Top 72 Doctorate Degrees in Life Sciences 2019/2020
The PhD can vary depending on the institution and country in which it is awarded. Most scholars pursue a PhD because of strong motivation to contribute to the academic community as well as true curiosity about their chosen field of study.
In order to learn more about life and what we know about it, one may be interested in entering a program in the Biological and Life Sciences. There are numerous potential programs to enter within such a broad field.
The Ph.D. degree requires a student to reach a critical understanding of the basic scientific and engineering principles underlying their field of interest. In addition, the student must demonstrate the ability to conduct independently an intensive research project and document their results in the form of refereed publications, presentations, and a final thesis dissertation.
Candidates for the Ph.D. degree must:
Complete a minimum of 48 credit hours of approved course work including three core courses;
Pass a qualifying examination;
Present an acceptable dissertation prospectus to a dissertation committee;
Make an original contribution to the field of chemical engineering in the form of a dissertation suitable for publication; and
Defend the dissertation during a public presentation.
QBM seeks to train a cohort of young scientists who, while firmly anchored in their home discipline, are well versed in multiple approaches and styles of thought. The goa
QBM seeks to train a cohort of young scientists who, while firmly anchored in their home discipline, are well versed in multiple approaches and styles of thought. The goal is for the students to get comfortable in communicating across traditional boundaries, especially across the divide between experiment and quantitative theory – to become, in effect, scientifically bi- or multilingual. To this end, the school offers an integrated interdisciplinary Ph.D. program that consists of three main components:
An interdisciplinary research project which combines concepts and methods from different fields.
A substantial program of formal course work with a general and an individual component centered around an interdisciplinary core course that covers key problems in bioscience from multiple perspectives.
Further activities to enhance students’ other transferable skills to succeed in science as a competitive profession.
The San Raffaele University, top-ranked among the research universities in Italy, offers a Ph.D. program aimed to provide excellent guidance, support, and training to gra
The San Raffaele University, top-ranked among the research universities in Italy, offers a Ph.D. program aimed to provide excellent guidance, support, and training to graduate students interested in understanding the molecular processes underlying human diseases and in designing new approaches for their treatment.
The Ph.D. Course in Molecular Medicine operates within the San Raffaele Scientific Institute, one of the largest biomedical research environments in Italy and well renowned internationally.
Completion requires 36 months of full-time studies and allows students to undertake a major research project in one of the over 100 research laboratories present in our Institute. Training and mentoring offers students individualized professional development and a gateway for basic, clinical and industrial research careers....
The George Washington University - School of Engineering & Applied Science
The Ph.D. in Biomedical Engineering is designed to prepare rising scholars and researchers to apply engineering principles to problems in medicine and biology; to underst
The Ph.D. in Biomedical Engineering is designed to prepare rising scholars and researchers to apply engineering principles to problems in medicine and biology; to understand and model attributes of living systems and to synthesize biomedical systems and devices in order to produce original research.
Students can expect to work closely with a faculty advisor in their chosen research area to create a curriculum plan and guidance for the doctoral dissertation. Students be also be expected to teach introductory-level courses to undergraduates, present conference papers and work with faculty on research grant applications.
The Ph.D. program is primarily based on GW's main campus in Washington, D.C. (Foggy Bottom), which lies in close proximity to the School of Medicine, the Milken Institute School of Public Health, and the GW Hospital. These interactions are supplemented by collaborations with nearby clinical and research facilities, including Children’s National Health System, the Food and Drug Administration (FDA) and the National Institutes of Health (NIH)....
Doctor of Philosophy (Ph.D.) students initiate and drive cutting-edge research that with supporting studies, position them to be new leaders in the advancement of their f
Admission to the School of CMB
In addition to College of Engineering M.S. and Ph.D. requirements, the School of CMB has the following admission guidance and requirements:
Consideration is given particularly to the following components of the application: GRE and other test scores, undergraduate Grade Point Average, the student’s Statement of Purpose (SOP), and letters of recommendation.
Quality students who have completed a B.S. degree in a non-engineering field such as Physics, Chemistry or Biology and who have completed mathematics through differential equations will be considered for admission to the School’s graduate program. These students typically are required to complete 3-4 additional engineering courses at the onset of their graduate education which will be determined by the School Curriculum Committee in coordination with the College Graduate Admissions and Advisory Committee.
Change of major from M.S. to Ph.D.: a) each GRE score must be at least 150 (verbal and quantitative), b) Ph.D. entrance requirements must be met, c) adequate progress in the M.S. must be demonstrated, d) the undergrad GPA must be at least 3.0 (or its equivalent), and e) a compelling case for the change must be given.
Program of Study
PhD graduates in biotechnology professionals from ITESM are able to function in the academic, scientific and industrial field, both in implementation and knowledge genera
The high demand to develop and optimize processes in industrial, food, agriculture, health and diagnostics sectors, among others, has encouraged the incorporation of biotechnological techniques for generating new products and services.
Thus developments in the field of biotechnology, manage to benefit a large segment of the population, given its vast areas of application. Graduates of professionals PhD in Biotechnology ITESM are able to function in the academic, scientific and industrial field, both in implementation and knowledge generation. This allows them to develop innovative and sustainable technology for the benefit of society.
The purpose of this Ph.D. program is to train a new generation of researchers - knowledgeable and highly competitive - who can contribute their work to scientific researc
The purpose of this Ph.D. program is to train a new generation of researchers - knowledgeable and highly competitive - who can contribute their work to scientific research about the environment and mountain agriculture to the advantage of the territory in which they operate, in constant communication and exchange with their university colleagues in national and international research centers.
The three-year program focuses on the study of biotic and abiotic resources, energy efficiency in forestry agriculture, renewable energy, the impact of climate change and quality of agricultural products. Our faculty applies an interdisciplinary scientific approach and focuses on the theme of sustainability, two features that are shared by both our teaching and research....
Biology, biotechnology and biosciences have been rapidly developing since 2000. To handle the data produced, computer technology is required due to the excessive amount o
Biology, biotechnology, and biosciences have been rapidly developing since 2000. To handle the data produced, computer technology is required due to the excessive amount of data. Most of the recent techniques used in DNA, RNA and protein-based research is supported by bioinformatics and computer science. Computer science offers a new era for the biological sciences. For example the building block of the cell, proteins are modeled in 3D using a computer; this enables the rapid and efficient identification of molecular interactions and signals transduction pathways. Similarly, mutations in the genetic sequence can be detected quite fast using computer technology. Since the recent advancements in computational biology decreased the cost and accelerated the research processes including the drug development, the in silico studies are highly demanded in the industry....
This programme focuses on applied aspects of advanced and emerging analytical technologies to address current issues in food safety, nutrition, and food supply.
PhD Food Safety and Biotechnology
This programme focuses on applied aspects of advanced and emerging analytical technologies to address current issues in food safety, nutrition, and food supply. It covers the entire food chain from farm to fork and places a strong emphasis on the link between improved food safety and nutrition and improved public health.
Advanced and emerging technological and analytical platforms (biosensors, isotopic and comics)
Animal food and feed safety
Animal health and disease diagnostics
Global food security
Food and nutrition metabolomics
Food and nutrition quality measurements
Food safety detection methodology
Food traceability and authenticity
Immunodiagnostics for food contaminant and toxin detection
Natural compounds and their health applications
Novel and functional foods
Become an expert in collecting, analyzing, interpreting and presenting data through extensive research; advanced training; and an integrative, interdisciplinary, and evol
Become an expert in collecting, analyzing, interpreting and presenting data through extensive research; advanced training; and an integrative, interdisciplinary, and evolutionary approach.
To obtain this degree, you take the following 60 credit hours of coursework:
45 units beyond the bachelor’s degree, covering the major principles of biological sciences
15 units or more BIO 799 to research, write and defend your dissertation
You must also:
have a reading knowledge of one foreign language or skill in statistics
perform satisfactorily on a comprehensive exam in your fifth semester
fulfill Northern Arizona University’s residency requirements
pass the oral exam on your dissertation
The degree of Doctor of Philosophy (Ph.D.) in horticulture shall represent the attainment of a high level of scholarship and achievement in coursework and independent res
Doctor of Philosophy (Ph.D.) Concentration: Horticultural Science
The degree of Doctor of Philosophy (Ph.D.) in horticulture shall represent the attainment of a high level of scholarship and achievement in coursework and independent research. The Doctor of Philosophy in horticulture is designed to prepare students for academic or research-based careers. Graduate students are expected to excel in research, teaching, extension activities and develop professionally. Independent and original research is an important part of the graduate program and forms a basis for a graduate thesis. The research shall represent an original contribution to human knowledge in the particular academic field and is presented in a written research dissertation of a publishable standard. The document shall also demonstrate the candidate’s acquaintance with the literature of the field and the proper selection and execution of research methodology. The program covers the following areas: ornamental horticulture, floriculture, turfgrass, vegetable crops, fruit crops, environmental stress physiology, plant breeding, plant pathology, and plant-pathogen interactions, molecular biology, plant biotechnology, tissue culture, soil, water and sustainable and organic farming and others....
The objective of the Doctoral program: Chemistry and Chemical Technology with specializations in Inorganic Technology is to educate specialists and prepare them for advan
Faculty of Chemical Technology
Study Field: Inorganic Technology
Study Program: Chemistry and Chemical Technology
Form of study: Part-time/Full-time
The standard length of study: 4 years
Number of ECTS credits allocated: Study is not credit-based
Graduation requirements: State Doctoral examination and Doctoral thesis defense
Tuition fee (per academic year): Maximum 4,900 EUR
The objective of the Doctoral program: Chemistry and Chemical Technology with specializations in Inorganic Technology is to educate specialists and prepare them for advanced positions in the inorganic chemical industry, research institutions, agricultural sector, educational system, and in state administration.
The aim of the study is to reach the balance between theoretical and experimental skills and the application of the general procedures in chemistry and food technology.
Chemistry and Technology of Foodstuffs
Level of course unit: Doctoral
Faculty: Faculty of Chemistry
Academic year: 2019/2020
A title awarded: Ph.D.
Qualification awarded: Ph.D. in the field "Chemistry and Technology of Foodstuffs"
Level of qualification: Doctoral (3rd cycle)
Specific admission requirements:
Master degree in chemical engineering, food chemistry or other chemical specializations earned at university faculties, ICT Prague or agricultural universities.
Key learning outcomes:
The Ph.D. study and study related research are focused on the acquisition and development of theoretical knowledge and experimental skills in the areas of food chemistry and engineering processes of food production, applied analytical and physical chemistry, microbiology, biochemistry and molecular biotechnology. The study is designed in line with the development of food science and food technologies and other basic and applied specializations....
The Hong Kong University of Science and Technology
The PhD programme aims to instil in students the skills needed to identify research issues in Chemical Engineering, formulate an original research plan, and develop creat
The programme is offered by the Department of Chemical and Biological Engineering with the following research foci and state-of-the-art facilities, providing students with an ideal environment for research.
Chemical and Biological Engineering is a highly diversified engineering and science discipline. The Department’s research can be classified into five major areas:
Nanomaterials, graphene, 2D materials, zeolites, novel polymers, polymer composites, DNA self-assembly process, polymer interfaces and surfaces as well as polymer/ceramic membranes. In-depth studies are being carried out in nanomaterial synthesis and characterization, rheology, non-Newtonian flow, heat and mass transport, and process control associated with the injection-moulding process....
The Ph.D. program in Molecular Biomedicine aims to provide higher education to young University graduates in biomedical – and scientific in general – disciplines, to prep
The Ph.D. program in Molecular Biomedicine aims to provide higher education to young University graduates in biomedical – and scientific in general – disciplines, to prepare them for a career in basic, clinical or translational research in the field of molecular medicine, with specific reference to the areas of molecular oncology, pathophysiology, molecular genetics, biochemistry, cell biology, regenerative medicine, and pharmacology. Key to the program is research activity in the laboratory, where students develop a critical approach to scientific observation and carry out a specific project. The Program also organizes intensive courses on core biomolecular disciplines and seminars given by national and international experts....