Competencies and objectives
- Course context for academic year 2016-17
- Course content (verified by ANECA in official undergraduate and Master’s degrees)
- Learning outcomes (Training objectives)
- Specific objectives stated by the academic staff for academic year 2016-17
Course context for academic year 2016-17
The optional subject "Advanced Nuclear Magnetic Resonance" (36643) is a 3 ECTS course which belongs to the Medicinal Chemistry Master Degree. This course is taught once a year, currently in the second semester. It is available for all graduate students.
This subject brings to completion the studies and knowledge acquired by the students in the course "Structural Determination of organic Compounds" (26030) of the Chemistry Degree.
During this course homo- and heteronuclear 2-D NMR correlation will be covered as well as the NMR spectrometry of other important spin nuclei such as, 15N, 2H, 31P, 31F, and 28Si.
Course content (verified by ANECA in official undergraduate and Master’s degrees)
UNIVERSITY MASTER'S DEGREE IN BIOMEDICINE
Competencias propias del módulo específico de química médica
- CEQM11 : Conocer la estructura, biosíntesis, síntesis y reactividad de los productos naturales más importantes que no se encuentran dentro de las grandes rutas biosintéticas.
- CEQM19 : Conocer los compuestos heterocíclicos aromáticos en cuanto a estructura, propiedades físicas y químicas, métodos de síntesis y aplicaciones.
- CEQM22 : Saber manipular e interpretar los datos suministrados por los experimentos bidimensionales y tridimensionales de RMN.
- CEQM23 : Conocer y saber aplicar los métodos computacionales al descubrimiento y diseño de nuevas moléculas útiles para la industria farmacéutica.
- CEQM4 : Conocer y utilizar técnicas espectroscópicas y espectrométricas avanzadas e innovadoras de determinación estructural y de análisis orgánico y bioorgánico.
UNIVERSITY MASTER'S DEGREE IN CLINICAL OPTOMETRY AND VISION
Competencias específicas:>>Módulo Opcional de Química Médica
- CEQM11 : Conocer la estructura, biosíntesis, síntesis y reactividad de los productos naturales más importantes.
- CEQM19 : Conocer los compuestos heterocíclicos aromáticos en cuanto a estructura, propiedades físicas y químicas, métodos de síntesis y aplicaciones.
- CEQM22 : Saber manipular e interpretar los datos suministrados por la RMN.
- CEQM23 : Conocer y saber aplicar los métodos computacionales al descubrimiento y diseño de nuevas moléculas útiles para la industria farmacéutica.
- CEQM4 : Conocer y utilizar técnicas espectroscópicas y espectrométricas de determinación estructural y de análisis orgánico y bioorgánico.
UNIVERSITY MASTER'S DEGREE IN MEDICAL CHEMISTRY
Specific Competences:>>Specific Medical Chemistry Module
- CEQM11 : Understand the structure, biosynthesis, synthesis and reactivity of the most important natural products that are not found in the major biosynthetic pathways.
- CEQM19 : Understand aromatic heterocycles as regards their structure, physical and chemical properties, methods of synthesis and applications.
- CEQM22 : Know how to handle and interpret the data supplied by two and three dimensional NMR experiments.
- CEQM23 : Understand and know how to apply computational methods to discovering and designing new molecules useful for the pharmaceutical industry.
- CEQM4 : Understand and use advanced, innovative spectroscopic and spectrometric techniques for structural determination and organic and bio-organic analysis.
Learning outcomes (Training objectives)
No data
Specific objectives stated by the academic staff for academic year 2016-17
The student must be familiar with and he should have appropriate knowledge of the provious Organic Chemistry courses. Also, the students must have a level of English that enables them to understand the provided literature and properly follow the corresponding seminars.
1. Knowledge objectives: a) Understand the concepts, principles and theories that link spectroscopic techniques with the different areas of Chemistry. b) Accurately handle the concepts and fundamentals of the different techniques. c) Properly handle specific terminology.
2. Procedure Objectives: a) Use all the knowledge acquired during the course about the different spectroscopic (IR and NMR) and spectrometric (MS) techniques to determine the structure of organic compounds. b) Use, get and interpret the information obtained from tables and graphs related with the structural determination of organic compounds. c) Properly connect the spectra of an organic compound with the spatial arrangement of its atoms (stereochemistry).
3. Attitude objectives: a) Maintain an attitude of constant curiosity in learning the subject. b) Encourage critical thinking and improve the ability of synthesis and analysis. c) Promote accuracy when suggesting questions about the structure of an organic compound.
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