Applied electrochemistry direction:

Preparation technology and application of 1) nano-materials

2) Preparation technology and application of functional materials

3) Chemical and physical power sources with high specific energy currently include: lithium-ion batteries, fuel batteries, high-efficiency miniature thermoelectric batteries, metal-air batteries, solar cells, etc.

4) electrodeposition and chemical deposition

5) Bioelectrochemistry

6) Organic electrochemistry

7) Electrocatalysis and electrosynthesis

8) Metal Corrosion and Protection

9) Environmental electrochemistry

Tutors for master students: Dreamman Tang, Yao Suwei, Wang Wei, Tian Jianhua and Liu Jianhua.

Fine chemical industry direction:

(1) synthetic chemistry and refining technology of fine chemicals

(2) The theory and application of modern fine synthesis technology.

(3) chemistry of special functional materials and its application

(4) Preparation and dispersion technology of nanoparticles.

(5) Nano-semiconductor catalysis science

(6) Efficient environmental purification technology

Instructors: Feng Yaqing, Liu Dongzhi, Zhang, Zhang and Li.

Second, the professional characteristics:

1, applied electrochemical direction:

Applied electrochemistry of Tianjin University is one of the national key disciplines, which was founded in11957. This major has a strong faculty and a large number of experts and scholars with extensive influence at home and abroad, and can train all kinds of talents including undergraduates, master students, doctoral students and postdoctoral students. It enjoys a high reputation at home and abroad, and is the first batch of authorized units for doctoral and master programs in applied chemistry in China, and has established postdoctoral mobile stations.

Applied electrochemistry is a frontier subject and an interdisciplinary subject. Its disciplinary nature determines that the development of applied electrochemistry is closely related to the development of modern science and technology, especially in the 2 1 century. Electrochemical science and technology plays an increasingly important role in various high-tech, cutting-edge and cutting-edge fields, and forms the development direction of many systems, including: material electrochemistry, energy electrochemistry, bioelectrochemistry, environmental electrochemistry, semiconductor electrochemistry, microelectronic electrochemistry, organic electrochemistry, corrosion electrochemistry and so on. As an applied electrochemistry major in engineering colleges, our research in nanomaterials, metal electrodeposition and chemical deposition, chemical power supply and physical power supply, electrocatalysis and electrosynthesis has been leading in China.

The research field of applied electrochemistry has formed great advantages, mainly including:

New high specific energy power supply:

1) research on lithium-ion batteries and related materials: a series of important achievements have been made in recent years. After passing the appraisal by the Ministry of Science and Technology, it invested 60 million yuan to establish a pilot production base for lithium-ion batteries in Beijing High-tech Park. We have successfully produced the largest capacity 150Ah power lithium-ion battery in China. 2) Research on electrochemical capacitor and electrode material: We have successfully developed an electrochemical capacitor with nano-nickel oxide as electrode material, with a specific energy of 50wh/Kg and a specific power of 2500W/Kg, and the key technical indicators have exceeded those of similar foreign products. The follow-up research goal is to design the hybrid power system of supercapacitor-lithium ion battery combined electric vehicle; 3) Research on aluminum-air battery and related materials: The contradiction between active dissolution and passivation of aluminum electrode has been successfully solved, and an aluminum-air battery with highly stable performance and high specific energy has been successfully developed, which has achieved remarkable economic benefits; 4) Polymer membrane fuel cell (PEMFC): It is one of the earliest units in China to carry out basic research on PEMFC, and has undertaken several national natural science funds, Tianjin key funds and horizontal projects. Since 1998, PEMFC prototype and related technologies have been developed, and 500W-3kW hydrogen-oxygen fuel cells have been successfully trial-produced. 5) Micro-high-efficiency thermoelectric battery adopts nano-material technology, and develops a new self-powered micro-high-efficiency thermoelectric battery suitable for MEMS and chip systems by constructing one-dimensional ordered nanowire array thermoelectric materials with high thermoelectric conversion efficiency. This research is currently at the international leading level.

Study on preparation technology and application of nano-materials

This discipline develops nano-materials by chemical and electrochemical methods, and has conducted long-term research on the formation mechanism, preparation technology and application of nano-materials, such as nano-dots, nano-wires and nano-surfaces, reaching the international advanced level. At present, the main scientific research contents are as follows: 1) Based on single-layer self-assembly, nano-metal thin films and multi-layer thin films are chemically deposited to obtain nano-scale three-dimensional metal components and nano-metal structures (arrays); 2) dispersion technology of nano carbon black and organic pigment; 3) Preparation technology and application of one-dimensional nanowire array semiconductor high-efficiency thermoelectric conversion materials. 4) Preparation technology and application of inorganic membrane materials with one-dimensional nanopore array structure; 5) Preparation technology and application of nano-material catalyst and nano-material antibacterial agent; 6) Preparation technology and application of nano-composite coating.

2, fine chemical industry direction:

This research covers a wide range, including many industries in fine chemical industry, such as dyes, pigments, medicines, organic intermediates, organic light functional materials, daily chemicals, additives, pesticides and so on. Strong applicability, less investment in scientific research projects, quick results, close connection between research results and daily life and national economic construction, and high added value of new products. In recent years, the basic research and application of nano-semiconductor materials have been carried out, including nano-photocatalytic purification of environmental pollutants and nano-photocatalytic fine organic synthesis. In order to adapt to social development and attach importance to environmental friendliness, the development and research of efficient green environmental purification technology have been strengthened. The faculty of this major is strong, and most of the tutors have obtained doctoral degrees at home and abroad. They are young, quick to accept new knowledge, attach importance to the close combination of teaching and scientific research, and have achieved remarkable teaching and learning results. Course arrangement should be combined with students' graduation thesis and work needs after graduation, involving a wide range of knowledge and reasonable knowledge structure.

At present, the research direction of fine chemical engineering is the doctoral program affiliated to the discipline of applied chemistry, and it is awarded the doctor's degree and master's degree in applied chemistry, and there are 2 doctoral supervisors (professors). This major has close communication and cooperation with similar universities and research institutes in China in teaching and research fields. Our school hosts the National Youth Fine Chemical Academic Conference in turn every two years, which strengthens the communication among peers and expands its influence in the whole country.

Second, the main courses and thesis requirements during the master's period:

Electrochemical direction:

Degree courses: Marxist theory, first foreign language, applied mathematics foundation, engineering and scientific calculation, computer technology and application foundation, optimization method, stochastic process foundation, mathematical equation, difference method of partial differential equation, advanced organic chemistry and advanced inorganic chemistry.

Required courses: physical education class, academic report, new experimental technology of modern chemical industry, green chemical technology (bilingual), intellectual property law, modern management, electrochemical progress, thesis selection and writing.

Elective courses: quantum chemistry, advanced fine organic synthesis, organic functional materials, nano-photocatalytic science and application, spectral analysis of organic structures, separation and analysis technology of organic compounds, structural chemistry, solid surface chemistry, interface chemistry, coordination chemistry, colloid chemistry, chemical kinetics, computer literature retrieval and Internet, optimization method, second foreign language (English), natural polymer chemistry, electrode process dynamics, metal structure and properties, nano-materials. Fine chemical industry direction:

Degree courses: Marxist theory, advanced English, English listening and speaking, management English, business English, applied mathematics foundation, engineering and scientific calculation, computer technology and application foundation, advanced organic chemistry, advanced fine organic synthesis and chemical separation process.

Compulsory courses: physical education class, academic report, new experimental technology of modern chemical industry, green chemical technology (bilingual) and modern management.

Elective courses: separation and analysis technology of organic compounds, quantum chemistry, organic functional materials, progress in fine chemical industry, science and application of nano-photocatalysis, spectral analysis of organic structures, structural chemistry, solid surface chemistry, interface chemistry, coordination chemistry, chemical reaction engineering (I+II), chemical kinetics, computer literature retrieval and Internet, optimization method, second foreign language, natural polymer chemistry, etc.

During the study period, you should be able to publish 1 ~ 2 research or summary papers, and at the same time complete a high-quality dissertation of 30,000 ~ 40,000 words and pass the master's thesis defense.

Four, the main scientific research projects and achievements in recent years:

Direction of electrochemistry: this major has a high-quality teaching staff and has a wide influence at home and abroad. In recent years, it has undertaken many projects of National Natural Science Foundation, National High-tech Research Program 863, National Major Basic Research 973, Doctoral Program Fund of the Ministry of Education, Outstanding Youth Fund of the State Education Commission, Fok Ying-tung Fund, Tianjin Natural Science Fund, international cooperation projects and provincial spark projects 100, and completed the Sixth Five-Year Plan, the Seventh Five-Year Plan, the Eighth Five-Year Plan and the Eighth Five-Year Plan. Applied electrochemistry won two third prizes for national inventions and many second prizes from the State Education Commission, and published hundreds of papers in international and domestic academic journals, including more than 100 papers collected by SCI and EI and 10 monograph by Yu Ben.

Direction of fine chemical industry: the teachers of this major have strong scientific research ability and high academic level. In recent years, they have undertaken more than 100 national natural science foundation, national 863 project, Fok Ying-tung Fund, Tianjin and other provincial and ministerial science funds, outstanding youth fund of the State Education Commission, international cooperation projects and enterprise cooperation projects, and completed many national scientific and technological key projects such as the Sixth Five-Year Plan, the Seventh Five-Year Plan and the Eighth Five-Year Plan. He has won the Science and Technology Progress Award of the State Education Commission and Tianjin Science and Technology Progress Award for many times. He has published more than 200 papers in international and domestic academic journals, including dozens of papers collected by SCI and EI, and ten monographs published by Education Press, Chemical Press, Sinopec Press and Tianjin Science and Technology Press. Yuben

Verb (abbreviation for verb) Employment direction:

This major enjoys a high reputation at home and abroad and has become a leader in the same industry. Graduates are very popular in the society, with a wide range of adaptation and career choice, including colleges and universities, research institutes, large and medium-sized national enterprises and wholly-owned and joint ventures such as Amtech, Motorola, Procter & Gamble, Samsung and Huada Electric Power Company. Many graduates continue their studies in our school or universities at home and abroad and obtain doctoral degrees.