The UV research groups (GIUV) are regulated in the 1st chapter of the Regulation ACGUV48/2013, which explains the procedure for creating new research structures. They are basic research and organizational structures that result from the voluntary association of researchers that share objectives, facilities, resources and common lines of research. These researchers are also committed to the consolidation and stability of their activity, work in groups and the capability to achieve a sustainable funding.
The research groups included in the previously mentioned Regulation are registered in the Register of Research Structures of the Universitat de València (REIUV), managed by the Office of the Vice-principal for Research. The basic information of these organisms can be found in this website.
Participants
Data related to research groups featured in various information dissemination channels shall not, under any circumstances, imply a statement or commitment regarding the employment or academic affiliation of individuals associated with the Universitat de València. Their inclusion is solely the responsibility of the group directors. Updates will be made upon request from interested parties.
- Registered groups in the Register of Research Structures of the Universitat de València - (REIUV)
Reference of the Group:
Description of research activity: The group's research activity focuses on the design and theoretical characterisation of new materials based on two-dimensional (2D) crystals that can be controlled by external stimuli (light, pressure, temperature, etc.). Specifically, we focus on understanding their electronic, structural, magnetic and vibrational properties using first-principle methods and Hamiltonian models, based on the tools provided by quantum chemistry, solid-state physics and materials science. Our main objective is both the development and application of efficient theoretical and computational frameworks that serve as a driving force to create intelligent 2D materials. Our research, on the frontier between physics and chemistry, also covers their possible applications in emerging fields such as magnonics, spintronics, quantum computing and sensors.
Web:
Scientific-technical goals: - Diseño y estructura electronica de materiales 2D y heteroestructuras de van der Waals
- Estudio de las propiedades magneticas y la dinamica del espin para aplicaciones en magnonica
- Desarrollo de marcos teoricos y computacionales eficientes para heteroestructuras hibridas con materiales 2D
- Ingenieria de tension mecanica y de defectos en materiales 2D magneticos
Research lines: - Two-dimensional magnetic materials.We explore magnetic properties and their possible applications in spintronics and magnonics through state-of-the-art computational and Hamiltonian model methods using a chemical approach
- Hybrid molecular/2D heterostructures.We study the properties of sublimable organic and inorganic molecules on the surface of two-dimensional materials, modelling the properties that develop at the interface with the aim of creating new intelligent devices based on the coherent control of these properties.
- Low-dimensional molecular materials.We design and research low-dimensional molecular materials with interesting magnetic properties (molecular nanomagnets, molecular quantum bits, magnetic metal-organic frameworks etc.) taking advantage of the great flexibility provided by chemistry.
Group members:
CNAE:
Keywords: - 2D materials; 2D magnetism; Magnonics; Spintronics;
- Spin-crossover molecules; molecular nanomagnets; hybrid heterostructures; thin films;
- Molecular nanomagnets; Molecular spin qubits; Molecular magnetic materials; metal-organic frameworks;
