The expert panel for this achievement evaluation meeting was composed of five authoritative experts from institutions of higher learning and research institutes. The panel carefully listened to the detailed reports presented by the project team on various aspects such as research and development, technology, application, as well as economic and social benefits. After in-depth inquiry and discussion, the experts unanimously agreed that this project is technically complex, challenging to develop, and highly innovative. It has successfully broken the foreign monopoly in related technologies and achieved an overall international advanced level. The low-temperature aluminothermic reduction and hybrid biomass technologies are particularly leading internationally.

Our team has achieved significant breakthroughs in the controllable preparation and key technologies for mass production of biomass hard carbon anode materials. By regulating the structure of hard carbon anode materials through a series of advanced technologies, we have successfully overcome the preparation bottleneck and achieved mass production. The prepared hard carbon anode materials exhibit excellent performance in indicators such as powder compaction density (≥1.0g/cc), reversible specific capacity at 0.1C (350~380mAh/g), and initial efficiency (≥90%). This provides a solid foundation for enhancing the performance of new energy batteries and further promotes the development of China's new energy industry.

In the process of material selection and application, we uphold the green and environmental protection concept, fully utilizing subtropical waste biomass resources such as coconut shells, bamboo, sugarcane bagasse, and lychee wood. These biomass materials, which may otherwise be discarded or incinerated, are transformed by our technology. This not only avoids potential environmental pollution and resource waste, but also turns waste into a valuable resource, becoming an important source of key materials. It greatly improves the recycling rate of resources, reduces dependence on traditional non-renewable resources, contributes positively to building a sustainable ecological environment, and effectively promotes the good situation of collaborative progress between China's new energy industry and environmental protection cause.

The breakthrough and application of biomass carbon-based energy storage material technology, which is at the international advanced level, holds profound significance for China's economic development, technological progress, and sustainable social development. Our company will continue to increase R&D investment, continuously optimize technological processes, and enhance product performance and quality. This will inject strong momentum into the development of China's battery material industry, helping our country occupy a more important position in the global new energy market.