February 17, the Ministry of Industry and Information Technology and other eight departments on the issuance of "new energy storage manufacturing high-quality development action plan" notice, the notice pointed out that the promotion of "photovoltaic + energy storage" system in the city lighting, traffic signals, agriculture and rural areas, public broadcasting, "intelligent carport "and other public infrastructure integration and application, encourage the construction of micro off-grid energy storage system.
The original text follows:
Ministry of Industry and Information Technology and other eight departments on the issuance of the new energy storageservice industryof the Action Program for Quality Development
MIIT United Electronics [2025] No. 7
Provinces, autonomous regions, municipalities directly under the Central Government, Xinjiang Production and Construction Corps industry and information technology departments, Development and Reform Commission, commerce authorities, Department of Education (Education Commission, Bureau), Market Supervision Bureau (Office, Commission), Intellectual Property Office, Energy Bureau, Fire and Rescue General Bureau:
New energy storage manufacturing high-quality development action program" is issued to you, please combine with the actual and conscientious implementation.
Ministry of Industry and Information Technology (MIIT)
PRC National Development and Reform Commission
Ministry of Education
Department of Commerce
PRC State Administration of Market Supervision (SACM)
State Intellectual Property Office
National Energy Administration (NEA)
National Fire and Rescue Administration (NFRDA)
February 10, 2025
Action Program for High-Quality Development of New Energy Storage Manufacturing Industry
New energy storage manufacturing industry is for the new energy storage to provide energy storage, information processing, safety control and other products of the manufacturing industry in general, with new batteries and other energy storage products and all kinds of new energy storage technology as the main field, also includes power management chips, power electronics, thermal management and energy control systems and other links. New energy storage manufacturing industry as an emerging field of electronic information manufacturing industry, is an important part of the modernization of the industrial system, but also to accelerate the construction of manufacturing power, promote the efficient development and utilization of new energy support. In order to build a new generation of information technology and new energy and other growth engines, to promote the high-quality development of new energy storage manufacturing industry, the development of this action program.
I. General requirements
Guided by Xi Jinping's thought of socialism with Chinese characteristics in the new era, comprehensively implement the spirit of the 20th CPC National Congress and the 2nd and 3rd Plenary Sessions of the 20th CPC Central Committee, fully, accurately and comprehensively carry out the new development concept, accelerate the construction of a new development pattern, and solidly promote the high-quality development of the new energy storage manufacturing industry, organically combine the deepening of the structural reform of the supply side of the new energy storage industry with the expansion of domestic demand, coordinate the high-quality development and the high level of security, and promote the Integration of scientific and technological innovation and industrial innovation, to provide powerful kinetic energy for the construction of modernized industrial system and new energy system.
Adhere to the combination of an effective market and a competent government, improve the industrial policy system, innovate the way of industry management, accelerate the construction of a unified national market, and form a development pattern that integrates the overall situation, coordinates all parties and complements each other. Adhere to the combination of effective supply and expanding demand, promote diversified development according to local conditions, reduce low-level repeated construction, improve resource allocation and utilization efficiency, and release the development potential of new energy storage market. Adhere to the consolidation of advantages combined with innovation, consolidate the key technologies of new energy storage, application ecology and other advantages, strengthen subversive technological innovation and key common technology development, promote the transformation of scientific and technological achievements, and build up the momentum of innovation and development. Adhere to the combination of self-centeredness and international cooperation, promote high-level scientific and technological self-reliance and self-improvement, ensure the security and stability of the industrial chain supply chain, actively participate in international cooperation, and deeply integrate into the development pattern of global new energy industry with a higher level of openness.
By 2027, China's new energy storage manufacturing industry, the whole chain of international competitive advantage, advantageous enterprise echelon further growth, industrial innovation and comprehensive competitiveness significantly improve, to achieve high-end, intelligent, green development.
--Industrial system accelerates improvement. The scale of new energy storage manufacturing industry and downstream demand are basically matched, and 3-5 eco-dominant enterprises are cultivated. The pattern of industrial main body concentration and regional agglomeration is basically formed, and the industrial clusters and ecological system are constantly improved. The resilience of the industrial chain supply chain is significantly enhanced, and the standard system and market mechanism are more sound.
--Product performance has been significantly enhanced. The supply capacity of new energy storage products and technologies that are highly safe, highly reliable, highly energy-efficient, long-lived and economically viable has been continuously enhanced, and the energy conversion efficiency of new energy storage systems has been significantly improved. Thermal abuse and overcharging will not catch fire or explode, and the level of full life cycle safety will be accelerated.
--The field of application continues to expand. The diversified level of new energy storage products and technologies has been further improved to better meet the needs of electric power, industry, energy, transportation, construction, communications, agriculture and other fields of application, and to provide a solid material guarantee for the promotion of the energy revolution and the realization of carbon peak and carbon neutrality.
II. Implementation of new energy storage technology innovation actions
(i) Development of diversified new energy storage body technologies
Facing the needs of multiple time scales and application scenarios, such as short- and medium-time and long-time power storage, accelerating the diversified development of new energy storage ontology technologies, and improving the safety, reliability, economic feasibility and energy conversion efficiency of new energy storage products and technologies. Accelerate the iterative upgrading of mature technologies such as lithium batteries, support subversive technological innovation, and enhance the supply capacity of high-end products. Promote the engineering and application of super capacitors, lead-carbon batteries, sodium batteries, liquid current batteries and other technology research. Develop compressed air and other long-time energy storage technologies, and accelerate the improvement of technical economy and system energy conversion efficiency. Moderately ahead of the layout of hydrogen energy storage and other ultra-long-time energy storage technology, encourage the development of multi-type hybrid energy storage technology in conjunction with the application needs, and support the new system of batteries, smart batteries, heat and cold storage and new physical energy storage and other forward-looking technologies, such as basic research.
Column 1 New energy storage body products and technologies
Lithium battery. Facing the demand of new energy storage applications, we will accelerate the research on long-life and high-capacity advanced active material technology, high-efficiency lithium replenishment technology, develop high-value-added auxiliary material products, and focus on the layout of large-capacity and high-safety energy storage batteries, high-power batteries, full-life-cycle high-efficiency batteries, solid-state batteries for energy storage, all-climate low-fatigue and long-life batteries, high-consistency battery systems, and other advanced energy storage-type lithium battery products.
Sodium battery. Research and development of high-performance hard carbon, screened carbon and other anode materials and high-capacity cathode materials, focusing on the development direction of long-life, high specific energy, wide temperature range and high power, and promoting large-scale sodium battery energy storage system integration and application technology research and development to serve the construction of a new type of electric power system.
Liquid-flow battery. Carry out technological research on key materials such as liquid battery stacks, bipolar plates, electrolyte, ion exchange membranes, etc., and improve the energy efficiency, system reliability, and life cycle economy of liquid batteries.
Supercapacitor. Support the technological innovation of new materials such as high-voltage electrolyte, highly conductive graphene, high-performance diaphragm, etc., and carry out technological research on high-energy-density electrode materials, electrode preparation, and high-efficiency pre-embedded lithium, etc., so as to develop supercapacitors with high specific energy, high safety, and long lifespan.
Lead-carbon batteries. Carry out technological research on new composite material grids, highly conductive porous carbon materials, etc., and support the research and development of lead-carbon battery products with low lead content, high specific energy and long life.
Flywheel energy storage. Enhance bearing reliability and load carrying capacity under high speed rotating environment, breakthrough in high strength, low density and long life rotor material technology.
Compressed air energy storage. Research and development of high-flow and high-efficiency compressors, enhancement of the supply capacity of large-expansion-ratio and high-reliability turbine-expanders, layout of large-capacity and high-sealing gas storage facilities, high-efficiency heat-storage equipment, and high-efficiency heat exchangers of low-resistance of new work materials, so as to improve the efficiency of energy conversion.
Other technologies. Prospective layout development of water-based zinc ion batteries, water-based iron-nickel batteries, magnesium ion batteries, molten salt aluminum batteries, nickel-metal hydride batteries and other new systems of electrochemical energy storage technology. Promote heat storage, cold storage and other new physical energy storage technology and equipment research and development and industrialization breakthroughs.
(ii) Breakthroughs in high-efficiency integration and intelligent control technologies
Promote the in-depth integration of new energy storage with new-generation information technology, realize the efficient integration and precise regulation of energy storage systems through the economic configuration of system energy flow and information flow, optimal operation of functions, and effective articulation of logics, and improve the level of intelligence of new energy storage products. Focus on system structure design, refined battery management, high-efficiency thermal management and energy management, auxiliary equipment integration, high-performance prefabricated cabin and other technologies to carry out focused research and improve the supply capacity of key core devices and components such as advanced power semiconductors, intelligent sensors, power management chips, high-power and high-efficiency converters. Facing the demand for large-scale new energy consumption and source-network-load-storage integration, the company will promote technological innovations such as cooperative control of new energy storage clusters and distributed energy storage aggregation control.
Column 2 High-efficiency System Integration and Intelligent Control Products and Technologies
Advanced structural design. Support the modularized development of energy storage batteries, encourage high-efficiency structural innovation, develop compact and reliable low-impedance and high-efficiency connection technologies, promote intelligent string, high-voltage direct current and other integrated technological innovations, and improve the integration efficiency of large-scale energy storage systems.
Refined battery management. Develop system-level active equalization technology, and explore efficient and high-precision management technology for advanced energy storage systems based on end-to-end cloud architecture. Carry out research on high-precision intelligent sensing technologies for large-scale energy storage systems, and develop functional safety and information security design and assessment technologies applicable to energy storage battery management systems.
High-performance converter. Facing the demand for high voltage applications above 1500V, carry out research on high-voltage cascade technology with high energy efficiency and high energy utilization rate. Breakthroughs in converter overload capacity support technology for extreme working conditions, efficient switching technology for network construction and network control, accelerating the development of integrated design technology for battery management system, converter control system and equipment-level energy management system, and improving the active and reactive power support capacity of new energy storage power stations.
Efficient thermal management. Focusing on improving the perception and prediction accuracy of the thermal performance of batteries, we will research and develop a variety of highly efficient and advanced thermal management technologies, such as liquid cooling, phase change material cooling, heat pipe cooling, etc., and make breakthroughs in the design of thermal management structures that are compact in structure and have excellent thermal conductivity.
Intelligent energy management. Breakthroughs in dispatch strategy optimization technology based on multiple modes such as command tracking and smoothing output, as well as multi-equipment cooperative optimization control and network structure control technology. Develop energy storage regulation capacity evaluation and intelligent dispatch decision-making system. Construct a distributed energy storage resources cooperative aggregation regulation and control platform for the comprehensive application of regional power grids.
High-performance devices and prefabricated modules. R&D of miniaturized high-precision and high-reliability intelligent sensors for new energy storage systems, high-temperature and high-voltage resistant and low-loss IGBT devices, and support for the research and development of new power electronic devices and key technologies for drive control and standardized and high-strength prefabricated modules.
(iii) Tackling life-cycle multidimensional security technologies
Focusing on the whole life cycle of new energy storage system production and manufacturing, operation and maintenance, and recycling, build a multi-dimensional technical system of intrinsic safety, active warning, efficient protection, and safe application. Strengthen research on thermal runaway and combustion and explosion failure mechanisms of new energy storage technologies, break through the intrinsic safety and control technologies of energy storage batteries, and support the development of new energy storage safety early warning technologies based on digital twin and artificial intelligence technologies. Carry out research on the mechanism of heat spreading of diversified new energy storage technologies, promote multi-scale fire-fighting technological innovation of new energy storage units, systems and power stations, and realize accurate fire-fighting at the battery module level. Accelerate the popularization and application of new energy storage product health state online assessment and other technologies, and explore the establishment of a new energy storage product safety grading evaluation technology system.
Column 3 Life Cycle Multi-Dimensional Security Products and Technologies
Intrinsic safety technology. Focusing on improving the environmental adaptability and thermal stability of energy storage batteries, develop advanced and highly safe materials such as strong heat-stable anode and low expansion anode materials, high-strength high-temperature-resistant diaphragms, temperature-sensitive flame-retardant materials, breakthroughs in the safety technology of the whole lifecycle of pressure vessels, and support the development of lithium batteries and sodium batteries in solid state to improve intrinsic safety performance.
Active safety warning technology. Develop intelligent sensors based on voltage, temperature, charge state, rate of change and other key parameters of operation, and combine them with advanced algorithms to develop high-precision energy storage system safety fault prediction and diagnosis technology, energy storage battery thermal runaway early warning technology, energy storage battery state and residual value assessment technology and related verification technology.
Efficient safety protection technology. Focusing on the goal of heat spread suppression, we develop highly efficient and clean anti-reflammation extinguishing media, heat conduction blocking technology between monomers and modules, and highly efficient and environmentally friendly cooling and fire extinguishing equipment.
Safety performance assessment technology. Enhance the optimization technology of new energy storage system and hierarchical safety management, research and development of full working condition simulation and safety and reliability test technology, intelligent assessment technology of the safety posture of the whole life cycle of new energy storage system, and accelerated aging test technology of new energy storage products.
III. Implementation of actions to promote synergistic industrial development
(iv) Scientific planning of industrial layout
Strengthen the lithium battery and other production capacity monitoring and early warning to prevent blind investment and disorderly development risks. Organize strategic research on the development of new energy storage manufacturing industry, guide enterprises to grasp the pace of development, combined with the industrial base in the region, market demand, etc., to reasonably formulate industrial development goals, and orderly deployment of industrial scale. Guide energy storage battery and key material enterprises to gather in regions with abundant renewable energy, sufficient mineral resources, convenient transportation conditions, perfect infrastructure and rich application scenarios. Support the Yangtze River Delta, Beijing-Tianjin-Hebei, Guangdong-Hong Kong-Macao Greater Bay Area, Chengdu-Chongqing region, Hubao-Eqiao region, cross-strait integrated development demonstration zone and other places to focus on new energy storage, cultivate the development of advanced manufacturing clusters, and accelerate the construction of a strategically led, innovation-driven and professionally empowered industrial development pattern.
(v) Guiding the optimization of supply and demand
Focusing on scientific and orderly expansion of effective demand, conforming to the development trend of the new power system, combining the utilization of new energy consumption and power system safety, reliability, economic rationality and other factors, systematically determining the demand for new types of energy storage, and promoting the realization of demand-driven supply, supply guarantee and the creation of demand for the development of efficient linkage. Guide the upstream and downstream to stabilize expectations, improve the supporting system, support the upstream and downstream industry chain enterprises to strengthen the supply and demand docking, and promote the formation of industry chain integration and development of synergistic linkage mechanism, and actively innovate business models. Guide regions to scientifically and orderly layout of new energy storage manufacturing projects, relying on research institutions to carry out industry operation monitoring and early warning to prevent low-level repeated construction.
(vi) Enhancing the secure utilization of resources
Increase support for the search for domestic mineral resources such as lithium, cobalt and nickel, and place mining rights in a scientific and orderly manner, so as to enhance the ability to safeguard domestic resources. Guide domestic enterprises to lay out overseas resource projects in a diversified, orderly and coordinated manner, and reduce transportation costs for resource development. On the premise of risk prevention, support enterprises to strengthen foreign investment and cooperation, and enhance the supply capacity of overseas mineral development. Encourage production enterprises to do a good job in the management of the whole life cycle of products, strengthen the green design of products, and enhance the easy recycling and utilization of products. On the premise of meeting product performance requirements, support production enterprises to use recycled raw materials.
(vii) Cultivating industrial quality enterprises
Encourage new energy storage industry chain upstream and downstream enterprises to join forces, and build an industrial cluster development pattern of leading, focusing, echelon synergy, and chain group interaction. Accelerate the cultivation of a number of eco-dominant enterprises with strong traction ability, wide radiation drive and large cluster effect, and give full play to the industry's leading role in leading industrial ecological agglomeration. Cultivate a batch of specialized, special and new "small giants", manufacturing single champions and high-tech enterprises, build a batch of green factories and green supply chain management enterprises, and guide key enterprises to strengthen their differentiation and specialization.
IV. Implementation of industrial transformation and upgrading development actions
(viii) Enhancing safe production capacity
Adhere to the bottom-line thinking, and improve the safety level of the new energy storage manufacturing industry from the multi-dimensional aspects of intrinsic safety, production safety, storage safety, use safety, disposal safety and recycling safety. Pressure the main responsibility of enterprises, do a good job in the investigation and rectification of safety hazards, the implementation of the extended system of responsibility for production safety, guide enterprises to carry out standardized construction of production safety, carry out supervision of the quality of new energy storage products, and promote the safety and quality improvement of the new energy storage manufacturing industry. Encourage enterprises and power stations to strengthen the monitoring and early warning of hidden safety hazard points, improve emergency plans, refine the lines and contents of instructions, develop and improve the training and assessment system for professionals, and enhance risk warning and emergency response capabilities.
(ix) Adherence to green and low-carbon development
Support new energy storage upstream and downstream enterprises to optimize the energy use structure, improve the efficiency of energy resources, and expand the use of renewable energy in the manufacturing end. It will study and formulate specifications for energy consumption measurement and carbon emission accounting and evaluation for the whole industrial chain, study the establishment of a passport system for energy storage batteries, accelerate the construction of a traceability management system and a carbon footprint certification system for new types of energy storage products, and promote mutual recognition with international rules.
(J) Enhancement of Intelligent Manufacturing
Promote the wide application of new-generation information technologies such as blockchain, big data, artificial intelligence and 5G in the new energy storage manufacturing industry. Accelerate the construction of smart factories, encourage the digital transformation of key processes in the production and manufacturing of new energy storage products as well as system integration, and optimize the quality control system by applying online inspection technologies such as machine vision, ultrasound and infrared thermal imaging. Enhance the automation level of raw material production and packaging of various new energy storage products. Support manufacturing enterprises to extend the service chain, the development of new models of service-oriented manufacturing.
V. Implementation of demonstration application scenario expansion actions
(xi) Promoting the application of power supply and grid-side energy storage
Actively encourage the exploration of thermal power reasonable configuration of new energy storage, support the development of new energy storage with peak shifting, frequency regulation and other multi-scenario applications. Promote new energy integration of new energy storage and intelligent control means to build friendly new energy power stations. For deserts, Gobi, deserts and other areas rich in new energy and low local consumption capacity, support new energy storage to support large-scale consumption of renewable energy. Accelerate the promotion of shared energy storage, and enhance the auxiliary service capability of energy storage to the power system. Encourage new energy storage to participate in the power market as an independent energy storage entity. Accelerate the application of grid-forming energy storage, enhance the ability of new energy storage to support the stable operation of the power system, accelerate the promotion of alternative energy storage in areas with tight land resources or remote areas, alleviate the pressure of investment in transmission and transformation, and enhance the power supply capacity at the end of the power grid.
(xii) Expanding the diversified application of user-side energy storage
Facing data centers, smart computing centers, communication base stations, industrial parks, industrial and commercial enterprises, highway service areas and other users with high requirements for power supply reliability and power quality and high power consumption, we will promote the configuration of new energy storage. Support the conditions of industrial enterprises, park construction of industrial green microgrid, and actively promote the application of new energy storage technology products in the industrial sector. Encourage the reasonable configuration of new energy storage for urban heating. Relying on the construction of "optical storage, charging and switching" comprehensive charging and switching power station, play a new type of energy storage in the vehicle network interaction and other new modes of support. Promote "photovoltaic + energy storage" system in urban lighting, traffic signals, agriculture and rural areas, public broadcasting, "smart carport" and other public infrastructure integration and application, and encourage the construction of micro off-grid energy storage system. Develop personalized and customized home energy storage products.
VI. Implementation of industrial ecosystem improvement actions
(xiii) Enhancing the level of support for the standards system
Promote new energy storage technology innovation and standardization to support each other and synergize development. Support the construction of new energy storage standard system, implement the Guidelines for the Construction of the National Standard System for Lithium Battery Industry and the Guidelines for the Construction of the New Energy Storage Standard System, strengthen the layout of the new energy storage technology standards for sodium batteries, solid-state batteries, flow batteries, etc., and accelerate the development of standards for new energy storage products such as product safety and cycling life, supporting key materials and components, production equipment, key testing methods, green and low-carbon, recycling and comprehensive utilization. Formulation. Accelerate the establishment of a new type of energy storage battery safety risk assessment system, develop energy storage battery standards in a hierarchical manner, and increase the implementation of mandatory national standards for safety. Strengthen the effective connection between the standard system of new energy storage batteries and the standard system of existing electric power storage systems.
(xiv) Strengthening the protection and utilization of intellectual property rights
Guide China's new energy storage enterprises to improve the quality of intellectual property creation, strengthen the utilization of intellectual property information for key materials, energy storage batteries, power electronic devices and other key links, carry out patent navigation analysis, accelerate the cultivation and layout of a number of original and basic high-value patents, and enhance the ability related to standard-essential patents. Guide the industry to improve the intellectual property market-oriented operation system, support the construction of intellectual property operation centers for new energy storage-related industries, carry out industrialization services for high-value patents, encourage the exploration of patent pools and other operation modes in the field of new energy storage, collaborate to improve the level of intellectual property risk prevention and control, and promote the industry to strengthen the chain and increase efficiency. It will study and support innovative mechanisms for the collaborative development of patents and standards, strengthen the protection of intellectual property rights, and prohibit the abuse of intellectual property rights to exclude or restrict competition.
(xv) Strengthening the construction of innovation service platforms
Support the construction of scientific and technological innovation platform bases in the field of new energy storage. Promote the construction of public service platforms for the standardization and management of the lithium battery industry, enhance the ability to provide public services, promote the digitalization, networking, intelligence and transparent management of the whole chain of information on new energy storage batteries, and support the construction of mechanisms for industry operation analysis, monitoring and early warning. Encourage the construction of new energy storage product testing and certification platform to carry out product analysis, evaluation, application verification and other services.
VII. Implementation of trade and investment cooperation enhancement actions
(xvi) Consolidating and expanding export advantages
Explore the inclusion of strengthening international cooperation in the field of new energy storage in the framework of cooperation mechanisms such as "Belt and Road" and "BRICS", strengthen docking with relevant national resource strategies, policies and standards, and actively promote the establishment of a mutually beneficial and win-win industrial chain supply chain cooperation system. High-quality implementation of free trade agreements that have entered into force, and support enterprises to make full use of the preferential arrangements of free trade agreements. Encourage industry organizations and think tanks to build public service platforms, track market access, environmental protection and other policies and regulations of relevant countries in the field of new energy storage in a timely manner, hold trade and investment-related training, and systematically improve the international development capacity of enterprises. Give full play to the coordinating and self-disciplinary roles of domestic industry organizations and overseas Chinese-funded enterprises' chambers of commerce (associations) to prevent malicious competition in the field of export and jointly safeguard the good image of Chinese brands.
(xvii) Support for high-quality "importation"
Encourage universities, enterprises and research institutes to carry out forward-looking technology exchanges and introduction of advanced technologies through academic conferences, joint research, talent exchanges and other forms, and support the organization of world-class conferences on new types of energy storage, so as to set up a new type of energy storage industry exchange platform with international influence. Encourage international new energy storage enterprises and institutions to set up R&D centers and production bases in China. Attract foreign financial institutions to invest in China, strengthen efficient interaction with international economic and trade organizations, industry associations and professional investment institutions, and establish and improve market-oriented and normalized cooperation and docking mechanisms.
(xviii) Promoting high-level "going out"
Supporting new energy storage enterprises to carry out international layout in an orderly manner, studying overseas layout guidelines, and guiding enterprises to formulate locally adapted overseas strategies and layout methods. Under the "Belt and Road" cooperation initiative, support enterprises to jointly develop international markets. Deeply promote the exchange and cooperation on international standards for new energy storage, enhance the internationalization level of new energy storage standards, actively participate in the formulation and revision of international standards for new energy storage, and play a leading role in the construction of the global industrial ecology.
VIII. Safeguards
(xix) Strengthening integration and coordination
Strengthen the overall planning and layout of industrial development and operation monitoring, and promote industrial innovation, transformation, upgrading and healthy and orderly development. Actively explore the central linkage and regional synergistic development mode, guide the regions to promote the rational layout of the industry according to local conditions, and encourage localities to introduce special policies to support the technological progress and transformation and upgrading of the new energy storage manufacturing industry. Build a quality supervision system involving the government and enterprises, and study the establishment of a recommended catalog of product safety for energy storage batteries based on mandatory national standards.
(xx) Increased policy support
Coordinate the use of relevant central and local policy resources to support the research and development of key technologies for new energy storage, and carry out pilot demonstrations of new energy storage applications in multiple scenarios. Provide facilitation services for enterprises in the transportation of energy storage products. Give full play to the role of the national industry-integrated cooperation platform, make good use of green financial tools, and encourage insurance organizations to develop insurance products around new energy storage power stations.
(xxi) Regulating the industry
Standardize local investment promotion regulations and systems, and promote the establishment of a unified national market. Strengthen the standardization and management of lithium battery industry, implement the main responsibility of new energy storage enterprise product quality, improve the quality management system, and strengthen the supervision of new energy storage product quality.
Strengthening the prevention and punishment of patent infringement, market monopolization and other violations, resolving the phenomenon of industry "involution", and maintaining a healthy and fair market environment. Encourage third-party institutions and industry organizations to play an active role in monitoring and establishing a cooperative mechanism to positively guide the market.
(xxii) Accelerating the attraction and development of talents
Strengthen the integration of industry and education in the field of new energy storage manufacturing industry, further play the role of the platform for integration of industry and education, encourage enterprises to deeply participate in the training of talents and education and teaching links, and do a good job in making the Industrial College and the Institute of On-site Engineers stronger. Run schools according to the industry, teach according to the needs, and promote the resonance of industrial demand and students' learning. The combination of cultivation and "absorption" increases the supply of international industrial talents, coordinates the construction of high-end talent cultivation networks, promotes the differentiated and rational distribution of talents, and facilitates the orderly flow of talents and other factors across regions.
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