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Título - Química Sintética e Industrial

Doctoral Programme in Synthetic and Industrial Chemistry

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Presentación - Química Sintética e Industrial

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We can affirm that Chemistry is the science which has most contributed to the social welfare of the current day. Its developments, now fully compatible with environmental quality as a result of the advances in the knowledge of its principles and application, invade and protect all the areas of our lives.

The main social issues which contribute to guiding research into chemistry include energy, health, the environment and new materials (including nanotechnology) for application in catalysis, electronics, etc. A whole world dependent on new developments in chemical synthesis: new drugs (analgesics, antibiotics, anti-inflammatory drugs and treatments for diabetes, blood pressure and cancer), new adhesives, new semi-conductor materials, new luminescent products for solar cells, new polymers, LEDs, OLEDs, nanoparticles and enantioselectivity. These words depicting the world around us are, in turn, words which make up the world of synthesis: constructing molecules and materials with the required chemical, medical or physical functionality, studying their structures and properties and doing so with powerful, selective, efficient and clean procedures.

Therefore, the aim of this Doctoral Program in Synthetic and Industrial Chemistry is the training of researchers into Chemical Synthesis who can join research centres and companies which use technology related to the preparation and handling of organic compounds in a broad sense.

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Part-time studies

Duration: 5 - 8 cursos

Places available: 1

Approximate fees: 219 €/academic year

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Full-time studies

Duration: 3 - 5 cursos

Places available: 15

Approximate fees: 301 €/academic year

Contact

Academic queries: esther.lete@ehu.eus

Administrative queries: itziar.eskubi@ehu.es

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Research teams and research topics

Research teams and research topics
Research teamsResearch topics
Asymmetric Catalysis and Chemical Synthesis
  • "Click" Chemistry and new drugs
  • Asymmetrical Catalysis and Chemical Synthesis
  • Bioorganic and Supramolecular Chemistry. from Biocatalysis and biotransformations to self-assembly.
  • C-H activation via metal catalysis. Mechanisms and Applications
  • Computational Chemistry
  • Design and Synthesis of Pet Radiotracers Applicable to Neurodegenerative Pathologies and Oncology
  • Marking of Polyfunctionalized Nanosystems with Diagnostic Applications Using Nuclear Image Techniques
Asymmetric Synthesis, Catalysis and Molecular Recognition
  • Asymmetrical Catalysis and Chemical Synthesis
  • Asymmetrical Synthesis of Bioactive Products and Biomimetic Processes
  • Carbohydrate Chemistry and Biology
  • Carbohydrate-Protein Interactions and molecular recognition
  • Design and Synthesis of Chemical Entities Useful in Oncology and Immunology
  • Molecular Modelling and Study of the Biological Structure-Activity Relationship
  • Organometallics in Synthesis
Development of New Synthetic Technologies
  • Acylation reactions catalyzed by transition metals. Synthesis and functionalization of carbocycles and heterocycles.
  • Development and Application of New Catalytic Systems in Sustainable Environments
  • Nanotechnology. Nanomaterials and Nanotools
  • Search for New Applications of Reagents of Hypervalent Iodine in Organic Synthesis
Phosphofluorochemistry, Bioorganic and Computational Chemistry
  • Computational Study of Mechanisms of Chemical and Biochemical Reactions
  • Design and Synthesis of Chemical Entities Useful in Oncology and Immunology
  • Design and Synthesis of Enzymatic Inhibitors and Active Principles of Drugs
  • Organocatalysis and Organometallic Catalysis Inspired by Biological Systems
  • Organophosphate and Fluorinated Compounds
  • Synthetic Organic Chemistry and Catalysis
Sustainable Chemistry
  • Asymmetrical Catalysis and Chemical Synthesis
  • Heterogeneous Environmental Catalysis
  • Molecular Modelling and Study of the Biological Structure-Activity Relationship
  • Sustainable Chemistry