The benefits of a Masters extend beyond improving your earning potential. They can provide you with personal and professional skills to accelerate your development. They are also an opportunity to differentiate yourself from your peers, many of whom will have similar A-level and undergraduate qualifications.
In regards to the study of biological & life sciences, students may focus on one aspect of natural science or study how they work together, such as the environment and human health or biology and geology.
The USA remains the world’s most popular destination for international students. Universities in the US dominate the world rankings and the country also offers a wide variety of exciting study locations. State university systems are partially subsidized by state governments, and may have many campuses spread around the state, with hundreds of thousands of students.
The Graduate School of Biomedical Science and Engineering (GSBSE) has developed a new online Professional Science Masters program in bioinformatics. Bioinformatics is th
General Overview PSM in Bioinformatics
The Graduate School of Biomedical Science and Engineering (GSBSE) has developed a new online Professional Science Masters program in bioinformatics. Bioinformatics is the application of mathematical, statistical, and computational approaches to understand biological processes. The PSM in bioinformatics is an online program and includes interdisciplinary classes across the fields of mathematics, computer science, spatial information science and engineering, and molecular and cell biology. GSBSE faculty from the University of Maine, the Jackson Laboratory, Mt. Desert Island Biological Laboratory, University of New England, University of Southern Maine and Maine Medical Center Research Institute will be teaching the courses for this online degree program. The PSM provides an opportunity for advanced training directly relevant to current knowledge for their professional careers. Students entering the program are expected to come from a cell and molecular biology background and require more intensive training in math, computer, and information science, or from the mathematics, computer or information sciences disciplines and need training in cell and molecular biology. The program requires fifteen credits of bioinformatics courses, nine credits of enrichment courses, and six credits of applied field experience. Graduates of the Professional Science Masters in Bioinformatics are prepared for a diverse range of careers in biotechnology, infectious diseases, pharmaceutical biomedical research, environmental sciences, and forensics to name a few. The professional component of the Program prepares our graduates for leadership roles in the commercial, government and non-profit markets. The program’s interdisciplinary approach, depending on the student’s background can prepare you for...
The Biotechnology Master’s Program at Eastern Virginia Medical School (EVMS) is a uniquely integrative research program that provides students with hands-on training in s
The Biotechnology Master’s Program at Eastern Virginia Medical School (EVMS) is a uniquely integrative research program that provides students with hands-on training in state-of-the-art molecular, genomic, proteomic, cellular and imaging techniques combined with a solid basis in the theoretical knowledge of biomedical sciences and laboratory research design.
This rigorous educational program trains future laboratory professionals to undertake biomedical research in academic research laboratories or in the biotechnology and pharmaceutical industries.
KEY PROGRAM ADVANTAGES
Provides an accelerated, 16-month curriculum of hands-on and theoretical research training
Incorporates a six-month research internship on campus or with a biotechnology industry partner
Involves close interaction of students with experienced research faculty
The rigorous curriculum affords students the opportunity to work with and learn from world-renowned faculty at two premier graduate schools, as well as leading profession
The Joint Masters Program is a three-year program offered by the Yale School of Management (SOM) and the Yale School of Forestry and Environmental Studies (FES) through which students earn both an MBA and an environmental masters degree. The rigorous curriculum affords students the opportunity to work with and learn from world-renowned faculty at two premier graduate schools, as well as leading professionals in business and environmental management. The program is in its 25th year, making it the oldest program of its kind in the world.The Joint Masters Program offers a unique opportunity to study two fields that are becoming increasingly connected. Preparing leaders to understand the relationships between business and the environment is crucial in addressing the challenges that an increasingly modern and global society creates. The intersection of business and the environment offers many exciting and dynamic opportunities for creativity in moving towards a sustainable economy.There are currently 22 students in the program who come to Yale from diverse backgrounds and plan to go on to work on multiple environmental issues across a wide range of sectors and industries. Prospective students are encouraged to contact the admissions offices at each school, as well as faculty and current students, to learn more about the program....
The world is moving from using fossil resources to sustainable biobased ones. In order to be truly sustainable, alternative, biobased resources also need to be economical
Help drive the transition from fossil sources to renewable energy ones and engineer a biobased future. By the #1 agricultural sciences university.
The world is moving from using fossil resources to sustainable biobased ones. In order to be truly sustainable, alternative, biobased resources also need to be economically viable. To be successful, corporations need to be able to navigate the challenges and opportunities in this dynamic field. This MicroMasters program is intended for those currently working in the energy, chemical and biotech industries and seeking to make a shift to more sustainable practices. It will focus on the use of chemical and biotechnological approaches for the production of energy-carriers, polymers, chemical building blocks and materials from renewable resources and waste streams....
Learn how to analyze biological big data to unlock the next big biotech discovery.
Learn how to analyze biological big data to unlock the next big biotech discovery.
Modern biology generates massive quantities of big data. Hidden in this data might be the next blockbuster cancer therapy, the definitive proof that a certain gene is responsible for a disease, or the information needed to replicate a crucial biological process — and you could be on the team that discovers it.
Bioinformatics blends biology, computer science, and mathematics and in this Bioinformatics MicroMasters program, you’ll gain the cutting edge knowledge and experience that will give you a significant career advantage in this fascinating field.
In this program, you will learn how to analyze DNA sequences to find mutations and anomalies, understand the important role protein structure plays in protein function and use statistical analysis tools, including R programming, to mine biological big data....
University of Maryland, A. James Clark School of Engineering
From biological engineering to nanotechnology, our Master of Engineering degree programs provide students with a fundamental understanding of physical, chemical, and biol
The Department of Chemical and Biomolecular Engineering is well-equipped for graduate research in aerosol science, biochemical, fluid mechanics, molecular modeling, nano and particle technology, polymer reaction engineering, protein engineering, systems biology, systems research, and thermodynamics.
The department is part of the A. James Clark School of Engineering, which U.S. News & World Report ranked 22nd in the nation in its listing of top graduate engineering schools in the U.S. for 2018.
A bachelor's degree, GPA of 3.0 or better, in engineering, computer science, physics, applied mathematic...
University of Maryland, A. James Clark School of Engineering
Students in our bioengineering degree programs will learn to integrate principles of engineering and biological systems to develop new technologies and devices that impro
The Fischell Department of Bioengineering graduate program represents the strong intellectual interdisciplinary infrastructure and collaborative culture that links engineering, biology, and medicine at our university. Our program provides a basic understanding of bioengineering at the molecular and cellular level, focusing on: biomolecular and cellular rate processes, biomaterials and tissue engineering, drug delivery, cellular and tissue biomechanics, electrophysiology of the cell, cellular and physiological transport phenomena, biomedical imaging biosensors, medical diagnostics systems. bio-devices, and vaccines.
The Bioengineering Graduate Program offers research and educational opportunities leading to the Doctor of Philosophy (Ph.D.) degree, Master of Science (M.S.) degree, and the Master of Engineering (M.Eng) degree. In cooperation with the University of Maryland School of Medicine, the Bioengineering Graduate Program also offers the combined Doctor of Medicine/Doctor of Philosophy (M.D./Ph.D.) and Doctor of Medicine/Master of Science (M.D./M.S.) degree programs....
The Master of Biotechnology is a master’s degree in biotechnology. Programs prepare students to engage in research, lead lab teams, make development and planning decision
The Master of Biotechnology is a master’s degree in biotechnology. Programs prepare students to engage in research, lead lab teams, make development and planning decisions, create and apply research modalities to large projects, and take the reins of management and marketing decisions.
Curricula include advanced studies into topics such as microbiology, cell biology, genomics, biochemistry, and molecular biology, and many programs offer specializations in fields such as drug discovery, regenerative and stem cell technologies, and bioinformatics. Both thesis and non-thesis programs are available, thesis programs generally having more rigorous research requirements....
The Master of Biochemistry is a master’s degree in biochemistry, in which students examine the structures, functions, and biological processes of various molecules in int
The Master of Biochemistry is a master’s degree in biochemistry, in which students examine the structures, functions, and biological processes of various molecules in intricate biological systems.
Coursework for this degree includes instruction in chemistry, biology, pharmacology, physiology, and microbiology and in topics such as organic chemistry, protein chemistry, bioanalytical chemistry, enzymology. Many programs allow specializations like molecular biology, structural biology, and bioorganic chemistry. Both thesis and non-thesis programs are available. Thesis programs require more independent research and lab work.
Schools offer one and two-year programs with tuition starting at $20,000 USD per academic year, although partial merit scholarships are available for high performing international students based on IELTS (6.5+) and TOEFL (90+) exam scores as well as CGPA and GRE (300+) or GMAT (550+) exam scores....
The Johns Hopkins Master of Biotechnology Enterprise and Entrepreneurship program is intended for biotechnology professionals who want a career beyond the laboratory with
The Johns Hopkins Master of Biotechnology Enterprise and Entrepreneurship program is intended for biotechnology professionals who want a career beyond the laboratory within an existing biotechnology organization or for those who dream of starting a new biotechnology enterprise.
This exciting new program brings together a strong science foundation with biotechnology enterprise and entrepreneurship, providing a unique educational venue for scientists to better understand the entire biotechnology enterprise and issues unique to the industry.
The curriculum will provide you with the interdisciplinary foundation to address the enterprise and regulatory challenges organizations face in the biotechnology industry. This program equips scientists with the tools and knowledge necessary to commercialize their product ideas and/or manage a biotechnology organization. Graduates will be well-suited for a variety of job opportunities, especially management and leadership roles in the biotechnology field....
University of San Francisco - College of Arts & Sciences
Our program is a two-year, four-semester interdisciplinary program that provides students with a multi-disciplinary background that integrates scientific, business, and e
Our program is a two-year, four-semester interdisciplinary program that provides students with a multi-disciplinary background that integrates scientific, business, and ethical aspects of biotechnology. The program is intended for students who do not wish to pursue a Ph.D. but still seek a career in the industry. The curriculum focuses on a combination of biotechnology-related and MBA-level business courses. Students can start the graduate program each year in the fall or spring.
Program of Study
The program of study is planned by the student in collaboration with his or her faculty adviser during the first semester of studies.
Our curriculum integrates the fundamentals of molecular biology, technology, and business to build a comprehensive program that fully prepares graduates for jobs in the industry....
Rutgers’ Chemical and Biochemical Engineering program provides a comprehensive, modern chemical engineering graduate program, with exciting and innovative research effort
Advancing Engineering Leaders
Rutgers School of Engineering provides students with a strong technical background and prepares them for leadership careers in exciting and challenging professions. Both our teaching and research are firmly rooted in scientific principles while incorporating knowledge of today’s challenges.
Master of Science (MS)
Master of Engineering (ME)
Rutgers’ Chemical and Biochemical Engineering program provides a comprehensive, modern chemical engineering graduate program, with exciting and innovative research efforts in core areas such as nanoscience and nanotechnology, transport phenomena, reaction engineering, thermodynamics and molecular simulations, separations, and process systems engineering....