Designing of multifunctional nanomaterials for light-driven innovation technologies

MSCA (Marie Skłodowska-Curie)HORIZON-TMA-MSCA-SEID: 101131111
EC Contribution
€14,674
Consortium Size
15 orgs
Start Year
2024
Summary

DELIGHT aims at excellence of Europe in nanoscience and impact in research and development at the highest level. The project focuses on multifunctional nanomaterials based on colloidal particles, organic/inorganic perovskites, and organic and biomaterials. Design and fabrication of these materials for state-of-the-art applications requires a high level of interdisciplinarity with expertise from chemistry, physics, material science, engineering, nanofabrication and biology, combined with the most advanced spectroscopy tools. The scientific objectives of DELIGHT are to establish a platform of highly versatile functional nanomaterials, with the use of machine learning and artificial intelligence for material/device development and characterization. The focus is on multifunctional hybrids, heterostructures, and assemblies, and to fully exploit their potential for catalysis, energy, lighting, plasmonics, and theranostics. The research is organized in 3 work packages (WPs) that target nanomaterial development, functional composites and in-depth characterization, and device applications. Social and training objectives are the education of young researchers in Europe on the highest level, with emphasis on interdisciplinarity that is fundamental in modern nanoscience, the advancement of technological know-how that enables a sustainable and eco-friendly modern society, and promotion of gender equality in the scientific landscape at all levels. These goals are implemented in a WP dedicated to training, organizing lectures, workshops, technology transfer, and outreach and dissemination events.DELIGHT assembled an academic team of outstanding excellence, which links key players in the EU working on state-of-the-art nanomaterials with world leading universities in the US, Canada, and Argentina that are known for their unique scientific and technological capabilities and efficient technology transfer.

Consortium (15)

Project Results (13)

Source: CORDIS, the EU research results database.

Publications (10)
Biomolecular ligands as tools to modulate the optical and chiroptical properties of gold nanoclusters
Nanoscale· 2025DOI
Laura Saa, Manuel Núñez-Martínez, Eva Carpintero-Cueto, Aitziber L. Cortajarena
Controlling Energy Flow in Perovskite Heterostructures Through Dimensionality and Phase Engineering
Advanced Science· 2025DOI
Danila A. Tatarinov; Alexander Schleusener; Roman Krahne
Direct Growth of Rectangular 2D Layered Metal‐Halide Perovskite Microcrystal Photonic Cavities on Functional Substrates
Advanced Optical Materials· 2025DOI
Martina Borreani; Sudhir Kumar Saini; Alexander Schleusener; Roman Krahne
Halide Perovskite–Chalcohalide Nanocrystal Heterostructures as a Platform for the Synthesis and Investigation of the CsPbCl <sub>3</sub> –CsPbI <sub>3</sub> Epitaxial Interface
Advanced Materials· 2025DOI
Nikolaos Livakas; Irina Skvortsova; Juliette Zito; Yurii P. Ivanov; Aswin Asaithambi; Andrea Toma; Annick De Backer; Muhammad Imran; Sandra Van Aert; Giorgio Divitini; Ivan Infante; Sara Bals; Liberato Manna
Transforming achiral semiconductors into chiral domains with exceptional circular dichroism
Science· 2025DOI
Thomas J. Ugras, River B. Carson, Reilly P. Lynch, Haoyang Li, Yuan Yao, Lorenzo Cupellini, Kirt A. Page, Da Wang, Arantxa Arbe, Sara Bals, Louisa Smieska, Arthur R. Woll, Oriol Arteaga, Tamás Jávorfi, Giuliano Siligardi, Gennaro Pescitelli, Steven J. Weinstein, Richard D. Robinson
Ultrasensitive and Tunable Achiral Metamaterial Substrates as Nanobiosensors for Enantiomer Detection
ACS Applied Materials & Interfaces· 2025DOI
Maryam Mirahmadi; Ali Douaki; Vincenzo Caligiuri; Denis Garoli; Roman Krahne
Heterostructures via a Solution‐Based Anion Exchange in Microcrystalline 2D Layered Metal‐Halide Perovskites
Advanced Materials· 2024DOI
Schleusener, Alexander; Faraji, Mehrdad; Borreani, Martina; Lauciello, Simone; Pasquale, Lea; Khabbaz Abkenar, Sirous; Divitini, Giorgio; Krahne, Roman
Interplay of Phonon Directionality and Emission Polarization in Two-Dimensional Layered Metal Halide Perovskites
Accounts of Chemical Research· 2024DOI
Roman Krahne; Miao-Ling Lin; Ping-Heng Tan
Phonon Directionality Impacts Electron–Phonon Coupling and Polarization of the Band-Edge Emission in Two-Dimensional Metal Halide Perovskites
Nano Letters· 2024DOI
Roman Krahne; Alexander Schleusener; Mehrdad Faraji; Lin-Han Li; Miao-Ling Lin; Ping-Heng Tan
Quantitative 3D structural analysis of small colloidal assemblies under native conditions by liquid-cell fast electron tomography
Nature Communications· 2024DOI
Daniel Arenas Esteban, Da Wang, Ajinkya Kadu, Noa Olluyn, Ana Sánchez-Iglesias, Alejandro Gomez-Perez, Jesús González-Casablanca, Stavros Nicolopoulos, Luis M. Liz-Marzán, Sara Bals
Deliverables (3)