Harbin Institute of Technology (Weihai) School of Marine Science and Technology was founded in September 2004, and was formerly the Department of Marine Resources and Environmental Engineering established in 2001.
School of Marine Science and Technology
College Existing
Position
Dean
secretary
associate dean
associate dean
associate dean
vice secretary
Assistant Dean
Name
director:
Department of Marine Science and Technology
Master of Marine Science
The first-level disciplines in marine science include four second-level master's degree programs in marine chemistry, marine physics, marine biology, and marine geology. Multidisciplinary research focuses on marine science. The mentors come from a number of faculties and departments, and undertake a number of national, Shandong Province, State Oceanic Administration, Naval Equipment Department and other related topics in the field of "Marine Science". Currently he is mainly engaged in research work on marine antifouling technology, marine biological resource utilization, marine new energy, marine environment monitoring and bioremediation, laser and ultrasonic marine detection applications.
I. Research on the utilization of marine biological resources:
Marine microbial resources and diversity; efficient, safe, and environmentally friendly new biological pesticides and their mechanisms of action; use of genomics, proteomics, and bioinformatics to study the extreme environmental adaptation mechanisms of marine microorganisms; new active substances and their functions .
(2) Marine functional food and individualized nutrition engineering:
Using systems biology methods to study the molecular (gene) network structure and dynamic behavior of aging-related diseases in the coastal areas of Shandong; establish a nutritional genomics database related to individualized nutrition; study the active ingredients of foods related to marine life in neurodegenerative diseases Mechanism of molecular networks in the prevention and adjuvant treatments such as diabetes, obesity and gout.
(3) Marine algae biotechnology:
Mainly carry out research on the molecular mechanism of marine microalgae oil accumulation, develop high-yield engineering microalgae, and establish related technologies for oil extraction and transformation of marine microalgae.
Research on marine environment and new energy:
(1) Bioremediation project of marine aquaculture polluted environment: to study the theory and application of bioremediation of aquaculture polluted environment, microbial physiology ecology and molecular ecology, wastewater biological treatment ecosystem and engineering.
(2) Clean and high-value resource utilization of marine processing wastes: study wastes that seriously pollute the environment after processing of marine organisms, use selected functional strains for biocatalysis and transformation, and develop functional health products, pet feed, and fish Immune function bait for shrimps, bio-fertilizers and bio-fertilizers for plants.
(3) Marine pollution environmental monitoring and prevention and control: Research on the rapid detection and prevention and control of marine toxin-producing algae, new technologies and methods for environmental quality monitoring and pollution (source) accident monitoring, design and development of intelligent marine environment detection instruments and information platforms. Development.
(4) Marine renewable energy utilization technology: research on wind farm wind power and mathematical modeling of wind power generation systems, remote monitoring of wind farms, and centralized control of wind farms; research on the key technologies of ocean current power generation and their effects on marine natural water flow, ecology Impact of the system.
(1) Research and development of new low surface energy marine antifouling materials: study the preparation of new low surface energy fluorine-containing or silicon prepolymers, the mechanical properties of polymer coatings, and the relationship between the topological structure of the coating surface and the antifouling performance. Explore non-toxic antifouling coatings with continuous antifouling properties.
(2) Marine antifouling technology for intelligent nano-anti-adsorption materials: Research on a new type of antifouling system with the goal of controlling the release of intelligent nanoparticles, including controllable preparation of organic nanoparticles, compatibility of nanoparticles with primer, coating Layer mechanical properties, antifouling effect and service life etc.
(3) Application of biomimetic micro-nano technology in marine antifouling Through the interdisciplinary interdisciplinary study of chemistry, biology, and coating processing engineering, study methods that can inhibit the growth of marine microorganisms on the coating surface, including gene network technology, Basic and applied research on controlled release of bioactive proteolytic enzyme-related biotechnology in non-toxic marine antifouling projects.
Master of Genetics Program
Harbin Institute of Technology (Weihai) master's degree in genetics was approved in 2004. Based on the geographical advantages of the Weihai campus, it is supported by the genetic discipline of Harbin Institute of Technology, and has now developed into a discipline with strong comprehensive strength. This master's degree has several research laboratories including BIO-X Marine Biotechnology Research Center & Molecular Nutrition and Food Safety, Application and Marine Microbes, Algae Biotechnology, etc., mainly engaged in marine bioinformatics and nano-biotechnology, personalized nutrition and local genes. Network technology, environmental biotechnology, plant algae biotechnology, structure and function of life macromolecules, marine biological active substances, microbial fermentation, and fermented food are all frontier and interdisciplinary subjects in the field of science and technology.
The mentor team is mainly from three majors: bioengineering, biotechnology, food science and engineering. At present, there are 1 outstanding talents from the Ministry of Education, 1 doctoral supervisor, 7 master supervisors, 1 professor and 6 associate professors. In recent years, this discipline has presided over the Ministry of Education's New Century Excellent Talents Program, the National Natural Science Foundation of China, the National 863 Project, the International Science Foundation, the Ministry of Education's Returned Overseas Chinese Research Startup Fund, the Natural Science Foundation of Heilongjiang Province, and the outstanding young and young scientists in Shandong Incentive funds and other horizontal joint projects. Won three provincial and ministerial teaching achievement awards and one provincial technological innovation outstanding achievement award. He has published more than 100 papers and more than 40 SCI and EI index articles, including more than 10 SCI index articles with an impact factor exceeding 3.0, more than 10 patent applications, and 2 international patents.
The postgraduate system of this master's degree is 2 years. It is jointly cultivated with the school-based department. The first academic year completes the study of theoretical courses at the school headquarters. The second academic year is engaged in the research of master thesis and defense of the graduation thesis in the Weihai campus. Master's degree.
Master of Applied Chemistry
This discipline is one of the second-level master's programs (engineering) under the first-level discipline of chemical engineering and technology. It mainly depends on the Department of Applied Chemistry of the School of Chemical Engineering and has trained more than 200 masters and more than 20 doctoral students. Currently, there are more than 60 master students and 80 doctoral students. The master of applied chemistry major mainly cultivates broad chemistry and chemical basic knowledge and strong experimental skills, as well as related engineering and technical knowledge and basic skills, and can engage in production, quality inspection, new product application and development in the electrochemical and chemical industries. And other work, to meet the needs of the national economic construction, the development of moral, intellectual, physical, and American advanced technical application-oriented talents.
This discipline has formed a team of mentors with young and middle-aged experts as the backbone. At present, there are 4 professors, 4 associate professors, 3 lecturers, and 100% of young and middle-aged teachers have doctoral degrees. The discipline echelon structure is reasonable, age and knowledge levels are coordinated and coordinated, with a good teaching and scientific research foundation, which provides a strong guarantee for the creation of first-class disciplines and the training of outstanding talents.
National and provincial ministerial scientific research projects undertaken by this discipline in recent years (including the National Natural Science Fund, the Provincial Natural Science Fund, the Provincial High-Tech Industrialization Project, Provincial Major Science and Technology Projects, Provincial Science and Technology Projects, Municipal Science and Technology Projects, Scientific and Technological Projects of Large and Medium-sized Enterprises ) More than 20 horizontal enterprise cooperation projects. Significant results have been achieved in the transformation of scientific research results. The "Research and Application of Key Technologies of L-lactic Acid Industrialization" was confirmed as the scientific and technological achievements of Henan Province; it won the first prize of the 2010 Henan Science and Technology Progress Award and passed the national The preliminary evaluation of the Science and Technology Progress Award was announced on July 26, 2011. He has won 2 provincial or ministerial awards, 1 national second prize for scientific and technological progress, and 5 national patents. Published more than 200 papers in the past five years, of which more than 70 papers were included in SCI. Published 7 monographs.
The department has institutes for chemical power, advanced separation and synthesis technology, etc. There are five research directions including chemical power supply, metal electrodeposition, surface treatment and coating technology, separation science and technology, and less pollution technology.
The research direction of this discipline is:
(1) Chemical power: The research content covers almost all fields of chemical power, both traditional chemical power and new, high-energy chemical power representing the frontiers of the discipline. In recent years, research has been carried out mainly on nickel-hydrogen batteries, lithium-ion batteries, lithium polymer batteries, fuel cells, new lead-acid batteries, and electrochemical supercapacitors, which represent the development direction of the discipline. In this direction, pay attention to both basic research and scientific and technological development. From battery manufacturing design, electrode material preparation, and electrolyte optimization, to studying the electrode reaction mechanism and improving the comprehensive performance of the battery, it is a chemical power source for aerospace, marine, communications, electric vehicles, and national The wide application in all areas of the economy has laid the foundation.
(2) Metal electrodeposition: including electroplated single metal and alloy coatings, chemical plating, oxidation coloring and micro-arc oxidation of light metals, electrochemical preparation of nanostructured materials, electroplating of special materials, oxidation and phosphating of steel, Dacromet technology , Steel corrosion and protection, and other aspects of metal surface treatment. This direction focuses on the application of basic research and technology development from environmental protection, resource utilization and new material development, from new process development to performance testing and improvement, and then to research on deposition mechanism and corrosion mechanism, especially in the development of low pollution electroplating technology, high speed Research on electroplating and electrodeposition of micro-nano functional films has obvious characteristics.
(3) Surface treatment and finishing process: The new surface treatment technology of micro-plasma oxidation, which has emerged in recent years, is used to ceramicize the valve metal surface, improve the wear resistance, corrosion resistance, and thermal shock resistance of the material, and achieve light weight and high strength. And thermal shock resistance, which provides new technical support for the expansion of the valve metal application field; meanwhile, it also carries out basic research on the membrane / matrix material interface bonding mechanism and structural design of new membrane-layer composite materials, and provides environmentally friendly new materials for water treatment, etc. ; Using polyurethane-based coatings as carriers, nano-powders are introduced to prepare various functional composite coatings, which have been applied in light conversion and other aspects.
(4) Separation of science and technology and comprehensive utilization of resources
Separation and utilization of organic matter
The research content involves the separation, purification and resource utilization of organic mono- and poly-acids in fermentation broth, and research on new technologies and technologies for the separation and purification of natural plant active ingredients. Develop a new method to separate organic sugars from organic acid fermentation broth and corresponding organic acid product mother liquor to purify organic acids, to achieve complete separation between organic acids and residual sugars, to obtain high-purity organic acid solutions, and then by conventional concentration, Crystallization gave the organic acid product.
Separation and extraction without pollution
The research involves the separation and extraction of polymetallic sulfide ores and comprehensive recycling, including the treatment of sulfide ores including gold-containing sulfide ores, copper-zinc-cobalt and other ore; valence metals, such as precious metal waste, copper-cobalt waste, tantalum-niobium waste, etc. Recycling, waste battery, electronic waste treatment and utilization, pay attention to technological innovation and high-value use of resources.
Application of modern separation technology
Modern separation methods such as ion exchange and membrane technology are used to form a new separation unit process, which is combined into a new separation process with high efficiency, energy saving and pollution-free. The research work covers a wide range of rare metals, heavy metals and light metallurgy, and forms new technologies and methods for the separation and utilization of impurity elements and the comprehensive recovery of valuable metals.
(5) Low pollution process: highlight the concept of green chemical process in the preparation of new materials, and carry out technology for traditional chemical industry through the intersection of chemical and environmental science
Reforms to reduce the environmental load of processes and products and make them sustainable.
Master of Microbiology
The research direction of the master's degree in microbiology mainly includes applied microorganisms, marine microorganisms, and environmental microorganisms. There are currently 8 mentors who have presided over the National Natural Science Foundation of China, the National High-Tech Development Research Program (863), the National Science and Technology Support Program, and the International Science Foundation. , China Postdoctoral Science Foundation, Shandong Provincial Natural Science Foundation, Shandong Province Young and Middle-aged Scientists Award for Scientific Research, Heilongjiang Postdoctoral Science Foundation, Key Laboratory Open Fund of the Chinese Academy of Sciences, Open Fund of the State Oceanic Administration Key Laboratory, etc. And Marine Microbiology "excellent scientific innovation team.
The research results of this master's degree are
Published in Applied and Environmental Microbiology, Bioresour.Technol., Biochem. Eng. J., Biotechnol. Appl. Biochem, Microbiological Research, World J. Microbiol. Biotechnol, Acta OceanologicaSinica, Journal of Biotechnology, Journal of Microbiology, Marine Science, Polar Research, Fisheries science, industrial microorganisms and other important domestic and foreign publications.
This master's degree focuses on academic exchanges with domestic and foreign counterparts, and successfully organized the holding of "The7th International Symposium on Biocontrol and Biotechnology" in Weihai Campus, and participated in "The 9th International Marine Biotechnology Conference", "BIT World Congress of Industrial Biotechnology" , "The 5th International Medicinal Mushroom Conference", "The 9th International Conference on halophilic microorganisms" and other international academic conferences and "Chinese Society of Microbiology", "Chinese Fungal Society", "National Marine Biotechnology and Innovative Medicine Symposium" "," China Marine Medicine Academic Conference "and many other national conferences.
The master's degree is a two-year program and adopts a joint training model with the Harbin Institute of Municipal and Environmental Engineering, that is, the first academic year to complete the study of theoretical courses in Harbin, and the second academic year to complete the thesis opening, research, The whole process such as defense, etc., will be awarded the "Master of Science degree of Harbin Institute of Technology" after passing the qualification.
Faculty of Marine Science and Technology
Subject
tutor
job title
research direction
Wei Qifeng
professor
1. 1. Separate science and technology and comprehensive utilization of resources; 2. 2. New technology and basic theory of metal separation and extraction; 4. Electrochemical engineering; Green chemical processes and products.
Cao Lixin
professor
1. 1. Preparation and properties of high-energy chemical power electrode materials; 2. Preparation of functional materials by electrochemical deposition and chemical deposition, marine metal corrosion and protection; Electrochemical biosensor.
Han Jiajun
Associate Professor
Chemical power and marine anti-corrosion technology
Ren Xiulian
professor
1. 1. Separate science and technology and comprehensive utilization of resources; 2. 2. New technology and basic theory of metal separation and extraction; Synthesis of inorganic materials; 4. Green chemical processes and products.
Hu Huili
PhD
1. Green surface modification technologies, including environmental protection electroplating and (electric) chemical conversion coatings, coatings, etc. 2. Corrosion and protection technology, development of environment-friendly corrosion inhibitors, marine anticorrosive coatings and coatings, etc. 3 Electrochemical research methods.
Teng Xiangguo
Associate Professor
1. 1. Key materials of all-vanadium redox flow battery; 2. Key materials for lithium ion secondary batteries.
Dai Jicui
Associate Professor
1. Marine biogeochemistry; 2. Ecosystem assessment and management.
Zhu Yongming
Associate Professor
Mainly engaged in the research of materials electrochemistry, including solid materials ionology, chemical power and light metal electrochemical performance.
Liu Haiping
PhD
1. 1. Electroless plating, electroplating, metal corrosion and protection in marine environment; 2. 2. Light metal surface treatment (chemical plating, micro-arc oxidation, etc.); Preparation and modification of new battery materials.
Genetics
Zhang Zhizhou
professor
1. 1. Research on new technology of gene manipulation and its application in marine (biological) engineering; 2. Molecular basis of individualized nutrition for marine foods; molecular typing of gout; Research on the interaction between nanomaterials and genes (groups); 4. Food safety research on nanomaterials.
Xu Zhong
Associate Professor
Mainly engaged in plant genetic research. At the same time, it is involved in the fields of biomass energy, algae biotechnology, and environmental biotechnology.
1. 1. Food microorganisms and fermentation engineering, including research on fermentation mechanism of fermented products and research and development of functional fermentation products; The use of marine biological resources mainly includes the research and development of individualized marine foods to provide effective individualized nutrition programs for specific target groups.
Zhao Yan
Associate Professor
Marine biological active ingredients and other nutrition and food effective ingredients are used for the prevention and adjuvant treatment of diseases, focusing on the use of cell / molecular biology techniques to analyze how nutrition and food effective ingredients regulate gene expression and cell information transmission, thereby affecting the generation and development of diseases. Other research work / interests: Prevention and control of effective ingredients in nutrition and other diseases such as gout, obesity, etc .; single nucleotide polymorphisms and the incidence of gout and the role of dietary factors in it.
Chen Guofu
Associate Professor
1. Molecular biology of seaweed; 2. 2. Molecular ecology of marine microalgae; Important marine animal medicine and immune control.
microbiology
Yan Peisheng
professor
1. 1. Biological control of harmful microorganisms and biological pesticides; 2. Advanced fungal fermentation engineering and biopharmaceuticals; 3. Marine microbial resources and utilization; 4. 4. Microbial resource utilization of marine biomass waste; Immune biological control of marine animal diseases.
Wang Guangyu
Associate Professor
1. New theory and technology of nitrogen removal in marine circulating aquaculture wastewater treatment system. 1. Enriching heterotrophic denitrification strains by polyculture for rapid establishment and efficient operation of denitrification units in circulating aquaculture systems 2. Research and development and application mechanism of microecological preparations for mariculture; Research on the Recycling of Marine Organic Waste.
Li Weiguo
Associate Professor
Study on the treatment of halophilic bacteria and high-salt organic wastewater
Wu Guangfeng
Associate Professor
1. Airy proteomics; 2. 2. Fermentation production, separation and purification of new psychrophilic enzymes of marine microorganisms and their applications, including psychrophilic amylase, cellulase, etc .; 3. Development and utilization of antagonistic substances in marine psychrophiles. It includes research on the storage of rot-causing microbial inhibitors, resistance to marine aquaculture, and diseases of major cash crops; 4. Study on metallothionein in marine psychrophilic yeast; 5. Study on the degradation of pesticides by microorganisms and its degradation mechanism. At the same time, research on the adaptive mechanism of marine microbial environment, including adaptability to extreme environments such as low temperature, UV-B radiation, and high salt.
Ma Meirong
Associate Professor
1. Research on biological treatment of municipal solid waste and domestic sewage. Including the development of biological deodorant and the engineering application of deodorization of domestic garbage and domestic sewage. This technology has the characteristics of good processing effect, low processing cost and strong operability. 2. Research on metal surface anticorrosion. Including the study of anti-corrosion mechanism and anti-corrosion coating.
Wang Quanfu
Associate Professor
Mainly engaged in the development of active substances of extreme marine microorganisms and research on the adaptive mechanism of marine extreme microorganisms. Focus on the development of new low-temperature protease, low-temperature lipase and lysozyme enzyme products of marine microorganisms, including low-temperature enzyme isolation and purification technology, fermentation process, preparation and application technology of enzyme preparations, and cloning and expression of enzyme genes. Screening of natural antifouling active compounds, development of new and efficient non-toxic antifouling coatings; use of genomics and proteomics technology to carry out research on the adaptation mechanism of extreme marine microorganism environment.
Hou Yanhua
Associate Professor
1. 1. Marine actinomycetes natural products and molecular genetic manipulation; 2. 2. Marine microbial biopharmaceuticals; Using genomics and proteomics technology to carry out research on the environmental adaptation mechanism of extreme marine microorganisms.
Chen Lei
Associate Professor
Mainly engaged in the research and development of marine microbial resources and medicinal active substances. Isolation and screening of marine microbial drug-producing strains, isolation and structure determination of microbial drugs, establishment of microbial drug screening models, and research on the mechanism of active compounds Emphasis is placed on selecting microbial groups in extreme habitats, paying attention to their genetic diversity, discovering novel secondary metabolites, and providing new resources for innovative drug research.
Marine science
Gao Changlu
professor
1. 1. Environmentally friendly marine antifouling paint; 2. Basic and application research of medical polymer material-chitosan; Isomerized high-performance polyimide materials, basic and applied research, and development of low-cost polyimides.
Sun Xiuhua
professor
Develop a functional biochip that integrates multiple analytical functions for the screening of marine drugs; use electrochemical and fluorescent detection methods to realize the separation and quantification of protein samples on tiny chips.
Wu Yanchao
professor
1. Research on the total synthesis of marine natural products 2. Research on the structure modification and structure-activity relationship of marine natural products 3. Research on the synthesis of active ingredients in marine medicine, marine cosmetics, marine food and marine antifouling materials 4. Research on organic synthesis methodology .
Li Huijing
Associate Professor
1. Marine natural product isolation and analysis, structure identification, synthesis, structural modification and structure-activity relationship research 2. Marine synthetic methodological research related to the synthesis of marine natural product 3. R & D of high value-added APIs and intermediates and synthesis of patented drugs Process improvement 4. Research on new reactions and strategies for catalytic asymmetric organic synthesis 5. Research on metal-catalyzed new organic reactions.
