About
Microscopy is a powerful tool that enables scientists to explore the intricate details of the microscopic world. It involves the use of specialized instruments to magnify and visualize objects that are too small to be seen by the naked eye. Microscopy has transformed our understanding of cellular structures, biological processes, and the properties of materials on the nanoscale.
Microscopy techniques vary, ranging from optical microscopes that use visible light to electron microscopes that use electron beams. These techniques have opened up new realms of knowledge, revealing the hidden beauty and complexity of the tiniest building blocks of life and matter. Microscopy is indispensable in fields like biology, materials science, nanotechnology, and medicine.
- ✓Light microscopy
- ✓Electron microscopy
- ✓Confocal microscopy
- ✓Fluorescence microscopy
- ✓Transmission electron microscopy (TEM)
- ✓Scanning electron microscopy (SEM)
- ✓Atomic force microscopy (AFM)
- ✓Scanning probe microscopy
- ✓Super-resolution microscopy
- ✓Phase-contrast microscopy
- ✓Dark-field microscopy
- ✓Polarized light microscopy
- ✓Cryo-electron microscopy
- ✓Microtomography
- ✓Correlative microscopy
- ✓Single-molecule microscopy
- ✓Microspectroscopy
- ✓Microscopy in materials characterization
- ✓Microscopy in biological imaging
- ✓Microscopy in nanotechnology
- ✓Microscopy in forensic science
- ✓Microscopy education and outreach
- ✓Advancements in microscopy
- ✓Microscopy techniques for education
- ✓Microscopy in art and conservation