Master Degree in Chemistry in China

Find Masters in Chemistry in China


Master-level studies involve specialized study in a field of research or an area of professional practice. Earning a master’s degree demonstrates a higher level of mastery of the subject. Earning a master’s degree can take anywhere from a year to three or four years. Before you can graduate, you usually must write and defend a thesis, a long paper that is the culmination of your specialized research.

Chemistry is a category of physical science that deals with the structure, composition, and various properties of matter. Some topics which chemistry aims to cover include the formation of chemical bonds, properties of atoms, and the intermolecular forces responsible for giving matter its unique properties.

The education ministry runs education in China. The government often provides partial funding for the higher education in the technical and public universities. The Chinese government has also developed academic curriculum that allows those students with vocational skills to nurture their talents.

Master's in Chemistry in China

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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. [+]

Top Master's Programs in Chemistry in China. 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 Degree in Chemical and Process Engineering

University of Bologna School of Engineering and Architecture
Campus Full time

A Masters degree in Chemical Engineering is key to professional success in several modern and innovative industrial sectors. [+]

A Masters degree in Chemical Engineering is key to professional success in several modern and innovative industrial sectors. Smart materials, sustainable processes for energy production, industrial biotechnologies, and advanced pharmaceutical applications are only some of the examples of sectors where the expertise of chemical engineers is sought and highly rewarded. Furthermore, the conventional world-players as the chemical and Oil&Gas field are facing a context of increasing innovation and internationalization, thus requiring global competences and higher qualifications of the chemical engineers recruited. The STEM (Sustainable Technologies and biotechnologies for Energy and Materials) international curriculum of the Masters in Chemical and Process Engineering was built to meet these needs. The course is a two-years Master “second cycle Degree” officially recognized under the “Bologna Process”, requiring the students to obtain 120 ECTS. The program is two years in duration and is divided into four terms. In the first year, courses are mainly oriented to address basic issues of the Master’s studies: advanced thermodynamics and transport phenomena, introduction to basic design, and introduction to industrial safety. In the second year, both compulsory and elective courses are offered on specialized topics, such as materials, energy and environmental processes and industrial biotechnologies. The program is entirely taught in English, and requires the student a proficient use of the English language. At the end of the program, a degree titled "Master in Chemical Engineering" (Laurea Magistrale in Ingegneria Chimica, Classe LM-22) is awarded and is valid under Italian law. A Dual Degree Agreement is active with Columbia University in the City of New York (USA). Applicants, upon completing successfully the program, will obtain both the Laurea Magistrale from Bologna University and the Master of Science in Chemical Engineering from Columbia University. Graduates of the program 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 specific sectors (material production, food technologies, industrial biotechnologies, etc.). Completion of the STEM Masters degree can also lead to entering PhD. level studies. Option on Off-Shore and Oil&Gas Engineering Students enrolled in the STEM curriculum will have the option to select in the second year courses dedicated to off-shore engineering and oil&gas technologies, with a specific focus on up-stream and mid-stream applications. The courses will be held in the Ravenna Campus, and the content has been strongly oriented to the obtainment of the professional skills necessary to operate in the Oil&Gas sector. The companies of the Ravenna off-shore district accepted to make available internships and activities suitable to complete the master graduation thesis. [-]

Master Programme of Chemistry (International)

Wenzhou University
Campus Full time September 2017 China Wenzhou

The Chemistry (International) program offered by the College of Chemistry and Materials Engi- neering (CCME) is dedicated to cultivating inter- national frontier researchers and skilled techni- cians, who are keen on international scientific and technological communication and coopera- tion. [+]

Top Master's Programs in Chemistry in China. The Chemistry (International) program offered by the College of Chemistry and Materials Engineering (CCME) is dedicated to cultivating inter- national frontier researchers and skilled technicians, who are keen on international scientific and technological communication and cooperation. Research The students will be guided by world-class leading professors in chemical research in CCME in the fields of chemistry, materials science & engineer- ing, chemical engineering & technology, polymer science, etc. You are also encouraged to contact your interested supervisors directly. Courses Chinese graduate students will act as mentors to help international students get settled down in Wenzhou. All courses are delivered in English using original English textbooks, lecture notes, and/or lab manuals. The core courses include Advanced Inorganic Chemistry, Advanced Analytical Chemistry, Advanced Organic Chemistry, Advanced Physical Chemistry, Physical Chemistry of Mate- rials, Crystallochemistry, Solid State Chemistry, Modern Separation Science & Technology, Comprehensive Chemical Experiment, Modern Advanced Organic Synthesis, Modern Spectral Analysis of Organic Compounds, Modern Technology of Inorganic Synthesis, Electrochemical Methods & Applications, Chemistry & Physics of - Polymers, Fine Chemical Production & Technology, Principles of Green Chemistry & Technology, Basic catalysis, Organometallic & Organoelemental Chemistry, Heterocycle & Medicinal Chemistry, Nano Materials and Nano Structures, etc. Financial Support Our program welcomes international students who have acquired scholarships of exchange programs between the governments, from the Chinese Scholarship Council ~CSC), or from Zhejiang Province. For students having not acquired the above-mentioned scholarships, they will be offered full scholarship by WZU in their 1st year of graduate studies. From the second year on, the students will be offered full or partial scholarship depending on their research performance. In the meantime, advisors will also provide research assistants allowance after students start their graduate researches. CCME will also give the Dean's Honors Award to students who have done excellent research works during their graduate studies. In all, every international graduate student will be offered a scholarship that is sufficient to cover his/her tuition fee. Job Opportunity Graduates from this program can continue their education toward Ph.D. degree or find jobs in their home country as well as in China, especially in Zhejiang Province, where chemical and pharmaceutical industries account for a very important branch of economy. Entry Requirement: 1. Non-Chinese citizen, aged 22 or over, physically and mentally healthy. 2. University graduate or equivalent qualification. 3. Good command of the English language. Application Materials: 1. Wenzhou University Application for Admission (International Students). 2. Photocopy of your valid passport. 3. Photocopy of your university diploma. 4. Transcripts of university education. 5. English proficiency evidence (for non-native English speakers), acceptable qualifications include IELTS (6.0), TOFEL (iBT 75) or English proficiency approval documents issued by College of Chemistry and Material Engineering at vVenzhou University. 6. Recommendation letters from two experts (assistant professors, associate professors, or professors) 7. 2-inch photograph (Digital copy ). [-]

Master of Engineering in Chemical Engineering & Technology

Donghua University
Campus Full time September 2017 China Shanghai

The nationally acknowledged Chemical Engineering Master of Engineering (MChE.) Program in Donghua University was established in 1978. [+]

Chemical Engineering & Technology (M.E) Program Overview The nationally acknowledged Chemical Engineering Master of Engineering (MChE.) Program in Donghua University was established in 1978. It is currently administrated by the college of Chemistry, Chemical Engineering and Biotechnology (CCCEB). The MChE program has a focus in applied research and is especially designed to provide excellent preparation for students who will be seeking employment in industry. ChE faculty have taken charge of over 100 research projects funded by the national and provincial ministries, which resulted in over 300 journal publications, almost 200 patent applications, and numerous awards for the advancement of science and technology. We maintain a high faculty/student ratio and operate an open-door policy for faculty offices whereby students are free to stop in to discuss their research, science, careers or life in general. Incoming students may choose to study in the three sub-disciplines of Applied Chemical Engineering, Bioengineering and Process Chemistry. The program has graduated over 400 master students and there are approximately 100 students currently enrolled. ChE program has acquired an inventory of state-of-the-art research equipment and instrumentation including a Bruker Avance 400 nuclear magnetic resonance (NMR) spectrometer, a gas chromatograph mass spectrometer (GC/MS), an electrospray liquid chromatography/mass spectrometers (LC/MS), high performance liquid chromatographs (HPLC), gas chromatographs (GC), Fourier Transform Infrared (FTIR) spectrometers, spectro-fluorimeters, UV/Vis spectrophotometers, rheometers, minimum temperature film forming bars and more. Requirements and Objectives Admission is in accordance with the general requirements of the graduate division. Students with a B.S. or B.E. in chemical engineering, chemistry, bioengineering or related disciplines are welcome to apply. Applicants are judged competitively based on the candidate’s background, qualifications, and goals. The mission of the Chemical Engineering Master Program is to provide the next generation of chemical engineers with an excellent and innovative chemical engineering education. The primary goals are: To prepare students for rapidly changing technological environments with the core principles of chemical engineering and analytical problem-solving skills necessary to succeed in diverse careers including chemical engineering practice and academic research. To provide students with a strong technical education that will enable them to use the techniques, skills and modern engineering and computing tools necessary for practice in diverse fields as fine chemical engineering, functional polymers, bio materials, greener technologies, natural product synthesis, and biosynthesis. To instill in students a strong sense of humanistic values and professionalism such that they will have a sense of responsibility, be ethical in the conduct of their profession, they can conduct ethically and have an appreciation for the impact of their profession on society. Graduates from the program may choose to pursue a doctorate degree in ChE or a career in research and development, production management and technical support. Course requirements All students must complete a total of 34 credits which must include 10 credits from the compulsory general education courses, 12 credits from the major compulsory courses, and 12 credits from the elective courses. 1. Main courses (1) compulsory course(Total credits 12) (a) Organic Synthesis: Strategy and Control(3 credits) Course Description: The main contents of this course are: 1) understand a series of important organic reactions and carbon–carbon formation, 2) understand the basic theory of retrosynthesis and the basic principle of its application on the synthesis of complicated molecule. Prerequisites: A basic background in organic chemistry and inorganic chemistry is required. (b) Organometallic Chemistry(3 credits) Course Description: The major contents of this course are: 1) understand the basic principles of electronics, structure and bonding in inorganic and organometallic complexes; 2) understand elementary organometallic steps in the context of catalysis; 3) design organometallic catalysts for important organic transformations; 4) explore use of organometallic complexes in other fields like medicine. Prerequisites: A basic background in organic chemistry and inorganic chemistry is required. Some background in physical chemistry is helpful, but not required. (c) Biochemistry(3 credits) Course Description: This course is designed for beginning graduate students in Chemical Engineering and Technology. The main contents of this course include: 1) biosynthesis, structure, and function of carbohydrates, proteins, lipids, and nucleic acids, and survey of modern biochemical techniques; 2) regulation of gene expression and metabolic control mechanisms; 3) membrane biochemistry and signal transduction mechanisms. Prerequisites: organic chemistry, inorganic chemistry, or consent of instructor. (d) Advanced Organic Lab Experiments(3 credits) Course Description: This course concerns the application of the tools of chemistry to the synthesis of organic molecules, the separation of mixtures of organic compounds, and the subsequent identification of these compounds. It focus on discovery-based learning, i.e. the concept that learning comes as you solve various organic chemistry puzzles. In the laboratory, students should run 6-8 synthetic experiments. In some cases, there will not be provided with the structures of the products. As for the products with unknown structures, students must determine by the interpretation of infrared, NMR, and mass spectral data. Each of the basic experiments requires a written report, formatted in the style of papers in the Journal of the American Chemical Society. (2) optional course(Total credits 12) (a) Bio-medical Materials(3 credits) Course Description: The major contents of this course are: 1) to understand the basic knowledge about inorganic and organic biomaterials; 2) to understand the process of functionalization of biomaterials and biocomposite materials; 3) to grasp the knowledge of the design of biocompatibility tests of biomaterials for different biomedical applications; and 4) to have knowledge of the use of bio-medical materials and nanomaterials in the fields of tissue engineering, drug delivery, medical diagnosis and therapy. Prerequisites: A basic background in chemistry, chemical engineering, materials science, life sciences, biomedical engineering or bioengineering is required. (b) Green Chemistry(3 credits) Course Description: The course introduced the key concepts of green chemistry such as renewable resources, atom economy, biodegradability and life cycle assessment as well as the 12 princeples of green chemistry. The tools of green chemistry including the use of alternative feedstocks or starting materials, reagents, solvents, target molecules, and catalysts will be covered. Particular attention is focused on the application of innovative technology in the development of "greener" routes to improve industrial processes and to produce important green consumer products. Prerequisites: The students are expected but not required to have some basic knowledge of general chemistry, organic chemistry and biochemistry. (c) Textile Chemistry(3 credits) Course Description: This course focuses on the dyestuff, auxiliary, dyeing printing and finishing theory and technology. It also includes the knowledge of fibers, both natural and synthetic. The dyeing and finishing aspects of textile chemistry require an understanding of both organic chemistry and surface chemistry. Textile chemistry also includes the application of the principles of surface chemistry to processes, such as dyeing and finishing. (d) Advanced materials science and engineering(3 credits) Course Description: Nanomaterials science and application is novel research area that attracts people's attention. Nanomaterials will create significant economic benefits and greatly have positive impact on the development of human society. This course will highlight the preparation principles and technique processes of nanomaterials and introduce the practical applications and the future development trends. (f) Surfactant Chemistry(3 credits) Course Description: The content of this course focuses on the principle of physical chemistry and application for surfactants. It concerns the selecting and molecular designing for some special surfactants in a particular situation. Many application and research examples would be mentioned. Prerequisites: The students are expected but not required to have some basic knowledge of organic chemistry and physical chemistry. 2. Research orientation (1) Fine chemical engineering: research based on development of novel textile chemicals, aerospace chemicals, pharmaceutical intermediates employing the principles of green chemistry. (2) Fermentation engineering and textile biotechnology: an interdisciplinary research area with the focus on microbial fermentation, enzyme engineering and the application of biotechnology in textile processing. (3) Textile chemical engineering: A discipline based on the traditional textile dyeing and finishing extended and enriched with inputs from related disciplines of material science, environmental engineering and applied chemistry. (4) Functional polymers and nanotechnology: An emerging new field aiming at fulfilling the growing demand for new medical-textiles and functional textiles. Specific areas include biomedical materials, functional microcapsules, and nano hydrogels. Students in the Lab [-]

Master in Biochemistry & Molecular Biology

Liaoning Medical University
Campus Full time October 2017 China Liaoning

35 State-level Scientific Research Projects, including 28 National Natural Science Foundation Projects [+]

Master in  Biochemistry & Molecular Biology

Entry Requirements

1. Bachelor Degree

2. Pass the postgraduate entrance examination

3. 2 recommendation letters from (associate) professors



Other expenses information

1. Students in the Master and Bachelor Programs have to pay 800RMB (130USD) registration fee.

2. If the study period exceeds 3 months, students will be required to obtain a residence permit, the cost of which is 400RMB/half a year (65USD) and 800RMB/year (130USD).

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Master in Biochemistry and Molecular

Shanghai Ocean University
Campus Full time September 2017 China Shanghai

The university consists of 12 colleges, namely, College of Fisheries and life Science, College of Marine Science, College of Food Science and Technology, College of Economics and Management [+]

Master in Biochemistry and Molecular

Study period: three-year program

Time to Apply

Autumn term enrollment apply before 30th, June
spring term enrollment apply before 31th, December

Qualifications and Documents Requested

Holding Bachelor degree (or equivalent), healthy, non Chinese-residential foreigner)

1. Application form

2. Certified Bachelor degree or   equivalent, transcripts

3. Two recommended letters from academic experts

4. Certificate of HSK6
5.Academic examing( in writing and in oral)

Shanghai Ocean University... [-]

Master in Applied Chemistry

Shanghai Ocean University
Campus Full time September 2017 China Shanghai

The University has established a good relationship in academic exchange and cooperation with more than 40colleges,universities and research institutes in the U.S, Japan, Australia, Russia, Korea [+]

Master in Applied Chemistry

Exploiting the achievements and experience above mentioned and adopting a principle of "Deepening the reform, strengthening the management, assuring the quality and developing steadily", the College will spare no efforts to promote the education for foreign students, and enhance the modernization and internationalization of our country’s higher education, so as to make contribution to cultivating more excellent intellectuals for other countries, and strengthening the friendship, cooperation and exchange among the countries in the world.

Study period: three-year program

Time to Apply

Autumn term enrollment apply before 30th, June
spring term enrollment apply before 31th, December... [-]