General information
Academic year: 2023/2024
Type: Máster
ECTS Credits: 60
Orientación del programa de Máster Investigador
Length of programme (full time): 1 YEAR
Mode of delivery: A tiempo completo
Level of qualification: Máster (MECES nivel 3 – EQF nivel 7)
Model of study: Presencial
Mobility windows:
Optional
Academic Information for mobility students
Aprendizaje basado en prácticas profesionales (Prácticum): Sí
Language(s) of instruction Spanish
Programme coordinator
Name: MARÍA GRACIA, BAGUR GONZÁLEZ / mgbagur@ugml1kMpJROQDr.es
Faculty of Science / Granada campus
Field(s) of education and training (ISCED-F)
- Chemistry (0531)
Main focus
; Specialisation: Methodology and Tools Graduates of this master’s programme will have an in-depth knowledge of the most suitable tools and methodologies used in test and/or synthesis laboratories, and they will be capable of applying them to the resolution of complex chemistry-related problems. They will know how to use the main statistical and computational tools applicable to data manipulation and to the extraction of the valuable (though not always evident) chemical information contained in these data. Graduates will be able to efficiently operate the equipment and employ the techniques used in the identification, structural characterisation, and quantification of biochemical compounds and industrial materials. They will be aware of the risks as well as of the quality-control and safety regulations applied in chemical testing laboratories. Finally, graduates will know how to plan, manage, and develop scientific and technological projects, with a focus on the transfer of this knowledge to other sectors.; Specialisation: Research and Development Graduates of this master’s programme will have an in-depth knowledge of the most suitable tools and methodologies used in test and/or synthesis laboratories. They will be capable of applying them to the resolution of complex problems related to chemistry research. Graduates will be able to apply innovative methodologies in the characterisation and analysis of chemical compounds. They will know how to efficiently operate equipment and employ techniques to develop advanced methodologies and processes for the synthesis and analysis of (bio)chemical compounds. Graduates will be capable of preparing and, when necessary, functionalising nanomaterials, nano-structured materials, and miniaturised sensors. They will be familiar with and know how to use the main computational tools that are generally applied in chemistry research. Finally, graduates will know how to plan, manage, and develop scientific and technological projects, with a focus on the transfer of this knowledge to other sectors.; Specialisation in Production, Trials and Quality Graduates of this master’s programme will have an in-depth knowledge of the principal processes, tools, and methodologies used in test laboratories and/or industrial-scale synthesis. They will be able to apply them to solve problems related to the chemical industry and related sectors. Graduates will also be aware of the risks as well as of the quality and safety norms applicable to the main industries associated with the chemical sector and be able to manage the different processes, products, tools, and resources used in chemical companies. When necessary, they will know how to interpret and apply specific norms and guidelines. Finally, graduates will possess knowledge regarding enterprise creation, intellectual property, and marketing techniques which allow them to plan, manage, and develop technological projects with a focus on their transfer to other sectors.
Competences
Students that have completed the second cycle have the following competencies: – Have demonstrated knowledge and understanding that is founded upon a basis or opportunity for originality in developing and/or applying ideas, often within a research context. – Can apply their acquired knowledge and understanding, and problem solving abilities in new or unfamiliar environments within broader (or multidisciplinary) contexts related to their field of study. – Have the ability to integrate knowledge and handle complexity, and formulate judgments with incomplete or limited information, but that include reflecting on social and ethical responsibilities linked to the application of their knowledge and judgments. – Can communicate their conclusions, and the knowledge and rationale underpinning these, to specialist and non-specialist audiences clearly and unambiguously. – Have the learning skills to allow them to continue to study in a manner that may be largely self-directed or autonomous.
Programme qualification
Name of title awarded in original language
Máster Universitario en Ciencias y Tecnologías Químicas, KHEMIA
Qualification requirements
60 minimum credits
Specialisations
Specialisation name
– Production, Trials and Quality – Methodology and Tools – Research and Development
Admission information
Specific admission requirements
Access to this Master’s degree programme is granted to holders of the following Spanish official university degrees of Licenciado or Graduado (Bachelor’s Degree), and to holders of equivalent degrees from other education systems: Chemistry, Chemical Engineering, Biotechnology, Biochemistry, Pharmacy, Food Science and Technology, Oenology, Environmental Science, Marine Science, Biology, Geology, Physics, Restoration, Veterinary Science, Agricultural Engineering, and Industrial Engineering.
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