Interuniversity Ph.D. Program in Nanoscience and Nanotechnology.

Research lines associated with this Doctorate program are organised in five wide research fields:

1. Supramolecular chemistry, molecular recognition and molecular self-assembly in Nanoscience
Design of functional molecules and molecular-based nanostructures. Organization of molecules in surfaces and interfaces. Study of crystalline materials under extreme conditions.

2. Crystalline Engineering and Molecular Materials Design
Molecular conductors and superconductors. Magnetic molecular materials. Molecular photonic materials. Switchable molecular materials. Porous coordination polymers (MOFs) and 2D materials

3. Molecular electronics
Preparation, study and theoretical modelling of optoelectronics materials, nanostructures and devices (solar cells, OLEDs, OFETs, molecular lasers?). Carbon nanostructures (fullerenes, carbon nanotubes, graphene, etc.) and its use in molecular electronics. Preparation, study and theoretical modelling of unimolecular devices.

4. Molecular Nanomagnetism
Preparation, study and theoretical modelling of molecular nanomagnets and molecular nanostructures. Molecules and materials for molecular spintronics. Molecules and materials for molecular spintronics. Magnetic molecules for quantum computing. Structural, electronic and magnetic characterization of molecules and magnetic nanomaterials by proximity microscopy techniques (STM, AFM, MFM).

5. Applications of Molecular Nanoscience
Applications of coordination chemistry in molecular magnetism and spintronics. Applications of coordination chemistry in molecular electronics. Biomedical applications of molecules and molecular nanomaterials. Molecular sensors. Molecular optoelectronic devices (solar cells, OLEDs, molecular lasers, etc.). Direct fuel production with solar light. Molecular spintronics devices (molecular spin-valves, spin-OLEDs, spin-OFETs, etc.).

Professors from the four participating universities are involved in the inter-university doctoral programme in Nanoscience and Nanotechnology.

In particular, at the University of Castilla-La Mancha, they are linked to this university's programme:

Team1. Molecular Nanoscience

• Ahrazem El Kadiri, Oussama
• Colino García, José Miguel
• De Toro Sánchez, Jose Angel
• Gómez Gómez, Lourdes
• Normile, Peter Stephen
• Rodríguez Rodríguez, Gabriel

Team 2: Molecular Electronic DevicesC

• Caballero Briceño, Rubén
• de la Cruz Manrique, Pilar
• Douhal Alaui, Abderrazzak
• Gómez-Escalonilla Romojaro, Maria José
• Gutiérrez Tovar, Mario
• Cohen, Boyko Yuda
• Langa de la Puente, Fernando Langa

Team 3: Molecular Electronic

• Ruiz García, María José

Team 4: Molecular Nanomagnetism

• Niza González, Enrique

Team 5: Molecular Nanophysics

• Gálvez Alfonso, Fernando
• Binns, Christopher

Recommended entry profile

Students must have the Master's degree in Molecular Nanoscience and Nanotechnology (/estudios/masteres/master-inter-nanociencia-nanotecnologia) or any other Master's degree related to Nanoscience and Nanotechnology.

• Previous knowledge: It is recommended that the student have basic knowledge in the chemical, physical and biological aspects of nanoscience. Specifically, the student must know the chemical, physical and biological techniques most used in the preparation of nanomaterials and nanostructures, the study of these nanomaterials and nanostructures through microscopic techniques (electron and near-field microscopy, in particular) and spectroscopic techniques.

• Language: The student must demonstrate a B2 level knowledge of English, which guarantees that they will be able to make the presentations of their research work in English at local or international meetings and conferences.
  
  

Additional entry profile

In case that the student has completed a Master's degree other than the Master's degree in  Molecular Nanoscience and Nanotechnology but in a related area of knowledge, such as Chemistry, Physics or certain engineerings, the Doctoral Studies Academic Committee (CAD) may establish complementary courses which will be, in any case, subjects from the aforementioned Master's degree. Specifically, students will have to take a maximum of 20 credits of the following subjects:

• M1. Introduction to the Master on Molecular Nanoscience and Nanotechnology: Basic concepts (6 ECTS).
• M2. Fundamentals in nanoscience (4,5 ECTS).
• M3. Physical characterisation techniques (4,5 ECTS).
• M4. Physical nanofabrication techniques (3 ECTS).
• M5. Basic concepts of supramolecular chemistry (3 ECTS).
• M6. Molecular nanomaterials: preparation methods, properties and applications (6 ECTS).
• M7. Use of supramolecular chemistry for the preparation of nanostructures and nanomaterials (3 ECTS).
• M8. Molecular electronics (4,5 ECTS).
• M9. Molecular nanomagnetism and spintronics (4,5 ECTS).
  
  

The aspects and merits to be assessed will be:

• The grades obtained by the candidate in the undergraduate degree and Master's degree they have completed (60%).
• The results derived from the Master's thesis (publications and conference papers) (25%).
• Knowledge of English beyond the required level (10%).
• Other merits of the candidate's CV related to research training (5%).