以下为测试数据

Research AreasIn recent years, our research has primarily focused on:

• The synthesis and applications of novel carbon materials;

• Advanced energy storage devices, including lithium-ion batteries, lithium-sulfur batteries, lithium-air batteries, potassium/sodium-ion batteries, and supercapacitors;

• Device integration and development, such as all-solid-state batteries and structural batteries;

• The preparation and application of silicon-carbon anodes, lithium metal anode protection strategies, novel solid-state electrolyte materials, and electrochemical catalysts.

纳米红外光谱系统基于原子力显微镜（AFM），采用光热诱导技术，使红外光谱的空间分辨率提高至纳米级别，突破光学衍射极限，揭示样品在纳米尺度下表面界面的化学信息。广泛应用于高分子聚合物，复合材料，蛋白和细胞，纤维，多层膜结构，药物，锂电池等的纳米尺度的化学成分鉴定，组分分布及相分离结构，表界面化学分析和失效研究等方面。该方案荣获2010年度美国R&D100大奖。nanoIR2-FS纳米红外光谱系统在广受欢迎的第二代纳米红外光谱系统的基础上实现快速扫描功能，光谱采集速度<3s/光谱;专利的轻敲模式纳米红外将空间分辨率提高至10nm以上，并大大提高红外成像速度，并使得较软的生物材料等软物质的化学成像实现质的飞跃。Nano IR 2fs纳米红外光谱系统一举突破传统傅里叶红外光谱（FTIR）和衰减全反射红外光谱（ATR-IR）的分辨局限性，开创了红外光谱研究的新方式。

"The 21st century is the century of carbon materials."As an international collaborative research platform for the fundamentals and industrialization of carbon nanomaterials, we are committed to overcoming fundamental scientific and technological challenges in the application of carbon nanomaterials across various fields, as well as addressing industrialization hurdles.One of the most distinctive features of our center is its internationalization. Our core team includes renowned professors from Shandong University and Rice University (USA), who have maintained long-term, close collaboration and jointly achieved outstanding research outcomes.The second key feature is that all fundamental research projects are driven by market or industrial needs, ensuring that their focus and outcomes are aligned with practical applications. Our goal is to strengthen the technological foundation of globally competitive industries.The third defining characteristic is the close integration of industry, academia, and research. We actively establish strategic partnerships with local enterprises and are dedicated to cultivating high-level, interdisciplinary talent in the field of advanced materials.