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Development of a User-Friendly Python GUI for Nanodrip Printing Tool
In this project, you will focus on developing a Python-based graphical user interface (GUI) for Nanodrip printing to control an integrated system of micromotors, nanomotors, and FPGA (Field Programmable Gate Array). The GUI will serve as the central interface for precise manipulation and automation of the nanopipette drop system, enabling streamlined operation, real-time feedback, and user-friendly visualization of data. This system aims to enhance precision and efficiency in streamlining the control and data acquisition processes.
Nanodrip Printing is a high-precision nanoscale printing technology that enables the printing of micro- and nanostructures by precisely controlling the release of nanodroplets. The technique typically combines a nanopipette and an electric field to regulate the size and position of the droplets for ultra-fine deposition of materials.
The focus of this project is to develop a Python-based user-friendly graphical user interface (GUI) to control the nanodroplet printing process. You will integrate micromotor, nanomotor, and FPGA systems to ensure precise manipulation of the nanopipette tip for droplet deposition.
While contributing to this project, you will gain a solid understanding and proficiency in micromotor and nanomotor control, FPGA control, and Python software development. This project bridges electrical engineering and software development.
Nanodrip Printing is a high-precision nanoscale printing technology that enables the printing of micro- and nanostructures by precisely controlling the release of nanodroplets. The technique typically combines a nanopipette and an electric field to regulate the size and position of the droplets for ultra-fine deposition of materials. The focus of this project is to develop a Python-based user-friendly graphical user interface (GUI) to control the nanodroplet printing process. You will integrate micromotor, nanomotor, and FPGA systems to ensure precise manipulation of the nanopipette tip for droplet deposition. While contributing to this project, you will gain a solid understanding and proficiency in micromotor and nanomotor control, FPGA control, and Python software development. This project bridges electrical engineering and software development.
- Software Development: Create a Python-based for Nanodrip printing system.
- Mechanical and Electrical Integration: Combine hardware (motors, pipette) with software for precise manipulation.
- Software Development: Create a Python-based for Nanodrip printing system. - Mechanical and Electrical Integration: Combine hardware (motors, pipette) with software for precise manipulation.
