Projects per year
Description
The data provided here in support for the paper: ''Continuous roller transfer-printing of QVGA semiconductor micro-pixel arrays''.
The data attached is the following:
Local errors of all the devices in y direction.mat: the error of the distances between the centers of consecutively pixels of the QVGA roll-printed device (y-direction). The data was used to plot the graph of the error of the printed devices in y-direction.
Local errors of all the devices in x direction.mat: the error of the distances between the centers of consecutively pixels of the QVGA roll-printed device (x-direction). The data was used to plot the graph of the error of the printed devices in x-direction.
Angle of rotation of the devices.mat: the angles of the rotation of the pixels of the QVGA roll-printed device. The data was used to plot the graph of the angles of rotation for the printed devices.
Central position of the devices.mat: the x and y coordinates of the position of the centers of the pixels of the QVGA roll-printed device. The data was used to calculate the pitch values of the devices.
All the above files can be opened through matlab software.
The data attached is the following:
Local errors of all the devices in y direction.mat: the error of the distances between the centers of consecutively pixels of the QVGA roll-printed device (y-direction). The data was used to plot the graph of the error of the printed devices in y-direction.
Local errors of all the devices in x direction.mat: the error of the distances between the centers of consecutively pixels of the QVGA roll-printed device (x-direction). The data was used to plot the graph of the error of the printed devices in x-direction.
Angle of rotation of the devices.mat: the angles of the rotation of the pixels of the QVGA roll-printed device. The data was used to plot the graph of the angles of rotation for the printed devices.
Central position of the devices.mat: the x and y coordinates of the position of the centers of the pixels of the QVGA roll-printed device. The data was used to calculate the pitch values of the devices.
All the above files can be opened through matlab software.
Date made available | 16 Dec 2022 |
---|---|
Publisher | University of Strathclyde |