Page 2 of 2, search Masters Programs in Biotechnology in Europe 2019
Biotechnology is a challenging area that combines science and engineering concepts. Students who pursue this educational path will likely gain knowledge in microbiology, chemistry, genetics, cell biology, bioethics, gene cloning, bioinstrumentation, bioinformatics, genomics, and biometrics.
In all, there are over 4000 Higher Education Institutions in Europe offering a wide range of courses at Bachelor, Masters and Doctorate level. With more and more of these organizations offering English as the language of education for at least some of their degree programs, universities in Europe are now of higher quality than ever before. Universities in Europe offer a friendly welcome to foreign students and to give a course of knowledge that meets their profession needs in today’s global demand.
Master 16-26 (out of 26). View all Master Programs in Biotechnology in Europe 2019
El Máster Universitario en Biotecnología Agroalimentaria de la Universidad Católica de Ávila persigue la formación y el entrenamiento del alumno en aspectos científicos y
El Máster Universitario en Biotecnología Agroalimentaria de la Universidad Católica de Ávila persigue la formación y el entrenamiento del alumno en aspectos científicos y prácticos de este ámbito de la Biotecnología, con el objeto de acercarles el conocimiento de los mecanismos moleculares del funcionamiento de los seres vivos. El objetivo es que los estudiantes aprendan las aplicaciones técnicas de la biología para la producción de bienes y servicios, así como el escalado industrial en los procesos biotecnológicos y la gestión de recursos.
Duración: Un año
Número de créditos ECTS: 60 créditos
Tipo de enseñanza: Semipresencial
Idiomas en los que se imparte el título: Español
The program’s aim is to prepare the modern highly skilled experts, using practical skills and theoretical knowledge of biotechnology and eco-biotechnology in their profes
Master in Ecological Biotechnology
Period of studies: 2 years
ECTS credits: 120
The program’s aim is to prepare the modern highly skilled experts, using practical skills and theoretical knowledge of biotechnology and eco-biotechnology in their professional activity.
The program provides profound knowledge of foreign languages and pays great attention to the development of students’ communication skills.
The program curriculum includes courses that improve skills of understanding, communication, writing and reading scientific literature in a foreign language.
Students will acquire knowledge of the main biotechnological methods, modern technologies for nature protection; will be able to evaluate biological and industrial safety, to do research work, to evaluate the results and to write scientific articles; to teach students (courses: Nature protection, Fundamentals of ecological biotechnology, Modern problems of Ecology and etc....
Current biotechnology includes a set of very sophisticated techniques and technologies, which are replacing the classical methodologies, favoring more immediate results a
Current biotechnology includes a set of very sophisticated techniques and technologies, which are replacing the classical methodologies, favoring more immediate results and allowing to tackle new challenges unthinkable until a few decades ago. Today, highly qualified professionals are required to face the new challenges facing this biotechnology sector, both in business and research.
That is why the objective of this Master is twofold:
Professionalizing : To train students who intend to dedicate themselves professionally in the biotechnological industry and / or update the knowledge and improve the training of professionals already dedicated to this activity.
Academic-Researcher : To train students who wish to join scientific research centers in biotechnology of research teams of public and private organizations and companies.
Why study the degree
The master’s programme in Industrial and Environmental Biotechnology aims to provide a deep understanding of how to design and operate state-of-the-art life science-based
The master’s programme in Industrial and Environmental Biotechnology aims to provide a deep understanding of how to design and operate state-of-the-art life science-based processes, with respect to product quality, sustainability and finance. The goal is to use cells and cell components such as enzymes in order to produce commodities including fine and bulk chemicals, pharmaceuticals or their building blocks, food, paper and pulp, energy, polymeric materials and clean water. The programme offers a comprehensive education in this vital and varied field, enabling students to prepare for careers in Sweden or internationally.
Industrial and Environmental Biotechnology at KTH
The two-year programme comprises advanced courses regarding biotechnological tools used for the development of industrial processes, sustainable production of commodities and the impact of such processes on the environment and the society. The courses focus on five subject areas: cell-based process biotechnology, enzyme biotechnology, environmental biotechnology, medical applications of biotechnology and omics are programme offers. The student is able to tailor their education to create a unique profile and expertise. The courses are tailored to provide a holistic perspective and comprise both theoretical knowledge and practical application of theory. Skills such as problem-solving and project management as well as professional communication are emphasised on several courses. The programme curriculum is closely linked to the research undertaken at the School of Biotechnology and to the Bio/Pharmaceutical/Chemical industry....
The master’s programme in Medical Biotechnology aims to provide a detailed understanding of cutting-edge techniques used in molecular biology, with an emphasis on the ana
The master’s programme in Medical Biotechnology aims to provide a detailed understanding of cutting-edge techniques used in molecular biology, with an emphasis on the analysis of biological samples and clinical applications. The student will be provided with in-depth knowledge about those scientific methodologies used for a comprehensive analysis of biological systems, translation of biological and technological knowledge to clinical use and development of biotechnological applications for advanced health care.
Medical Biotechnology at KTH
This two-year master’s programme comprises advanced courses regarding biotechnology tools used for the analysis of complex biological samples for research purposes, as well as for healthcare within diagnostics and drug development. State-of-the-art techniques used to interrogate biological systems, such as the microbiome, are covered, with an emphasis on high-throughput technological platforms and the analysis of biological information. The programme offers courses with a focus on five subject areas: medical applications of biotechnology, omics, cell-based process biotechnology, enzyme biotechnology and environmental biotechnology. The courses are tailored to provide a holistic perspective on the use of biotechnology and comprise both theoretical knowledge and practical application of theory from experimental design to bioinformatic and statistical analysis of raw data and interpretation of results. The curriculum provides a cross-platform approach to education enabling students to acquire a unique and individualised profile of expertise. Skills such as problem-solving and project management as well as professional communication are emphasised on several courses. The programme curriculum is designed, thought out and continuously updated by a team of internationally recognised researchers within the different subject...
The aim of the Applied Biotechnology study program is to – prepare specialists with high quality and up-to-date training in a highly interdisciplinary field of Applied bi
The aim of the Applied Biotechnology study program is to – prepare specialists with high quality and up-to-date training in a highly interdisciplinary field of Applied biotechnology with a focus (specializations) on Plant (Horticulture, Agriculture and Forest) Biotechnology and Innovative Bioelectrotechnologies, who would be able developing new products and technologies, work in positions with high levels of responsibility in research and educational institutions and industry, related to biotechnology, biomedicine, and food industry, as well as pursue their studies at the doctoral level.
Graduates of the program will be able:
Demonstrate the ability to work as an individual and as a member of a team in the laboratory or the company and the ability to lead the team. Demonstrate the ability to work collaboratively on biotechnology projects involving typical business timelines. Demonstrate the ability to use innovative approaches to solving biotechnological problems and the implementation of solutions. Apply molecular, cellular, biotechnological methods needed to carry out projects in plant and forest biotechnology or innovative bio-electrotechnologies. Demonstrate ability and skills of experimental work with biologically active and labile substances - proteins, enzymes, nucleic acids, lipids, carbohydrates, safe handling of chemicals and instruments, skills of standard laboratory procedures. Demonstrate the ability to plan and conduct analytical, simulation and experimental research on analyzing or solving a particular biotechnology problem. Demonstrate and categorize molecular, cellular and biotechnological knowledge to design biotechnological systems, processes, and their elements. Demonstrate and operate of the core principles, methods, and methodologies underlying current biotechnological research. Distinguish and analyze...
The goal of the course is to train the professional figure of Chemical Engineer, recognized at European and World level, as defined by the European Federation of Chemical
educational objectives of the class: LM-22 Chemical Engineering
Graduates from the Master's degree course must: - thorough knowledge of the theoretical and scientific aspects of mathematics and other basic sciences and be able to use this knowledge to interpret and describe complex engineering problems or those requiring an interdisciplinary approach ; - Thorough knowledge of the theoretical and scientific aspects of engineering, both in general and specifically in relation to those of chemical engineering, in which they are able to identify, formulate and solve in an innovative, complex problems or those requiring an interdisciplinary approach ; - Be able to conceive, plan, design and manage systems, complex and / or innovative processes and services; - Be able to design and manage highly complex experiments; - It is equipped with context knowledge and transversal capacity; - Have expertise in business organization (corporate culture) and professional ethics; - Be able to be fluent in written and oral form, at least one European language besides Italian with reference to disciplinary vocabularies....
The program aims to prepare experts with high-level knowledge of microbiology, biochemistry, bioengineering, biotechnologies and food science. The broadly outlined struct
The programme aims to prepare experts with high-level knowledge of microbiology, biochemistry, bioengineering, biotechnologies and food science. The broadly outlined structure of this program together with an intentional connection between chemical, biological and engineering education widens possibilities of graduates' employability. The program extends and deepens general knowledge gained at the Bachelor level studies both in compulsory courses in biochemistry, organic and physical chemistry, biology, microbiology, food analysis, food safety and process control and biotechnology and bioengineering. The students may concentrate on a particular branch of study by a proper choice of optional courses....
The development associated with the biotechnology and the advent of genetic engineering and development of new tools made possible the great momentum of this area, which
Master in Applied Biotechnology
The Master in Applied Biotechnology aims to prepare students with scientific, technical and human skills to develop applied research and management activities in the field of Biotechnology. This course intends to provide students with advanced training in the field of Biotechnology to apply in the development and implementation of projects in the areas of pharmaceutical biotechnology, food biotechnology, and marine biotechnology. During the second year of the course, the student will carry out a research on a specific topic, which will be compiled in an internship/project/dissertation. The successful defense of this internship/project/dissertation will lead to a Master's degree....
The Low Carbon Technologies and Sustainable Chemistry is a new 2 years Master's Degree focused on natural cycles industrial chemistry, materials chemistry, industrial bio
The Low Carbon Technologies and Sustainable Chemistry is a new 2 years Master's Degree focused on natural cycles industrial chemistry, materials chemistry, industrial biotechnology with aimed at assessing the environmental impact and managing and developing low environmental impact technologies.
The course is conceived with an interdisciplinary approach, involving the topics of safety, health, environmental sustainability and biogeochemical cycles, with a particular focus on the development of low carbon processes, starting from biomass conversion, CO2 utilisation, identification and reduction of critical raw materials, and more generally, the progress and growth of atom-economy, material recycling, green chemistry....
Graduates of the programme will have the training to go on to work in numerous fields, including the conventional chemical and process industry (petrochemical, specialty
Graduates of the programme will have the training to go on to work in numerous fields, including the conventional chemical and process industry (petrochemical, specialty chemicals, pharmaceutical), the wide-spread energy industrial sectors (up-stream and down-stream Oil&Gas, energy generation, green energy production), and many other specialized sectors (material production, food technologies, industrial biotechnologies, etc.).
Studying abroad, especially during the second term of the second year and for the Master’s research project, is encouraged, as well as carrying out part of students’ Master’s research project in the framework of the collaborative research projects between the University of Bologna and private companies or international research institutes. A Dual Degree Agreement is active with Columbia University in the City of New York (USA)....
This program will allow the intervention in areas which link the primary and secondary sectors, providing new accomplishments namely in the field of microbial technology
Master in Biotechnological Engineering
This master program main goal is to provide technological training with a rather strong professional approach. This will allow the intervention in areas which link the primary and secondary sectors, providing new accomplishments namely in the field of microbial technology and plant biotechnology. This study cycle is lectured in cooperation with CIMO (The Mountain Research Centre), a Research & Development unit of the Portuguese Science and Technology Foundation (FCT).
Profile of the program
The profile of the program is organized into two major areas of specialization, microbial biotechnology (Microbial Physiology and Genetics; Microbial Associations and Biofertilizers, Biomass and Bioenergy; Industrial Microbiology) and agricultural biotechnology (Microbial Associations and Biofertilizers, Genetically Modified Organisms; Biomass and Bioenergy Production; Molecular Diagnostic Methods; Biopesticides and Biocontrol; Biofactories, Bioproducts and Innovation). A set of courses is the interface between the two areas (Biomass and Bioenergy; Biocatalysts Technology, Engineering of Biotechnological Processes), giving the necessary engineering component to this curriculum. Finally, the disciplines that provide the foundations of statistics and experimental design (Multivariate Analysis and Experimental Design), and safety and regulation in the biotechnology industry (Safety and Regulation in Biotechnology) complete the plan of studies. Biology and biochemistry...
The two years Master Course in Molecular Biotechnology is designed to provide the cultural background of multidisciplinary biotechnologies for the production of goods and
The two years Master Course in Molecular Biotechnology is designed to provide the cultural background of multidisciplinary biotechnologies for the production of goods and services through the use of biological systems; in particular the course is designed to prepare skilled graduates with scientific knowledge and professional abilities in the field of biotechnologies applied to the study, prevention and diagnosis of human diseases, with particular interest in the development of innovative drugs.
The Master program intends to provide classes organized on an interdisciplinary basis to be applied to various fields of molecular biotechnology, with emphasis on the fields of research, diagnostics, and therapy. Training activities are also organized as stages to be carried out at research institutes or companies operating in the biotechnology, pharmaceutical, diagnostic and biomedical sectors. The training activities may be combined with research activities in selected laboratories with the aim of generating experimental data for the preparation of the thesis to be discussed in the final exam. The collaboration with researches of National Research Council Institutes (e.g.: Institute of Genetics and Biophysics - IGB; Institute of Protein Biochemistry - IBP) on teaching and research activities is an opportunity for the graduates to acquire knowledge in a broader range of fields related to Molecular Biotechnology, and skills to operate in various areas of academic and industrial research at national and international levels....
After having successfully completed this course, students will be able to pursue the following jobs and tasks: environmental consulting and risk assessment; development a
After having successfully completed this course, students will be able to pursue the following jobs and tasks:
Environmental consulting and risk assessment.
Development and implementation of biotechnology solutions.
Project Manager and Multidisciplinary Team Manager.
Creation and management of biotechnology companies.
Teaching biotechnology, biomedicine and environmental technology, as well as doing research in those fields.
The University of Oviedo has signed agreements with the Université de Pau et des Pays de l'Adour (France), the Instituto Tecnológico de Monterrey (Mexico) and the Universitá di Bologna (Italy), and the University of Cranfield (UK) enabling students who comply with the provisions of the corresponding agreement to obtain a double degree. These international itineraries offer students the possibility of specializing in different aspects related to Biotechnology of Environment and Health....
The international Master's Degree Microalgae Bioprocess Engineering is integrated into a two-year program in process and bioprocess engineering, with three academic semes
The international Master's Degree Microalgae Bioprocess Engineering is integrated into a two-year program in the process and bioprocess engineering, with three academic semesters (lectures in English) and a six-month internship in industry or research laboratory.
to develop an industrial process for microalgae valorization to be able to conduct a research project on microalgae to be able to manage an industrial project related to the microalgae field to be familiar with the multidisciplinary approach needed in microalgae field (biology, engineering).
Microalgae Bioprocess Engineering is an academic curricular of the Process and Bioprocess Master's Degree. It is a two-year degree (M1 + M2) but only the second year (M2 Microalgae Bioprocess Engineering) is accessible at Polytech Nantes....