New material+

Focusing on the needs posed in the development of strategic emerging industries, development and research are launched in the low-dimensional nanomaterials, functional films and coating materials, electronic materials, battery materials, and polymer-based hybrid materials. Through platform-based incubation and cultivation, industrial integration, research achievements are industrialized.
Highly
Dispersible
Nanomaterials
Key Materials
for Lithium
Batteries
Multi-functional
Inorganic Particles
and Hybrid
Technology
Functional
Ceramic
Materials
Polymer-based
Composite
Materials

Highly dispersible nanomaterials

Through the development of technologies such as controllable synthesis, purification, dispersion and stabilization and applications, a series of nanoparticles and their dispersion integrated with multiple functions such as visible light transmission, ultraviolet infrared shielding, high refractive index, wear resistance, corrosion resistance, etc. are now able to be prepared.

Key materials for lithium batteries

Based on controllable nanoparticles, nano-cladding materials for high-voltage cathode materials, reinforced coating materials for high-safety separators, and large-capacity silicon-carbon anode materials have been developed. These products are used in high capacity dense lithium ion batteries.

Multi-functional Inorganic Particles and Hybrid Technology

Based on multi-functional inorganic particles and hybrid technology, organic and inorganic hybrid materials integrating multi-functionality, such as corrosion-resistant and easy-to-clean water-based coating materials applied to aluminum alloy surfaces, and energy-saving coatings for constructions and so on. These products are applied to high-speed railway stations, subway stations, airports, etc., which are supportive for the landing of projects of national science and technological achievements.

Functional ceramic materials

Based on powder technology, slurry dispersion stabilization technology, a series of functional ceramic materials are developed, such as nano zinc oxide resistors, high thermal conductivity aluminum nitride ceramic sheets, etc., which are applied to arresters, heat resistant circuit boards, etc.

Polymer-based composite materials

Based on resin design and synthesis technology, as well as surface modification and dispersion technology of functional powders, a series of multifunctional composite materials are prepared. For example, high mechanical strength engineering plastics, flame retardant plastics, spray-free plastics, porcelain silicone rubber, high thermal conductivity plastics, etc.

Ecological health+

Development is important, environmental priority

Focusing on the needs of ecology, environment and sustainable development, we focus on the utilization of solid waste resources, the degradation of volatile organic pollutants, the treatment of dust treatment, the research and development of green ecological materials and technologies, and the docking of people's livelihood and industrial needs to serve the society with scientific and technological achievements.

Green production technology

Based on water-based technology, water-based multi-functional coating materials have been developed to reduce pollutant emissions during production; UV-curable multi-functional coating materials have been developed, and non-solvent systems have been used to achieve hydrophobic and oleophobic functional coating materials and film formation.

Solid waste resource utilization technology

Natural nanocrystalline cellulose extraction technology has been developed, which can extract high value-added nanocrystalline cellulose from a variety of plant sources such as wood, bamboo, straw, etc., and can be applied to photoelectric films, anti-counterfeiting packaging, insulating packaging and other fields. The technology for preparing calcium sulfate whiskers from desulfurized gypsum in coal-fired power plants has been developed. This material enhances the mechanical properties of the polymer.

Environmental managing materials and technologies

Based on the design of high-efficiency catalysts, a low-temperature denitrification catalyst has been developed, which can be applied to the treatment of combustion gas in fossil fuels of power plants and boilers. Based on atmospheric plasma technology, we have developed an efficient organic volatiles treating technology that utilizes a modular design to achieve a flexible combination. Based on a variety of technologies, low-cost collection and management of dust have been realized.

AI+

Optimize city services and improve quality of life

To satisfy the needs of smart city construction, traditional industrial upgrading, and emerging industry development, we focus on the development of intelligent transportation, intelligent control system integration and new products, intelligent agricultural machinery control technology, special robots, sensor components, 3D vision systems and products.

Intelligent equipment
development
Smart city bus operation
and bus information service
Intelligent equipment development

Intelligent equipment development. The equipment mainly includes intelligent agricultural machinery, automobile detection special robot system, 3D sensing laser film groups, hotel managing robots, intensive centralized managing systems, flexible automatic production lines, etc., to promote the industrialization of technological achievements.

Smart city bus operation and bus information service. In response to the problems encountered in the various aspects of the bus operation dispatch management process, the bus network, the line and the node planning are changed to meet the needs of the public for the release of public information. Intelligent vehicle based terminals, bus intelligent dispatching system, comprehensive bus trip information releasing system, bus electronic stop sign construction and smart bus service evaluation system have been constructed. We have won the special award of 2016 Shanghai Science and Technology Progress Award.

Smart city bus operation and bus information service

Global Cooperation+

Considering the key industry planning and researchers’ platform construction of Jiaxing City and Jiaxing Science and Technology City, importance has been attached to the cutting-edge new materials, advanced battery materials, semiconductor technology, micro-nano processing technology, and technical value evaluation, etc., and, collaborations have been strengthened with well-known scientists and teams from Sweden, Austria, South Korea and so on.

Conducting cutting-edge research with well-known teams and scientists. Relying on the "National Science and Technology Cooperation Demonstration Base for Nanocomposite Functional Materials", with the support of the first-class discipline construction of Shanghai University, close ties have been established with researchers from the United Kingdom, Sweden, Denmark, Austria, Finland, the United States, Canada, Japan, South Korea, Thailand, and Belarus. For example, we have established a joint laboratory with Uppsala University in Sweden. We jointly undertakes the NSFC-VR project. We also jointly undertakes the EU’s Marie Curie project with the Danish Technical University. We jointly sponsor the SHU-FFG joint research and development project with Austria. We have also established joint laboratories with Sejong University, Sungkyunkwan University, and Busan University of South Korea.
Industrialization of technological achievements. We have established a platform for the transfer and transformation of scientific and technological achievements between China and South Korea, and established close cooperation with the National University of Busan, Sungkyunkwan University, Sejong University's Achievement Transfer and Transformation Center and University Science Park, as well as the National Center for Creative Economic Innovation and the Expertise Trading Platform. Excellent technological achievements are screened out to be incubated and industrialized in China.

New material+

Focusing on the needs posed in the development of strategic emerging industries, development and research are launched in the low-dimensional nanomaterials, functional films and coating materials, electronic materials, battery materials, and polymer-based hybrid materials. Through platform-based incubation and cultivation, industrial integration, research achievements are industrialized.

Highly dispersible nanomaterials

Through the development of technologies such as controllable synthesis, purification, dispersion and stabilization and applications, a series of nanoparticles and their dispersion integrated with multiple functions such as visible light transmission, ultraviolet infrared shielding, high refractive index, wear resistance, corrosion resistance, etc. are now able to be prepared.

Key materials for lithium batteries

Based on controllable nanoparticles, nano-cladding materials for high-voltage cathode materials, reinforced coating materials for high-safety separators, and large-capacity silicon-carbon anode materials have been developed. These products are used in high capacity dense lithium ion batteries.

Multi-functional Inorganic Particles and Hybrid Technology

Based on multi-functional inorganic particles and hybrid technology, organic and inorganic hybrid materials integrating multi-functionality, such as corrosion-resistant and easy-to-clean water-based coating materials applied to aluminum alloy surfaces, and energy-saving coatings for constructions and so on. These products are applied to high-speed railway stations, subway stations, airports, etc., which are supportive for the landing of projects of national science and technological achievements.

Functional ceramic materials

Based on powder technology, slurry dispersion stabilization technology, a series of functional ceramic materials are developed, such as nano zinc oxide resistors, high thermal conductivity aluminum nitride ceramic sheets, etc., which are applied to arresters, heat resistant circuit boards, etc.

Polymer-based composite materials

Based on resin design and synthesis technology, as well as surface modification and dispersion technology of functional powders, a series of multifunctional composite materials are prepared. For example, high mechanical strength engineering plastics, flame retardant plastics, spray-free plastics, porcelain silicone rubber, high thermal conductivity plastics, etc.

Ecological health+

Focusing on the needs of ecology, environment and sustainable development, we focus on the utilization of solid waste resources, the degradation of volatile organic pollutants, the treatment of dust treatment, the research and development of green ecological materials and technologies, and the docking of people's livelihood and industrial needs to serve the society with scientific and technological achievements.

Green production technology

Based on water-based technology, water-based multi-functional coating materials have been developed to reduce pollutant emissions during production; UV-curable multi-functional coating materials have been developed, and non-solvent systems have been used to achieve hydrophobic and oleophobic functional coating materials and film formation.

Solid waste resource utilization technology

Natural nanocrystalline cellulose extraction technology has been developed, which can extract high value-added nanocrystalline cellulose from a variety of plant sources such as wood, bamboo, straw, etc., and can be applied to photoelectric films, anti-counterfeiting packaging, insulating packaging and other fields. The technology for preparing calcium sulfate whiskers from desulfurized gypsum in coal-fired power plants has been developed. This material enhances the mechanical properties of the polymer.

Environmental managing materials and technologies

Based on the design of high-efficiency catalysts, a low-temperature denitrification catalyst has been developed, which can be applied to the treatment of combustion gas in fossil fuels of power plants and boilers. Based on atmospheric plasma technology, we have developed an efficient organic volatiles treating technology that utilizes a modular design to achieve a flexible combination. Based on a variety of technologies, low-cost collection and management of dust have been realized.

AI+

To satisfy the needs of smart city construction, traditional industrial upgrading, and emerging industry development, we focus on the development of intelligent transportation, intelligent control system integration and new products, intelligent agricultural machinery control technology, special robots, sensor components, 3D vision systems and products.

The equipment mainly includes intelligent agricultural machinery, automobile detection special robot system, 3D sensing laser film groups, hotel managing robots, intensive centralized managing systems, flexible automatic production lines, etc., to promote the industrialization of technological achievements.

In response to the problems encountered in the various aspects of the bus operation dispatch management process, the bus network, the line and the node planning are changed to meet the needs of the public for the release of public information. Intelligent vehicle based terminals, bus intelligent dispatching system, comprehensive bus trip information releasing system, bus electronic stop sign construction and smart bus service evaluation system have been constructed. We have won the special award of 2016 Shanghai Science and Technology Progress Award.

Global cooperation+

Considering the key industry planning and researchers’ platform construction of Jiaxing City and Jiaxing Science and Technology City, importance has been attached to the cutting-edge new materials, advanced battery materials, semiconductor technology, micro-nano processing technology, and technical value evaluation, etc., and, collaborations have been strengthened with well-known scientists and teams from Sweden, Austria, South Korea and so on.

Relying on the "National Science and Technology Cooperation Demonstration Base for Nanocomposite Functional Materials", with the support of the first-class discipline construction of Shanghai University, close ties have been established with researchers from the United Kingdom, Sweden, Denmark, Austria, Finland, the United States, Canada, Japan, South Korea, Thailand, and Belarus. For example, we have established a joint laboratory with Uppsala University in Sweden. We jointly undertakes the NSFC-VR project. We also jointly undertakes the EU’s Marie Curie project with the Danish Technical University. We jointly sponsor the SHU-FFG joint research and development project with Austria. We have also established joint laboratories with Sejong University, Sungkyunkwan University, and Busan University of South Korea.

We have established a platform for the transfer and transformation of scientific and technological achievements between China and South Korea, and established close cooperation with the National University of Busan, Sungkyunkwan University, Sejong University's Achievement Transfer and Transformation Center and University Science Park, as well as the National Center for Creative Economic Innovation and the Expertise Trading Platform. Excellent technological achievements are screened out to be incubated and industrialized in China.

0573-83116608
tangling@shueii.cn

Building 16, #906 yatai road, nanhu district, jiaxing, zhejinag, china
Copyright © Shanghai University ICP No 18016979 Shanghai
Copyright © Copyright © Shanghai University ICP No 18016979 Shanghai