Ministry of Science and Technology: Guidelines for the Collection of 2013 Alternative Projects in the “Twelfth Five-Year†Materials Sector
In order to speed up the cultivation and development of strategic emerging industries of new materials and meet the urgent needs of the optimization and upgrading of major national projects and traditional industries, the Ministry of Science and Technology recently issued a guide for the collection of alternative projects in the material field in the “12th Five-Year Planâ€. details as follows:
First, the direction and content of the guide
1. Semiconductor lighting
1.1 High current drive thin film semiconductor lighting technology development (frontier technology category)
Focusing on improving the photoelectric performance and driving power reliability of LED under high current injection, it develops thin film LED epitaxial structure, chip preparation and packaging technology, high integration, long life LED driver chip and module research, breaking through the key technology of high current driving thin film LED.
1.2 “Ten Cities and Ten Thousands†Semiconductor Lighting Application Research and Demonstration (Frontier Technology)
Research system integration technologies such as semiconductor lighting application products and intelligent control, develop low-cost, high-reliability, and standardized LED lighting products, improve light extraction efficiency, heat dissipation capability and reliability of lamps, achieve mass production and scale application; form technical specifications and Standard; construction display experience center. [See the guidelines for reporting requirements (4)]
2. New display
2.1 Crystal Materials and High Performance Laser Engine Technology Research (Frontier Technology)
Research on polarized crystals such as lithium niobate and laser engine technology, and break through the key technologies of low cost, miniaturization, high efficiency and high reliability, and develop a variety of high performance laser engine products such as full laser and hybrid illumination. Mass production and scale application.
2.2 Mobile Internet Display Key Technology Research (Frontier Technology)
Develop high-performance mobile Internet display devices such as high-efficiency, high-resolution, and visual health for mobile Internet; break through key technologies such as device structure optimization design and material preparation; develop high-performance multi-touch technology to realize mobile Internet display mass production and Scale application.
3. New functions and smart materials
3.1 Advanced superconducting materials and their application technology (frontier technology)
Developed and applied critical superconducting materials for nuclear magnetic resonance, high-performance coated conductor strips, and superconducting current limiters and filters based on high-performance superconducting materials.
3.2 High-end organic fluorine material technology research and development (frontier technology category)
Development and implementation of preparation technology for hexafluoropropylene oxide and its derived special monomers, high/low temperature resistant fluorine rubber, fluorine-containing coating key resin, and coating grade polyvinylidene fluoride.
3.3 New special function key materials (frontier technology category)
Research on special functional materials such as UHV insulation materials, boron carbide-based protective materials, copper-clad aluminum conductor materials, porous ceramic/resin composite materials, etc., to achieve mass production and scale application.
3.4 New passive electronic devices and their key supporting materials (frontier technology)
Research and realize the application of high-performance surface acoustic wave filters, anti-counterfeit anti-transfer and anti-electromagnetic interference materials, ultra-fine metal conductors and high-end electronic aluminum foil.
3.5 New intelligent sensing and driving materials (frontier technology)
Develop new temperature sensitive, voltage sensitive, chemically sensitive and piezoelectric and magnetorheological fluid sensing and driving materials and devices to achieve applications in nuclear power, metallurgy, information, rapid intelligent detection and other fields.
4. Advanced structure and composite materials
4.1 New lightweight high-strength alloy (front-end technology)
Develop new high-quality light alloy materials, high-strength, toughness and corrosion-resistant iron-nickel-based special alloys, develop ultra-thin, large-scale, complex alloy structural parts, break through material cleanliness, homogenization, fine crystallization, metallurgical defect control, tissue control and precision Forming and preparation technology to achieve synergistic improvement of comprehensive performance of new alloys and industrial preparation and scale application.
4.2 High performance powder metallurgy materials (frontier technology)
Research on new low-cost iron-based powder metallurgy materials and high-performance titanium-based powder alloys and advanced preparation technologies to break through key technologies such as high-quality low-oxygen powder preparation, high-density powder metallurgy forming technology, strengthening and combined sintering, and precise thermal processing. Precise control of critical component size and density and stable preparation and scale application.
4.3 high performance metal matrix composites (frontier technology)
Develop metal matrix composite structural design and large component preparation and processing technology, break through reinforcement and matrix adaptation, advanced composite technology, heat treatment modification and component plastic forming and joining technology to improve the thermal strength and performance of materials to achieve composite materials Lightweight, high performance, multi-functionality and its stable preparation and scale application.
4.4 Layered Structure Advanced Composites (Front Edge Technology)
Research on various metals (aluminum, titanium, steel, etc.) and metal and non-metal composite layered structural materials, breaking through key technologies such as material composition design, structural compounding, processing synergistic deformation, interface adaptation, defect control, and plate shape precision control. To achieve mass production and scale application of high-performance, low-cost layered composite structural materials.
5. Electronic materials and devices
5.1 New ultra-high density and mobile storage key technologies (leading technology)
Conducted research on charge trap memory, phase change memory and resistive memory materials and devices. Charge trap memory and phase change memory have been used in mobile Internet, etc.; key technologies of resistive memory have achieved breakthroughs.
5.2 Optoelectronic integrated chip and its material key process technology (frontier technology category)
Conduct research on a variety of optoelectronic material integrated chips. A breakthrough in optoelectronic integrated chips based on a variety of materials, silicon-based multiple optoelectronic devices and microelectronic circuit monolithic integrated chips to achieve applications.
5.3 New and special fiber materials and application key technologies (frontier technology)
Master the preparation and application technology of new fiber and special fiber. New optical fibers and devices have been used in scale in optical transmission and optical sensing, and special optical fibers and devices have been used in large scale applications in medical and power fields.
6. Material design preparation and service safety
6.1 Multi-level cross-scale design and preparation of new technologies (leading technology)
Development materials multi-level cross-scale integrated design technology, life cycle design technology, and information and data support systems, research and development of special powder materials near-end molding, short-process efficient preparation and difficult processing of metal efficient forming and other new technologies, to achieve Design and precise preparation are required.
7. Application development and integration demonstration of functional materials
7.1 Functionalized Surfactant Green Preparation and Application Technology (Application Development and Integration Demonstration)
Develop special surfactants for extreme environmental resistance such as sulfonic acid, green concentrated new structure for daily chemical industry, bio-based surfactant and surfactant compatibility and clean production technology to achieve large-scale production and application.
7.2 Development and application demonstration of green leather chemical materials (application development and integration demonstration)
Develop technology for the production of green tannery auxiliaries, tinctures, finishing materials and new functional materials for shoes, reduce the production of pollutants such as sulfides and heavy metals, and establish industrial demonstration projects.
7.3 Textile cleaning and dyeing technology development (application development and integration demonstration class)
Develop textile fabrics such as wet short-steam printing and dyeing, foam dyeing finishing, disperse dye-free steaming printing, yarn cleaning and dyeing, and mineral composite printing and dyeing.
7.4 New generation of polycaprolactam (PA6) functional fiber materials (application development and integration demonstration)
Breaking through key technologies such as high-capacity PA6 high-efficiency continuous polymerization, functional PA6 flexible polymerization, functional PA6 fiber preparation and textile dyeing and finishing, a large-capacity PA6 continuous polymerization demonstration line was established to develop high-value-added functional PA6 fiber materials.
7.5 Development and Application of High Performance Special Glass (Application Development and Integration Demonstration)
Develop high-purity synthetic quartz glass, industrial glass-ceramics and other special glass production processes and research on high-corrosion refractory materials, and develop complete sets of high-performance special glass production technology to achieve scale application.
8. Application development and integration demonstration of structural materials
8.1 Key Technologies for Industrialization of High Performance Polyamide Engineering Plastics (Application Development and Integration Demonstration)
Carry out research on key technologies for synthesis and preparation of high temperature resistant and long carbon chain polyamide resins and polyamide special materials, and establish industrial demonstration equipment for polyamide resin and special materials to realize application in downstream industries.
8.2 New cement industrial low carbon production technology (application development and integration demonstration class)
Carry out research on mineral composition and hydration process of new cement clinker; develop cement clinker calcination technology and key equipment, significantly reduce carbon emissions and energy and resource consumption in the whole process of cement preparation, and the comprehensive performance of products is better than ordinary Portland cement To achieve low carbon production and scale application of new cement.
Second, the guide application requirements
(1) Years of implementation
According to the classification of the project, the cutting-edge technology research class is 3-5 years, and the application development and integration demonstration class is 3 years.
(2) Funding quota
In principle, the amount of funds allocated for cutting-edge technology research, application development and integration demonstration projects does not exceed 10 million yuan.
(3) Declaration of declaration
Each reporting unit may declare all or part of the research content in the direction of the secondary title of the guide (eg: 1.1). Among them, the application direction of mass production and scale application requirements in the frontier technology research category must be reported by the enterprise, and the application development and integration demonstration application directions must be led by the enterprise.
(IV) “Ten Cities and Ten Thousands†Semiconductor Lighting Application Research and Demonstration Direction Specific Requirements
For urban roads, tunnels, plazas, stations, parking lots, energy-saving buildings and other municipal lighting applications, carry out different types of semiconductor lighting features application demonstration, develop characteristic application-related technology development, support the "Ten Cities and Ten Thousands" semiconductor lighting pilot work . Specific requirements are as follows:
1. This direction is only for the application of 37 “Ten Cities and Ten Thousand Cities†pilot cities. Each pilot city is limited to one report (not occupying the provincial and municipal indicators), and is selected to support it;
2. The pilot city combined with the pilot work plan, proposed an application demonstration project for a typical municipal lighting application site research, and organized a research team that is closely integrated with production, learning, research and use.
3. The recommended project shall be jointly recommended by the provincial-level science and technology administrative department and the provincial-level housing and urban-rural construction administrative department, and the official recommendation letter shall be submitted to the Ministry before the online application deadline.
(5) Application for consultation
Materials Department of High Technology Research and Development Center of Ministry of Science and Technology:
Contact: Shi Dongmei Jiang Zhijun
Contact information, 68338919
First, the direction and content of the guide
1. Semiconductor lighting
1.1 High current drive thin film semiconductor lighting technology development (frontier technology category)
Focusing on improving the photoelectric performance and driving power reliability of LED under high current injection, it develops thin film LED epitaxial structure, chip preparation and packaging technology, high integration, long life LED driver chip and module research, breaking through the key technology of high current driving thin film LED.
1.2 “Ten Cities and Ten Thousands†Semiconductor Lighting Application Research and Demonstration (Frontier Technology)
Research system integration technologies such as semiconductor lighting application products and intelligent control, develop low-cost, high-reliability, and standardized LED lighting products, improve light extraction efficiency, heat dissipation capability and reliability of lamps, achieve mass production and scale application; form technical specifications and Standard; construction display experience center. [See the guidelines for reporting requirements (4)]
2. New display
2.1 Crystal Materials and High Performance Laser Engine Technology Research (Frontier Technology)
Research on polarized crystals such as lithium niobate and laser engine technology, and break through the key technologies of low cost, miniaturization, high efficiency and high reliability, and develop a variety of high performance laser engine products such as full laser and hybrid illumination. Mass production and scale application.
2.2 Mobile Internet Display Key Technology Research (Frontier Technology)
Develop high-performance mobile Internet display devices such as high-efficiency, high-resolution, and visual health for mobile Internet; break through key technologies such as device structure optimization design and material preparation; develop high-performance multi-touch technology to realize mobile Internet display mass production and Scale application.
3. New functions and smart materials
3.1 Advanced superconducting materials and their application technology (frontier technology)
Developed and applied critical superconducting materials for nuclear magnetic resonance, high-performance coated conductor strips, and superconducting current limiters and filters based on high-performance superconducting materials.
3.2 High-end organic fluorine material technology research and development (frontier technology category)
Development and implementation of preparation technology for hexafluoropropylene oxide and its derived special monomers, high/low temperature resistant fluorine rubber, fluorine-containing coating key resin, and coating grade polyvinylidene fluoride.
3.3 New special function key materials (frontier technology category)
Research on special functional materials such as UHV insulation materials, boron carbide-based protective materials, copper-clad aluminum conductor materials, porous ceramic/resin composite materials, etc., to achieve mass production and scale application.
3.4 New passive electronic devices and their key supporting materials (frontier technology)
Research and realize the application of high-performance surface acoustic wave filters, anti-counterfeit anti-transfer and anti-electromagnetic interference materials, ultra-fine metal conductors and high-end electronic aluminum foil.
3.5 New intelligent sensing and driving materials (frontier technology)
Develop new temperature sensitive, voltage sensitive, chemically sensitive and piezoelectric and magnetorheological fluid sensing and driving materials and devices to achieve applications in nuclear power, metallurgy, information, rapid intelligent detection and other fields.
4. Advanced structure and composite materials
4.1 New lightweight high-strength alloy (front-end technology)
Develop new high-quality light alloy materials, high-strength, toughness and corrosion-resistant iron-nickel-based special alloys, develop ultra-thin, large-scale, complex alloy structural parts, break through material cleanliness, homogenization, fine crystallization, metallurgical defect control, tissue control and precision Forming and preparation technology to achieve synergistic improvement of comprehensive performance of new alloys and industrial preparation and scale application.
4.2 High performance powder metallurgy materials (frontier technology)
Research on new low-cost iron-based powder metallurgy materials and high-performance titanium-based powder alloys and advanced preparation technologies to break through key technologies such as high-quality low-oxygen powder preparation, high-density powder metallurgy forming technology, strengthening and combined sintering, and precise thermal processing. Precise control of critical component size and density and stable preparation and scale application.
4.3 high performance metal matrix composites (frontier technology)
Develop metal matrix composite structural design and large component preparation and processing technology, break through reinforcement and matrix adaptation, advanced composite technology, heat treatment modification and component plastic forming and joining technology to improve the thermal strength and performance of materials to achieve composite materials Lightweight, high performance, multi-functionality and its stable preparation and scale application.
4.4 Layered Structure Advanced Composites (Front Edge Technology)
Research on various metals (aluminum, titanium, steel, etc.) and metal and non-metal composite layered structural materials, breaking through key technologies such as material composition design, structural compounding, processing synergistic deformation, interface adaptation, defect control, and plate shape precision control. To achieve mass production and scale application of high-performance, low-cost layered composite structural materials.
5. Electronic materials and devices
5.1 New ultra-high density and mobile storage key technologies (leading technology)
Conducted research on charge trap memory, phase change memory and resistive memory materials and devices. Charge trap memory and phase change memory have been used in mobile Internet, etc.; key technologies of resistive memory have achieved breakthroughs.
5.2 Optoelectronic integrated chip and its material key process technology (frontier technology category)
Conduct research on a variety of optoelectronic material integrated chips. A breakthrough in optoelectronic integrated chips based on a variety of materials, silicon-based multiple optoelectronic devices and microelectronic circuit monolithic integrated chips to achieve applications.
5.3 New and special fiber materials and application key technologies (frontier technology)
Master the preparation and application technology of new fiber and special fiber. New optical fibers and devices have been used in scale in optical transmission and optical sensing, and special optical fibers and devices have been used in large scale applications in medical and power fields.
6. Material design preparation and service safety
6.1 Multi-level cross-scale design and preparation of new technologies (leading technology)
Development materials multi-level cross-scale integrated design technology, life cycle design technology, and information and data support systems, research and development of special powder materials near-end molding, short-process efficient preparation and difficult processing of metal efficient forming and other new technologies, to achieve Design and precise preparation are required.
7. Application development and integration demonstration of functional materials
7.1 Functionalized Surfactant Green Preparation and Application Technology (Application Development and Integration Demonstration)
Develop special surfactants for extreme environmental resistance such as sulfonic acid, green concentrated new structure for daily chemical industry, bio-based surfactant and surfactant compatibility and clean production technology to achieve large-scale production and application.
7.2 Development and application demonstration of green leather chemical materials (application development and integration demonstration)
Develop technology for the production of green tannery auxiliaries, tinctures, finishing materials and new functional materials for shoes, reduce the production of pollutants such as sulfides and heavy metals, and establish industrial demonstration projects.
7.3 Textile cleaning and dyeing technology development (application development and integration demonstration class)
Develop textile fabrics such as wet short-steam printing and dyeing, foam dyeing finishing, disperse dye-free steaming printing, yarn cleaning and dyeing, and mineral composite printing and dyeing.
7.4 New generation of polycaprolactam (PA6) functional fiber materials (application development and integration demonstration)
Breaking through key technologies such as high-capacity PA6 high-efficiency continuous polymerization, functional PA6 flexible polymerization, functional PA6 fiber preparation and textile dyeing and finishing, a large-capacity PA6 continuous polymerization demonstration line was established to develop high-value-added functional PA6 fiber materials.
7.5 Development and Application of High Performance Special Glass (Application Development and Integration Demonstration)
Develop high-purity synthetic quartz glass, industrial glass-ceramics and other special glass production processes and research on high-corrosion refractory materials, and develop complete sets of high-performance special glass production technology to achieve scale application.
8. Application development and integration demonstration of structural materials
8.1 Key Technologies for Industrialization of High Performance Polyamide Engineering Plastics (Application Development and Integration Demonstration)
Carry out research on key technologies for synthesis and preparation of high temperature resistant and long carbon chain polyamide resins and polyamide special materials, and establish industrial demonstration equipment for polyamide resin and special materials to realize application in downstream industries.
8.2 New cement industrial low carbon production technology (application development and integration demonstration class)
Carry out research on mineral composition and hydration process of new cement clinker; develop cement clinker calcination technology and key equipment, significantly reduce carbon emissions and energy and resource consumption in the whole process of cement preparation, and the comprehensive performance of products is better than ordinary Portland cement To achieve low carbon production and scale application of new cement.
Second, the guide application requirements
(1) Years of implementation
According to the classification of the project, the cutting-edge technology research class is 3-5 years, and the application development and integration demonstration class is 3 years.
(2) Funding quota
In principle, the amount of funds allocated for cutting-edge technology research, application development and integration demonstration projects does not exceed 10 million yuan.
(3) Declaration of declaration
Each reporting unit may declare all or part of the research content in the direction of the secondary title of the guide (eg: 1.1). Among them, the application direction of mass production and scale application requirements in the frontier technology research category must be reported by the enterprise, and the application development and integration demonstration application directions must be led by the enterprise.
(IV) “Ten Cities and Ten Thousands†Semiconductor Lighting Application Research and Demonstration Direction Specific Requirements
For urban roads, tunnels, plazas, stations, parking lots, energy-saving buildings and other municipal lighting applications, carry out different types of semiconductor lighting features application demonstration, develop characteristic application-related technology development, support the "Ten Cities and Ten Thousands" semiconductor lighting pilot work . Specific requirements are as follows:
1. This direction is only for the application of 37 “Ten Cities and Ten Thousand Cities†pilot cities. Each pilot city is limited to one report (not occupying the provincial and municipal indicators), and is selected to support it;
2. The pilot city combined with the pilot work plan, proposed an application demonstration project for a typical municipal lighting application site research, and organized a research team that is closely integrated with production, learning, research and use.
3. The recommended project shall be jointly recommended by the provincial-level science and technology administrative department and the provincial-level housing and urban-rural construction administrative department, and the official recommendation letter shall be submitted to the Ministry before the online application deadline.
(5) Application for consultation
Materials Department of High Technology Research and Development Center of Ministry of Science and Technology:
Contact: Shi Dongmei Jiang Zhijun
Contact information, 68338919
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