco J. Rodríguez-Fortuño is Reader at King’s College London Physics Department, researching on nanophotonics, optical forces, spin-orbit interactions of light and new electromagnetic phenomena, with a focus on near-field effects. Francisco earned his Telecommunications Engineering BSc, MSc and PhD at Universitat Politecnica de Valencia, Spain, with long research stays at University of Pennsylvania and King’s College London, where he became a postdoc and later obtained a permanent academic position in 2015, starting his own research team. Francisco is author of 71 research papers on international journals, h-index 28 (Google Scholar), recipient of the ERC Starting Grant PSINFONI as PI, and is Co-I in EIC Pathfinder CHIRALFORCE.
Sebastian Golat
Research Associate
Sebastian Golat is a postdoctoral research associate at the Physics Department of King’s College London. His primary focus lies in theoretical and mathematical physics, with interests in gravitational and electromagnetic waves. His academic background was initially in astrophysics and cosmology during his doctoral studies at Imperial College London, which gives him a unique opportunity to apply mathematical tools developed in these fields in nanophotonics. Currently, Sebastian is working with Francisco J. Rodríguez-Fortuño researching how chiral optical forces act on small particles.