Uncoated TEM Grids

The GTH series offers a very high transmission value with the additional support of a hexagonal pattern. They offer an alternative to the standard hexagonal mesh grids for use in applications where it is important that the maximum area of specimen is available for viewing in the microscope.

The GTH series offers a very high transmission value with the additional support of a hexagonal pattern. They offer an alternative to the standard hexagonal mesh grids for use in applications where it is important that the maximum area of specimen is available for viewing in the microscope.

The GTH series offers a very high transmission value with the additional support of a hexagonal pattern. They offer an alternative to the standard hexagonal mesh grids for use in applications where it is important that the maximum area of specimen is available for viewing in the microscope.

The GTH series offers a very high transmission value with the additional support of a hexagonal pattern. They offer an alternative to the standard hexagonal mesh grids for use in applications where it is important that the maximum area of specimen is available for viewing in the microscope.

The GT series are a development from the earlier GTH ultra-high transmission grids. They offer an alternative to the standard square mesh grid. Fine Bar grids offer solutions in applications where it is important that the maximum area of specimen is available for viewing in the microscope.

The GT series are a development from the earlier GTH ultra-high transmission grids. They offer an alternative to the standard square mesh grid. Fine Bar grids offer solutions in applications where it is important that the maximum area of specimen is available for viewing in the microscope.

The GT series are a development from the earlier GTH ultra-high transmission grids. They offer an alternative to the standard square mesh grid. Fine Bar grids offer solutions in applications where it is important that the maximum area of specimen is available for viewing in the microscope.

The GTH series offers a very high transmission value with the additional support of a hexagonal pattern. They offer an alternative to the standard hexagonal mesh grids for use in applications where it is important that the maximum area of specimen is available for viewing in the microscope.

The GTH series offers a very high transmission value with the additional support of a hexagonal pattern. They offer an alternative to the standard hexagonal mesh grids for use in applications where it is important that the maximum area of specimen is available for viewing in the microscope.

The GTH series offers a very high transmission value with the additional support of a hexagonal pattern. They offer an alternative to the standard hexagonal mesh grids for use in applications where it is important that the maximum area of specimen is available for viewing in the microscope.

The GT series are a development from the earlier GTH ultra-high transmission grids. They offer an alternative to the standard square mesh grid. Fine Bar grids offer solutions in applications where it is important that the maximum area of specimen is available for viewing in the microscope.

The GT series are a development from the earlier GTH ultra-high transmission grids. They offer an alternative to the standard square mesh grid. Fine Bar grids offer solutions in applications where it is important that the maximum area of specimen is available for viewing in the microscope.

The GT series are a development from the earlier GTH ultra-high transmission grids. They offer an alternative to the standard square mesh grid. Fine Bar grids offer solutions in applications where it is important that the maximum area of specimen is available for viewing in the microscope.

The GTH series offers a very high transmission value with the additional support of a hexagonal pattern. They offer an alternative to the standard hexagonal mesh grids for use in applications where it is important that the maximum area of specimen is available for viewing in the microscope.

The GTH series offers a very high transmission value with the additional support of a hexagonal pattern. They offer an alternative to the standard hexagonal mesh grids for use in applications where it is important that the maximum area of specimen is available for viewing in the microscope.

The GTH series offers a very high transmission value with the additional support of a hexagonal pattern. They offer an alternative to the standard hexagonal mesh grids for use in applications where it is important that the maximum area of specimen is available for viewing in the microscope.

The GT series are a development from the earlier GTH ultra-high transmission grids. They offer an alternative to the standard square mesh grid. Fine Bar grids offer solutions in applications where it is important that the maximum area of specimen is available for viewing in the microscope.

The GT series are a development from the earlier GTH ultra-high transmission grids. They offer an alternative to the standard square mesh grid. Fine Bar grids offer solutions in applications where it is important that the maximum area of specimen is available for viewing in the microscope.

The GT series are a development from the earlier GTH ultra-high transmission grids. They offer an alternative to the standard square mesh grid. Fine Bar grids offer solutions in applications where it is important that the maximum area of specimen is available for viewing in the microscope.

As an alternative to square mesh, hexagonal mesh grids offer a higher support factor for a given mesh repeat distance.

As an alternative to square mesh, hexagonal mesh grids offer a higher support factor for a given mesh repeat distance.

As an alternative to square mesh, hexagonal mesh grids offer a higher support factor for a given mesh repeat distance.

As an alternative to square mesh, hexagonal mesh grids offer a higher support factor for a given mesh repeat distance.

As an alternative to square mesh, hexagonal mesh grids offer a higher support factor for a given mesh repeat distance.

As an alternative to square mesh, hexagonal mesh grids offer a higher support factor for a given mesh repeat distance.

As an alternative to square mesh, hexagonal mesh grids offer a higher support factor for a given mesh repeat distance.

As an alternative to square mesh, hexagonal mesh grids offer a higher support factor for a given mesh repeat distance.

As an alternative to square mesh, hexagonal mesh grids offer a higher support factor for a given mesh repeat distance.

As an alternative to square mesh, hexagonal mesh grids offer a higher support factor for a given mesh repeat distance.

As an alternative to square mesh, hexagonal mesh grids offer a higher support factor for a given mesh repeat distance.