Oxford ct 3500 cryo holder

Samples were prepared to be at a mass percentage of 1% particles in PBS and the Cryo-TEM specimens were prepared in a controlled environment vitrification system (CEVS). Cryogenic transmission electron microscopy (cryo-TEM) imaging was performed either by a Phillips CM120 or a FEI Talos 200 C, FEG-equipped cryo-dedicated high-resolution transmission electron microscope (TEM and STEM), operated at an accelerating voltage of 120 kV. Specimens were transferred into an Oxford CT-3500 cryo-holder (Philips) or a Gatan 626DH (FEI) cryo-holder, and equilibrated below −178 °C. Specimens were examined using a low-dose imaging procedure to minimize electron-beam radiation damage. Images were recorded digitally by a Gatan Multiscan 791 cooled CCD camera (Philips CM 120), or a Gatan US 1000 high-resolution CCD camera (Tecnai T12 G2), using DigitalMicrograph software.

Samples of NPs were prepared to be at a mass percentage of 1% particles in PBS and the Cryo-TEM specimens were prepared in a controlled environment vitrification system (CEVS). Cryogenic transmission electron microscopy (Cryo-TEM) imaging was performed using a FEI Talos 200C, FEG-equipped Cryo-dedicated high-resolution transmission electron microscope (TEM and STEM), operated at an accelerating voltage of 120 kV. Specimens were transferred into an Oxford CT-3500 Cryo-holder (Philips) or a Gatan 626DH (FEI) Cryo-holder, and equilibrated below −178 °C. Specimens were examined using a low-dose imaging procedure to minimize electron-beam radiation damage. Images were recorded digitally by a Gatan Multiscan 791 cooled CCD camera (Philips CM 120), or a Gatan US 1000 high-resolution CCD camera (Tecnai T12 G2), using DigitalMicrograph software.

Samples of NPs were prepared at a
mass percentage of 1% particles in PBS, and the cryo-TEM specimens
were prepared in a controlled environment vitrification system (CEVS).
Cryogenic transmission electron microscopy (cryo-TEM) imaging was
performed using an FEI Talos 200C, FEG-equipped cryo-dedicated high-resolution
transmission electron microscope (TEM and STEM), operated at an accelerating
voltage of 120 kV. Specimens were transferred into an Oxford CT-3500
Cryo-holder (Philips) or a Gatan 626DH (FEI) cryo-holder and equilibrated
below −178 °C. Specimens were examined using a low-dose
imaging procedure to minimize electron-beam radiation damage. Images
were recorded digitally by a Gatan Multiscan 791 cooled CCD camera
(Philips CM 120) or a Gatan US 1000 high-resolution CCD camera (Tecnai
T12 G2), using DigitalMicrograph software.