![能源材料研究——蔡司 能源材料研究——蔡司]({"xsmall":"https://www.zeiss.com/content/dam/rms/reference-master/applications/materials/energy-materials/electrodes_versa_segmentation.jpg/_jcr_content/renditions/original.image_file.100.100.792,65,1791,1064.file/electrodes_versa_segmentation.jpg","small":"https://www.zeiss.com/content/dam/rms/reference-master/applications/materials/energy-materials/electrodes_versa_segmentation.jpg/_jcr_content/renditions/original.image_file.360.360.792,65,1791,1064.file/electrodes_versa_segmentation.jpg","medium":"https://www.zeiss.com/content/dam/rms/reference-master/applications/materials/energy-materials/electrodes_versa_segmentation.jpg/_jcr_content/renditions/original.image_file.768.768.792,65,1791,1064.file/electrodes_versa_segmentation.jpg","large":"https://www.zeiss.com/content/dam/rms/reference-master/applications/materials/energy-materials/electrodes_versa_segmentation.jpg/_jcr_content/renditions/original.image_file.999.999.792,65,1791,1064.file/electrodes_versa_segmentation.jpg","xlarge":"https://www.zeiss.com/content/dam/rms/reference-master/applications/materials/energy-materials/electrodes_versa_segmentation.jpg/_jcr_content/renditions/original.image_file.999.999.792,65,1791,1064.file/electrodes_versa_segmentation.jpg","xxlarge":"https://www.zeiss.com/content/dam/rms/reference-master/applications/materials/energy-materials/electrodes_versa_segmentation.jpg/_jcr_content/renditions/original.image_file.999.999.792,65,1791,1064.file/electrodes_versa_segmentation.jpg","max":"https://www.zeiss.com/content/dam/rms/reference-master/applications/materials/energy-materials/electrodes_versa_segmentation.jpg/_jcr_content/renditions/original.image_file.999.999.792,65,1791,1064.file/electrodes_versa_segmentation.jpg"})
用于材料科学的显微镜应用
用于新能源的新材料
为子孙后代研发可持续能源器件至关重要。这些器件(包括电池、燃料电池和太阳能电池)将代表能源生产、储存和转换方式的重大转变。如今,研究重点主要在于延长这些器件的使用寿命,提高其功率、储存密度、能效和安全性。
显而易见,可持续地生产、储存和使用能源将是未来面临的一大挑战。显微技术将为解决此挑战发挥重要作用。毕竟,未来器件的性能与其微观结构和纳米结构有着内在联系。借助显微技术,研究人员能够深入挖掘,调查为何某些材料能起作用,某些不能。
而更好的显微技术工具意味着更准确的分析。蔡司致力于帮助您推进研究,为您提供X射线显微镜、电子和离子显微镜,以及多模态解决方案,以满足能源研究不断增长的需求。