Three dimensional reconstruction of sample rod using transmission electron microscopyBased on ultra-thin design or 360 ° rotation design at the sample end, it meets the different needs of 3D reconstruction characterization in the fields of life sciences and materials science.

　　Three dimensional reconstruction of sample rod using transmission electron microscopyTechnological advantages:

1. High resolution imaging: supports three-dimensional reconstruction at the extreme resolution of electron microscopy, which can reveal the fine structure of samples at the nanoscale.

2. Non destructive analysis: Information is obtained through the interaction between the electron beam and the sample, without the need for special treatment of the sample, avoiding damage to the sample structure.

3. Multi dimensional information acquisition: By combining EDS, EELS and other technologies, the chemical composition, electronic state and other information of the sample can be obtained simultaneously, achieving multi-dimensional analysis.

4. Efficient data processing: Automated data processing and 3D reconstruction are achieved through specialized software, significantly reducing analysis cycles and improving experimental efficiency.

Application fields:

1. Nanomaterial research: used to analyze the three-dimensional morphology and internal structure of materials such as nanoparticles, nanowires, and nanofilms, revealing their growth mechanisms and performance correlations.

2. Biological Science: Combined with cryotransmission electron microscopy, it is used to analyze the three-dimensional structure of biomolecules such as proteins and viruses, helping to understand their functional mechanisms.

3. Geological material analysis: Conduct three-dimensional analysis of nanoscale geological materials to reveal their microstructure and compositional distribution characteristics.

4. Energy materials research: used to analyze the three-dimensional structural evolution of battery materials, catalysts, etc. during electrochemical reactions, and optimize material design.