Online Master Program in Biochemistry

Best Online Master Degrees in Biochemistry 2017

Biochemistry

A masters refers to the completion of a graduate study program that prepares students to further their knowledge of a specific subject or advance their careers. The majority of masters are granted by state or public universities.

The academic area of biochemistry encompasses a wide variety of topics. Depending on the program and interests of the student, areas of focus may include plant biochemistry, gene expression, biotechnology, forensic science and biochemical regulations.

 

Online Master Program in Biochemistry

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MRes Advanced Chemical Sciences

Xi'an Jiaotong-Liverpool University
Campus Full time 18  September 2017 China Suzhou

The MRes Advanced Chemical Sciences programme provides thorough education and training to understand different aspects of the current material chemistry. The programme aligns with similar MSc programmes at the University of Liverpool and is delivered entirely in English. [+]

Best Online Master's Programs in Biochemistry. Overview The MRes Advanced Chemical Sciences programme provides students with the education and training needed to understand different aspects of the field of material sciences. It aligns with similar MSc programmes at the University of Liverpool. The programme contains taught modules covering areas from synthetic chemistry to nanotechnology to analytical methods and instrumentation. It places strong emphasis on the development of project management and professional skills. After completing the taught modules, you will engage in a 12-month extensive research project of your choice that leads to submission of a dissertation. A customised learning plan is designed for you, taking into account your background and career aspirations. Successful completion of the programme leads to the award of an MRes degree from the University of Liverpool. Unique selling points • Taught by international staff who are experts in various fields of chemistry • Excellent preparation for the study of PhD programmes both at universities abroad or in China • Offers strong links to local and international industries • XJTLU is located close to the many biotechnology companies in nearby BioBay, a national biotechnology hub with over 400 companies, ideal for internships • Nearby Cold Spring Harbor Asia hosts prestigious scientific symposia, conferences and summer schools providing our students with the opportunity to interact with world-famous researchers • Earn a University of Liverpool degree that is recognised by the Chinese Ministry of Education. Knowledge and skills By the time you graduate, you will: • Develop key, career-enhancing personal and employable skills such as time management, report writing, team-building and networking and project management • Gain a range of critical interdisciplinary research skills • benefit from a strong theoretical background, practical instrumentation skills and an intensive research project. Modules • Synthetic chemistry and natural products • Peptide/protein chemistry • Nanotechnology and advanced materials • Analytical methods and instruments • Research project • Project management Additional learning activity modules Careers Successful graduates can establish careers in a wide range of industries, including: • Chemical and material science • Pharmaceuticals • Biotechnology • Food and beverages (quality assurance and new formulation) • Analytical laboratories. Fees RMB 90,000 for the entire 18 month full-time programme. University tuition fees cover the cost of your study with us. Entry requirements: academic background An undergraduate degree (UK 2:1 or equivalent) in chemistry or a related discipline. English language requirements • IELTS: 6.0 (minimum of 5.0 in all sections) • TOEFL iBT: 80 [-]

Master of Molecular Life Sciences

HAN University of Applied Sciences
Campus Full time Part time 24 - 30  September 2017 Netherlands Nijmegen + 1 more

The Masters courses at HAN University of Applied Sciences are internationally renowned for their seamless integration with professional practice. HAN’s Masters course in Molecular Life Sciences is unique in that it focuses on applied research and product [+]

For EU students Translating research into products The Masters courses at HAN University of Applied Sciences are internationally renowned for their seamless integration with professional practice. HAN’s Masters course in Molecular Life Sciences is unique in that it focuses on applied research and product development, and because it integrates scientific and project management skills. In this way the course meets the needs of the actual work field. During your studies you gain extensive knowledge in the field and learn how to apply fundamental research to biotechnical product development such as vaccines, drugs, diagnostic tests biofuels and enzymes. Professional opportunities The biotech industry, pharmaceutical companies, hospitals and research institutions are constantly in need of competent, goal-oriented and interdisciplinary professionals. Graduates of this Masters course are able to independently plan and execute short to medium-length projects. You will be employable in positions such as junior project leader and lab manager. Another option for you as a Masters graduate is to continue your academic career with a PhD project, preferably in applied research. Two-year course taught in English The Masters course in Molecular Life Sciences is taught entirely in English. You can combine your work with study by taking this part-time two-year course. Master in Molecular Life Sciences Upon successful completion of the course, you will attain the title 'Master of Science'. Admission requirements You will be admitted to the course if you meet the following criteria: - You have a Bachelor of Applied Sciences, Bachelor of Science or a Masters degree in molecular life sciences, biochemistry, biotechnology, molecular biology or a related field. - You have at least one year of practical experience in a molecular, cell biology or biochemistry laboratory setting. - Your knowledge and skills will be verified by a written test on molecular and cell biology and a telephone interview. Alternatively: - You are an international applicant with a different diploma (e.g. a technician's qualification from Germany). In this case, your qualifications will need to be evaluated as equivalent to a Bachelor of Applied Sciences in the HAN admission assessment. - In such cases, a minimum of three years’ work experience is advised before applying. High level of English To be eligible for enrolment you must be proficient in English, with the following minimum scores: TOEFL score 550 / IELTS score 6.0 / Cambridge Certificate in Advanced English (CAE) or Proficiency in English (CPE). Applicants enrolling via an admission assessment can demonstrate their language skills during the assessment. [-]

Master of Engineering Chemical and Biomolecular Engineering

University of Maryland, A. James Clark School of Engineering
Campus Full time Part time 1 - 5  September 2017 USA College Park + 1 more

The Graduate Program in Chemical and Biomolecular Engineering offers research and education opportunities leading to the Master of Science and Doctor of Philosophy degrees. [+]

Best Online Master's Programs in Biochemistry. The Graduate Program in Chemical and Biomolecular Engineering offers research and education opportunities leading to the Master of Science and Doctor of Philosophy degrees. The Department of Chemical and Biomolecular Engineering is well-equipped for graduate research in aerosol science and engineering, biochemical engineering, computational modeling, fluid mechanics and mixing, fuel cell technology, metabolic engineering and systems biology, nanoparticle technology, polymer processing and characterization, polymer reaction engineering, process control, thermodynamics and transport phenomena, and systems research. The Department maintains a distributed computing network consisting of research laboratories and a PC laboratory. Major research facilities including electron microscopy, X-ray diffraction, X-ray photoelectron spectroscopy, and NMR are coordinated through a variety of laboratories. General Requirements Before graduate courses in Chemical Engineering are attempted, the candidate must fulfill certain minimal course prerequisites either by previous experience or by taking selected undergraduate courses. These minimal prerequisites are descibed in the GPA and prerequisite policy page. Some of these prerequisites may be fulfilled by concurrent registration if necessary. No courses numbered below 400 may count towards the minimal 30 credits required for the degree. A maximum of 6 credits of 400 level courses may count towards the degree subject to prior approval by the Graduate Director. Graduate courses with an EMPM designation cannot be used to satisfy the minimum 30 hours without prior permission of the Graduate Director. All graduate students (full and part-time, on and off campus) are expected to attend all research seminars, i.e., those not specifically directed to 1st year students. Students that fail to regularly attend research seminars will receive a notice from the director of graduate studies; extreme cases can be considered insufficient progress towards degree. Exceptions to this requirement will be made on a case-by-case basis by the graduate program committee; such exceptions include off-campus students that demonstrate regular participation in an on-campus seminar series that takes place at a more convenient time, or an off-campus technical seminar series. Students granted this exception should turn in a list of seminars attended to the director of graduate students before the end of each spring and fall semester. The Department of Chemical and Biomolecular Enginering's overall expectations for all students enrolled in its graduate program are that they will: make significant scholarly contributions to the field of chemical and biomolecular engineering, which is primarily measured by publications in peer-reviewed journals; and demonstrate an ability to communicate research findings to an audience of their peers in the field of chemical and biomolecular engineering, which is primarily measured by presentations at conferences. These publications and presentations must be documented on the final page(s) of each student's written thesis. For details, see "M.S. Thesis," below. GPA The Graduate School requires students to maintain a 3.0 GPA in all courses for credit since enrollement. The Department of Chemical and Biomolecular Engineering further requires that students attain at least a 3.0 GPA in tthe four required graduate core courses–ENCH 610, 620, 630 and 640–where this GPA is computed using the letter+/- system. Typical Plans of Study In principle, a candidate fulfilling all of the General Course requirements can complete the requirements for the Master of Science degree in one year. However, it is unusual for students to complete their program in less than 3 semesters. For candidates having a previous degree in a non-Chemical Engineering technical area, a 2 to 2.5 year program is usually necessary. An example plan of study is given in the M.S. Course Requirement Advising Form (.docx). Individual plans of study will be developed upon request by the Departmental Graduate Director. [-]

Master in Chemical Technology and Biotechnology

Free International University of Moldova
Campus Full time September 2017 Moldova Chisinau

The necessity of training professionals at the Faculty of Biomedicine and Ecology of ULIM within the program Industrial Drug’s Technology, Master degree is determined by the deficiency of specialists in this field. [+]

Master in Chemical Technology and Biotechnology The necessity of training professionals at the Faculty of Biomedicine and Ecology of ULIM within the program Industrial Drug’s Technology, Master degree is determined by the deficiency of specialists in this field. The training is performed according to the Bologna process principles. Development of formulations of industrial pharmaceutical forms and their application in pharmaceutical practice needs initiative and responsibility. It is necessary to train masters with their striving to self improvement. A special attention should be given to the subjects, which envisage the study of the technology of medicaments production, their thorough qualitative and quantitative control, compatibility and incompatibility of ingredients in pharmaceutical forms, control of stability, storage conditions, efficiency and elaboration of normative technical documentation and other standards, which define the highest quality of the end product. The program of studies represents an individual form of professional training with full-time attendance during 2 years for the graduates of the Licentiate cycles for the specialties 551.3 Pharmaceutical Technology and 551.2 Technology of Cosmetical and Medicinal Products. For the graduates of other specialties (Chemical Technology, Chemistry, etc.) the period of the Master’s program includes a compensatory semester with the total duration of 2.5 years. Advanced theoretical knowledge and practical experience will be gained through learning of fundamental subjects (Industrial Technology of Drugs, Inorganic Chemistry, Organic Chemistry, Analytical Chemistry, Physical and Colloid Chemistry, etc.) and special subjects (Tissue Preparations, Blood Preparations, Technology of Drugs, etc.). In the semester III a practical training course is envisaged during 10 weeks, and in semester IV- implementation and public defense of the Master Thesis, which is evaluated as 30 credits. In general during the 2 years Masters accomplish 18 exams and accumulate 120 credits. At the end of the course the graduates obtain the title of Master in Chemical Technology and Biotechnology. Aim and mission of the training program: To make more profound the level of fundamental professional training – both theoretical and applied – by mastering special courses related to the respective field of the professional activity. The gained knowledge will influence the elaboration of the up-to-date professional thinking. The professional should be able to find adequate decisions to resolve specific technological problems (situations), to possess the necessary skills in organization and coordination of the activity within a group of workers (production unit). Professional profile of graduates: The graduates with Master diplomas in Chemical Technology and Biotechnology are in demand within the labor market; they may work as pharmacy technicians in pharmaceutical industry and mini-laboratories with section of extempore products, chemist-analyst in the laboratories of the quality control of pharmaceutical forms, manager-technologist in the field of pharmaceutical marketing and management, etc. Methods of teaching/training: explications, demonstrations, descriptions, analysis, interactive discussions, public lectures of specialists in the field of industrial technology of drugs. Final learning objectives At the end of this training program the master graduate will be able to demonstrate the following knowledge, skills and competence: Knowledge Up-to-date terminology in the field of industrial technologies. Control of quality and ways for improvements of pharmaceutical forms Pharmaceutical management and marketing. Skills A correct preparation of technological documentation. An adequate interpretation of the laboratory experiments. Ability to propose and implement new strategies of utilization of praxeologic competence in the adequate professional medium : pharmaceutical and legal institutions, cosmetic production, medical centers. Competence To organize the activity of production units for elaboration and implementation of financial plans and production of drugs and be responsible for the taken decisions. To take measures for the increasing of the economic efficiency in the pharmaceutical industry. To ensure implementation of the managerial innovative solutions using the knowledge gained in the field of industrial technologies. [-]

Master of Chemical Sciences

La Trobe University
Campus Full time March 2017 Australia Melbourne

If you're a chemistry graduate, this course will provide you with additional or advanced training in specialised areas of chemical science, such as analytical chemistry, computational chemistry, medicinal chemistry, organic chemistry, physical chemistry and instrumental methods. [+]

Best Online Master's Programs in Biochemistry. If you're a chemistry graduate, this course will provide you with additional or advanced training in specialised areas of chemical science, such as analytical chemistry, computational chemistry, medicinal chemistry, organic chemistry, physical chemistry and instrumental methods. English Language Requirements IELTS (Academic): minimum score of 6.5 with no individual band score less than 6.0. TOEFL Paper-based Test: minimum score of 575 (minimum score of 5 in the Test of Written English). TOEFL Internet-based Test: minimum score of 80 with minimum overall for SLR 18; W 22. La Trobe Melbourne (ELICOS): Completion of the English for Further Studies Advanced Stage 6B at La Trobe Melbourne with minimum 60 per cent overall and 60 per cent in final exam. For more information please visit the La Trobe Melbourne website. English as the language of instruction in tertiary studies may be accepted. Please note: English as the language of instruction in previous study will not be accepted as a basis of admission (English) for courses where the approved test score requirement is above an IELTS 6.5 with no band score lower than 6.0. Pearson Test of English (Academic) (PTE): minimum score of 64 with no communicative skill score less than 59. Cambridge Certificate of Advanced English (CAE): a grade of B or higher. Cambridge Certificate of Proficiency in English (CPE): a grade of C or higher. Or approved international equivalent. Academic entry requirements An Australian Bachelor's degree in chemistry, or a degree with a substantial chemistry content equivalent to second or third-year chemistry, or an approved international equivalent. Additional information Due to a labortory-intensive second year, you must achieve at least an overall 60 per cent end-of-year mark, with no less than 70 per cent in the lab component in the first year, to be eligible to complete the course. Professional recognition Graduates are entitled to join the Royal Australian Chemical Institute (RACI). [-]

Master' in Biological Engineering

Siberian Federal University
Campus Full time October 2017 Russia Krasnoyarsk

The Program is aimed at students having background in natural science and wishing to master contemporary methodology of scientific research in order to pursue career in the field of biological engineering. The scientific projection in biological engineering aims to encourage research skills by students through an individual research project in biology, biological engineering or biophysics. [+]

The Program is aimed at students having background in natural science and wishing to master contemporary methodology of scientific research in order to pursue career in the field of biological engineering. The scientific projection in biological engineering aims to encourage research skills by students through an individual research project in biology, biological engineering or biophysics. Students will follow all steps of research process from the problem statement to the achievement and analysis of experimental results. Master’s Program “Biological engineering” is delivered by an experienced academic staff having a comprehensive background in fundamental research and practical applications in industries. The program is designed with emphasis on practical skills development and students work in the modern and well-equipped SibFU Laboratory of Bioluminescent Biotechnologies (in Russian). This laboratory was established through the collaboration of the world’s strongest team of scientists engaged in fundamental research of light emission by living organisms, i. e. bioluminescence, and the Nobel Laureate Professor Osamu Shimomura. Training Methods: lectures, lab experiments, case studies and group discussions. Teaching staff: SibFU Professors and visiting lecturers from universities of Russia, USA, Italy, China, Spain, UK and other countries. The major part of the Program’s training takes place at the modern and well-equipped SibFU Laboratory of Bioluminescent Biotechnologies, led by Nobel Laureate Professor Osamu Shimomura, in one of the world’s strongest team of scientists engaged in fundamental research of light emission by living organisms, i.e. bioluminescence. Research projects While following the Program students have to deal with the phenomenon of bioluminescence in all its aspects: from genetic and molecular to evolutionary and ecological. Master’s research projects are focused on studying the chemical nature of light emission by new luminous species (fungi, soil worms, coelenterates, bacteria, etc.), modelling the enzyme behavior in cell hyaloplasm, development of new recombinant bioluminescent organisms and of a new generation of bioluminescent biosensors for environmental monitoring and medical diagnostics as well as on other fundamental and applied topics. Entry Requirements The cost does not include accommodation and living expenses. Accommodation On-campus accommodation is available. Costs 2016/2017: single ensuite room 45 € per month, twin ensuite room 30 € per month. Practicalities: Airport transfer, invitation letter for a Russian study visa and an optional survival course of Russian as a foreign language are provided by the University. [-]

Master of Engineering in Food Science

Latvia University of Agriculture
Campus Full time September 2017 Latvia Jelgava

The programme is aimed to educate academically educated specialists and new scientists with creative thought and competence to make decisions for promoting future development of food science and food production in Europe, competitiveness in foreign markets. [+]

Best Online Master's Programs in Biochemistry. The programme is aimed to educate academically educated specialists and new scientists with creative thought and competence to make decisions for promoting future development of food science and food production in Europe, competitiveness in foreign markets. The Master study programme covers food product structure-mechanical properties, food sensory evaluation, sensory and consumer science, regulation of biochemical processes in human body, functional properties of food, natural substances in food system, food shelf-life analysis, development tendencies in nutrition science, genetically modified food, physical-and-chemical properties and metrology, food additive application, in food safety and identification of microorganisms, quality systems in food circulation, food system innovative development, entrepreneurship and marketing, perspective solutions in food packaging. The study programme is completed with the elaboration and defense of the Master thesis. Admission Requirements Bachelor's degree of Engineering Sciences in Food Science, Bachelor's degree of Natural Sciences, Engineer qualification in Food and Beverage Technology, Professional Bachelor's degree in Catering and Hotel Management. English requirements: IELTS score 6.0, TOEFL score 547, TOEFL-iBT score 76. Career prospects and further studies The graduates work in all kind of food companies. Master's degree entitles graduates to continue studies in a respective doctoral programme in universities in Latvia or abroad. Why Latvia University of Agriculture? WORLDWIDE RECOGNISED DIPLOMA – diploma supplement acknowledged by the European Commission. Graduates can continue studies or work all over the world. ADVANCED FACILITIES – modern laboratory equipment, comfortable dormitories, studies in an outstanding architectural monument – the Jelgava Palace. REASONABLE COSTS – be smart and spend less by studying at LLU! ADVANTAGEOUS GEOGRAPHICAL LOCATION – major European cities can be conveniently reached by bus, airplane or ferry. GREEN AND SAFE ENVIRONMENT – a great way to experience Latvian culture. Despite variety of many different national and international events, Jelgava is a very safe city for everyone. STUDENT LIFE – well-balanced studies and cultural life, a wide variety of sports activities for free. Gain international experience by using international exchange opportunities! [-]

Master in Plant Breeding

Institut Polytechnique LaSalle Beauvais
Campus Full time September 2017 France Beauvais

The aim of this programme is to train plant breeders able to grasp and manage the scientific and technical interdisciplinarity between biotechnologies, agronomy, plant biology, genetics, regulatory issues and markets. [+]

Master's in Plant Breeding In its report entitled "World Agriculture : towards 2015/2030", the FAO outlines the need for an approximate 60% increase in agricultural production by 2050, in order to meet the nutritional requirements of the world’s human population. This growth will, in part, be built upon an increase in yields, in particular via the genetic improvement of plants. There have been major advances in this field over the last twenty years, as a result of new molecular and cellular biology technologies reaching far beyond the confines of plant transgenics. In this positive context, plant breeding companies and food manufacturing and various non-food manufacturing companies are expressing a growing need for plant breeders who are able to understand and manage increasingly diverse technologies in order to meet more complex and varied objectives. This burgeoning demand is becoming ever more apparent, in the face of a dwindling number of university courses on offer in this field. What is more, the handful of one-year courses specialising in plant breeding do not cover the entire field of activity of a plant breeder in today’s context. Our objectives The Masters programme in Plant Breeding at LaSalle Beauvais is focused on plant improvement and the creation of new plant varieties. In a climate of increasing global demand for both food and non-food agricultural production, and a quest for sustainable growth in agricultural productivity, the Masters programme in Plant Breeding addresses these challenges via plant genetics and improvement. The aim of this programme is to train plant breeders able to grasp and manage the scientific and technical interdisciplinarity between biotechnologies, agronomy, plant biology, genetics, regulatory issues and markets. This programme was designed in partnership with seed companies and the food industry, and constructed with Ghent University, in Belgium, thus combining the hands-on approach of the renowned field training undertaken by LaSalle Beauvais engineers and the excellence of one of Europe’s top universities. Our strengths a more wide-ranging course in plant breeding than most international masters programmes, which focus primarily on the application of biotechnologies to plant breeding ; partnership with Ghent University (Belgium), giving our students access to the latest advances in biotechnology ; a course designed and run in association with seed and plant breeding companies. [-]

Master of Science in Biochemical Engineering Technology

KU Leuven - University of Leuven
Campus Full time September 2017 Belgium Leuven

This master's programme incorporates knowledge from various sectors (food, biomedical, pharmaceutical, environmental, etc.) to provide a well-rounded graduate-level curriculum in biomechanical engineering. In addition to fundamental (bio)chemical-scientific course units, you will take courses in socio-economics (company management, economics) and biotechnology (engineering, separation techniques, fermentation technology, molecular biology techniques, industrial biochemistry and microbiology, environmental technology, bioreactor design, etc.). [+]

Best Online Master's Programs in Biochemistry. This master's programme incorporates knowledge from various sectors (food, biomedical, pharmaceutical, environmental, etc.) to provide a well-rounded graduate-level curriculum in biomechanical engineering. In addition to fundamental (bio)chemical-scientific course units, you will take courses in socio-economics (company management, economics) and biotechnology (engineering, separation techniques, fermentation technology, molecular biology techniques, industrial biochemistry and microbiology, environmental technology, bioreactor design, etc.). A flexible cross-campus elective package and a master's thesis conducted in either a research-specific or industrial context enable you to focus your studies according to your specific interests and career goals. Medical Bioengineering option This option relates to biotechnological developments in the medical sector. Knowledge of human physiological systems (the cardiovascular system, neurophysiology, etc.) and medical engineering techniques form the foundation of developments in the area of artificial organs, tissue engineering, biomaterials, bioelectronics and new diagnostic techniques (microarray technology, PCR technology). This is an initial master's programme and can be followed on a full-time or part-time basis. Add an in-company or project-based learning experience to your master's programme You can augment your master's programme with the Postgraduate Programme Innovation and Entrepreneurship. This programme is made up by a multifaceted learning experience in and with a company, with an innovative engineering challenge as the central assignment. It is carried out in a team setting, has a distinct international dimension, and usually requires a multidisciplinary approach. Entrepreneurs and students alike are encouraged to innovate, transfer knowledge and grow. It is a unique cross-fertilisation between company and classroom Profile Are you a future industrial engineer? Are you a doer and are you fascinated by how and why things are done? Then you must be a future industrial engineer! - You enjoy looking into how to implement new ideas and improve old ones; - You prepare abstract designs for implementation in a business environment; - You like to link theory to practice; - You aim for a position of responsibility that allows you to apply your knowledge to concrete challenges in the day-to-day workings of a company; - You are eager to develop excellent communication and management skills. Objectives The Master of Industrial Sciences in Biochemical Engineering is capable of: · selecting, formulating, analysing and answering appropriately a research question of his own choice based on a theoretical or practical problem in his area of technology while taking into consideration the paradigms and making use of appropriate research technology. · exploiting the potential of the natural world in general and life processes in particular for the benefit of a healthy, sustainable and high-quality society. being professionally active in the areas of Biomedical Engineering, Molecular Bioengineering, Bioproduction, and Environmental Engineering. continuing to build and to operate in a multifaceted manner in both an R&D and industrial engineering environment on the basis of a thorough knowledge of bioresearch methods and technology on the one hand and industrial production technology on the other. managing technology and communicating efficiently the results of his own work, study and research. continuing the process of self-education as well as coaching others in their development as individuals and professionals. integrating relevant research, work and/or study experience acquired in a different environment either at home or abroad. functioning and cooperating in multidisciplinary and international teams through project work and through an exchange of views and opinions. recognizing and taking into consideration the ethical, economic, ecological and aesthetic aspects and implications of his actions. International Students Diversity and an open mind are vital elements in the international learning and work environment at the Group T campus. The student population, staff, and guests come from all corners of the world, turning our campus into a true intercultural nexus for bachelor- and graduate-level education, university-industry collaboration, innovation and professional development. Advantages for international students - All of our undergraduate and graduate degree programmes are offered in English. English is ubiquitous both inside and outside the classroom. If you've mastered English, you'll feel right at home. - Admission to our programmes is not based on an entrance exam. Anyone with the necessary background can apply. - An engineering degree from KU Leuven's Group T campus is a stepping stone to universities and businesses worldwide. Our international network ensures that your degree is recognised by educational institutes and companies in Europe and across the globe. - Leuven is one of Europe's oldest university towns and is located in the heart of Western Europe - just 20 minutes from Brussels, and within easy reach of Paris, Amsterdam, and London. - Tuition fees are markedly lower than those of comparable universities in the US or the UK. Also, Leuven is a mid-sized university town, so cost-of-living expenses tend to be lower than those of other university towns. - The International Office at KU Leuven, Group T Campus has years of experience in welcoming international students from universities worldwide. [-]

Master in Chemical Biology

University of Geneva
Campus Full time February 2017 Switzerland Geneva

The Master in Chemical Biology prepares students to think beyond the State-of-the-art. Specifically, students will learn how to probe biological problems at the molecular level using innovative chemistry and biophysical approaches. The Degree is awarded by the University of Geneva in collaboration with the École polytechnique fédérale de Lausanne (EPFL). Students will be embedded within the National Centre for Competence in Research (NCCR) in Chemical Biology where they will receive individualized and highly interdisciplinary (biology, chemistry, physics) training from world-renowned researchers. [+]

Master in Chemical Biology The Master in Chemical Biology prepares students to think beyond the State-of-the-art. Specifically, students will learn how to probe biological problems at the molecular level using innovative chemistry and biophysical approaches. The Degree is awarded by the University of Geneva in collaboration with the École polytechnique fédérale de Lausanne (EPFL). Students will be embedded within the National Centre for Competence in Research (NCCR) in Chemical Biology where they will receive individualized and highly interdisciplinary (biology, chemistry, physics) training from world-renowned researchers. www.nccr-chembio.ch Curriculum Required Courses (25Credits) : Current topics in Chemical biology and Biomembranes; Basic techniques in chemical biology; Tutorial; Microscopy and imaging course and Chemical Biology Courses are scheduled at UNIGE or EPFL Electives (25Credits) : Include courses at either UNIGE or EPFL and include Element of bioinformatics, Biophysics II, Image processing, Chemistry of small Biological Molecules, Cellular signaling, Bioactive compounds screening, etc. Two Practical Placements and dissertation (25Credits) Mobility Students may earn up to 30 credits while on exchange. They may also conduct research outside the university, under the supervision of a faculty member, or do a work placement at a leading external laboratory in order to complete their Master’s degree. www.unige.ch/exchange Opportunities The Master in Chemical Biology leads to a number of opportunities both in Switzerland and abroad, including: Regulations and scientific patents Management and sales Academic research (doctoral, post-doctoral) Medical research laboratories Private sector research, development and production, etc. Admission Criteria A Bachelor in Chemistry, Biology, Physics, Biochemistry or a degree deemed equivalent upon review of the application, subject to supplementary classes and prerequisites for certain degrees. Applications Deadline: 30 April 2017* (28 February 2017 for applicants who require a visa under Swiss Confederation regulations) www.unige.ch/immat admissions.unige.ch *Candidates who hold a Swiss Bachelor or equivalent degree and have not been able to meet this deadline may contact the Faculty’s academic advisor and the person in charge of the Master’s programme to find out if it is possible to join the course. [-]

Master in Biotechnology

Graz University of Technology (TU Graz)
Campus Full time October 2017 Austria Graz

Through the interdisciplinary NAWI Graz master’s programme Biotechnology, internationally recognized instructors provide you with knowledge about technological processes occurring in biosystems as well as about the development and use of biotechnological applications and methods. [+]

Best Online Master's Programs in Biochemistry. Through the interdisciplinary NAWI Graz master’s programme Biotechnology, internationally recognized instructors provide you with knowledge about technological processes occurring in biosystems as well as about the development and use of biotechnological applications and methods. The core areas are molecular biotechnology, biocatalysis, and environmental, food, enzyme and bioprocess technology. Students benefit from access to the excellently equipped laboratories and modern infrastructure. Content You learn working and analytical methods used in the fields of microbiology, molecular biology, biochemistry, and gene, enzyme and fermentation technology. You independently perform cutting-edge scientific and technological experiments. You assess the results of experiments, identify problems and propose solutions. You learn to develop new strategies by considering and assessing current research findings. You use modern information technology in bioinformatics. You work in teams and present results. Core areas Molecular Biotechnology and Bioinformatics Bioprocess Technology Environmental and Food Biotechnology Specialisation subjects You may choose 2 of the following areas of specialisation: Enzyme and Protein Technology Systems and Synthetic Biotechnology Bioprocess Engineering Environmental and Food Biotechnology Career Options Graduates are employed in leading positions in both the basic and applied sciences in academia and industry. Biotechnologists plan experiments and analyses, implement these and examine existing solutions. Their problem-solving skills are needed for research and technological development. Graduates work in the following areas: industrial biotechnology, chemical manufacturing using biocatalytic processes, pharmaceutical research, food technology, environmental biotechnology, agricultural research, in relevant university and non-university research institutions and with public authorities or in public offices. Registration Deadlines Summer semester 2016: 7 January to 30 April 2016 Winter semester 2016/17: 11 July to 30 November 2016 [-]

M.S. in Chemistry

University of San Francisco - College of Arts & Sciences
Campus Full time 2 - 3  August 2017 USA San Francisco

The University of San Francisco offers a Master of Science degree in various sub-disciplines of chemistry. The program is designed for graduate students seeking a research-based degree with personalized direction and training from experienced faculty - all while studying in one of the world's most beautiful and dynamic cities. [+]

Master in Chemistry

The University of San Francisco offers a Master of Science degree in various sub-disciplines of chemistry. The program is designed for graduate students seeking a research-based degree with personalized direction and training from experienced faculty - all while studying in one of the world's most beautiful and dynamic cities. Students admitted to the graduate program receive generous financial assistance from the Department of Chemistry. All admitted students receive a full-tuition scholarship for their graduate studies. Most graduate students are also awarded a Teaching Assistantship with a stipend of $7,200 per year. Some qualified graduate students receive Research Assistantships as well.The chemistry research experience and training in USF's graduate program prepares our graduate students well for a future in any of the following areas:... [-]


MSc in Chemistry

Lund University
Campus Full time September 2017 Sweden Lund

Acquire an advanced level of theoretical and practical knowledge and skills in various specialisations within the field of chemistry. [+]

Programme overview

The programme provides you with the opportunity to acquire an advanced level of theoretical and practical knowledge and skills in various specialisations within the field of chemistry.

Through a choice of advanced courses and a Master's degree project or projects, you are given the opportunity to specialise in one of chemistry’s subject areas:

analytical chemistry organic chemistry inorganic chemistry biochemistry molecular biophysics physical chemistry chemical physics theoretical chemistry

These are represented at the Faculty of Science through KILU (the Department of Chemistry at Lund University). The Master's degree project must correspond to at least 30 ECTS credits.... [-]


Master in Biochemistry and Molecular and Cell Biology - Taught in FRENCH

University of Mons
Campus Full time September 2017 Belgium Mons

The Biochemistry, Molecular and Cell Biology Master’s Degree offers highly specialized crossdisciplinary training in a vast number of fields in the Life Sciences, from biochemistry to cell biology by way of genetics and molecular biology. [+]

This program is taught in FRENCH. The Biochemistry, Molecular and Cell Biology Master’s Degree offers highly specialized crossdisciplinary training in a vast number of fields in the Life Sciences, from biochemistry to cell biology by way of genetics and molecular biology. Students may choose between four specialised clusters that have been developed and supported by the scientific work of our research laboratories. One of them is offered in collaboration with ULB on the campus at Gosselies. Profile of the programme The Master's Degree in Biochemistry, Molecular and Cell Biology provides a state-of-the-art education based on a solid scientific background. What students learn here is put into practice through internships in companies and/or in research labs in Belgium or abroad. The Institute of Biology at UMONS is involved in international research projects in fields like microbiology, cell biology and proteomics. In collaboration with the Faculty of Medicine and Pharmacy, students in the Master's programme have access to several labs that are world renown in such highly advanced fields as neurobiology, magnetic imaging, molecular biology, to name a few. The master’s thesis is completed during the two years of the programme, starting in the middle of the first year and finishing in the second year. During these two years, students will also have specialised courses to learn how to handle and care for laboratory animals and their welfare. These courses give rise to a certificate that is required to work with animals in laboratories. Special attention is given to learning scientific communication in both French and English thanks to research seminars and "Scientific Workshop Training". Students tailor their own curriculum (2/3 of the programme is electives) to include a great amount of lab work as well as internships in companies or in other academic institutions. Key learning outcomes At the end of course programme, students will be able to: reason with the necessary rigour while applying their skills in the various disciplines of biology - from biochemistry to cell biology passing by genetics and molecular biology use the experimental approaches and the tools of the biologist in these disciplines implement crossdisciplinary skills such as: autonomy, rigour, group work, oral presentations communicate scientific concepts and analyses through the written and the spoken word in French or in English. Occupational profiles of graduates The Biochemistry and Molecular and Cell Biology Master’s Degree opens the door to biochemistry and biotechnology laboratories, chemical laboratories, pharmaceutical research laboratories in universities or in industry, forensics, and so on. The holders of a Master’s Degree in Biochemistry and Molecular and Cell Biology can also be hired in basic or applied science programs if they continue their studies and complete a doctoral dissertation. Our graduates work in varied fields of expertise such as pharmaceutical and biotechnology companies, police forensics units, academic research, in national or regional research centres, ... and in higher secondary school. Access to further studies The Biochemistry and Molecular and Cell Biology Master’s Degree gives access to Advanced Master’s Degrees and to Doctoral Studies in the Life Science field in the European Community. Master’s Degree holders can also register in the higher secondary school teacher certification programme. Mode of study Full time [-]

Master in Molecular Biology

University of Göttingen
Campus Full time 18  October 2017 Germany Göttingen

This intensive programme leads graduates with a bachelor's degree to a Master of Science (M.Sc.) within 18 months. After a 3-year doctorate programme, graduates may acquire either the title Doctor of Philosophy (Ph.D.) or Dr. rer. nat.. [+]

Master in Molecular Biology (M.Sc.)

 

This intensive programme leads graduates with a bachelor's degree to a Master of Science (M.Sc.) within 18 months. After a 3-year doctorate programme, graduates may acquire either the title Doctor of Philosophy (Ph.D.) or Dr. rer. nat.. The semester structure has been removed, different subjects are integrated into a uniformly structured range of courses and it is possible to switch into the doctorate programme without a master's thesis, thus shortening the period of study. All courses are held in English.The programme is divided into two parts. During the first year, lectures, tutorials, seminars, methodical internships and individually tutored research projects take place within 36 weeks. Lab rotation and individual tutorials as well as the involvement of lecturers from Max Planck institutes guarantee work that is hands-on and research-oriented. The first year of study ends with one written and two oral exams that qualify for the master's thesis. These may be omitted if good or excellent grades have been attained during the first year of study, allowing the student to switch directly over to the 3-year doctorate programme.Early participation in scientific conferences and courses as well as the publication of articles in international scientific journals are also required for the doctoral degree. The doctorate programme enables research stays in laboratories abroad.Social integration also plays an important role. A coordination office helps students at the start of their studies in Göttingen and offers a central contact point during the entire programme.Involved in the interdisciplinary programme of the Göttingen Centre for Molecular Biosciences are the Faculties of Biology and Psychology, Medicine, Chemistry and Agricultural Sciences, the Max Planck Institute for Biophysical Chemistry and for Experimental Medicine, as well as the German Primate Centre.The degree qualifies graduates for a professional career in molecular and cellular biosciences.... [-]