Transmission Electron Microscopy in combination with staining techniques, but also Scanning Electron Microscopy, Scanning probe microscopy are important tools to optimize the morphology of materials like polybutadiene-polystyrene polymers and many polymer blends.
Transmission electron microscopy | confocal microscopy | Wilkinson Microwave Anisotropy Probe | microscopy | Gravity Probe B | Scanning transmission electron microscopy | Microscopy | Energy Probe | electron microscopy | Confocal microscopy | Bright-field microscopy | Atomic force microscopy | atomic force microscopy | Transmission Electron Microscopy (TEM) | Transmission Electron Microscopy | transmission electron microscopy | Thermal Probe Lithography | The Probe | Serial Block-Face Scanning Electron Microscopy | Scanning tunneling microscope | scanning tunneling microscope | Scanning probe microscopy | scanning probe microscopy | Probe Records | Photoemission electron microscopy | News Probe | Light microscopy image of the undescribed species of ''Spinoloricus | Journal of Microscopy | High-resolution transmission electron microscopy | Ford Probe |
These ideas were later realized by the use of the scanning tunneling microscope, the atomic force microscope and other examples of scanning probe microscopy and storage systems such as Millipede, created by researchers at IBM.