LIQUID CELL FOR ELECTRON MICROSCOPE AND MANUFACTURING METHOD THEREOF

Organization Name

DAEGU GYEONGBUK INSTITUTE OF SCIENCE & TECHNOLOGY

Inventor(s)

Jiwoong Yang of Daegu (KR)

Jungwon Park of Seoul (KR)

Hyeonjong Ma of Jeju-si (KR)

LIQUID CELL FOR ELECTRON MICROSCOPE AND MANUFACTURING METHOD THEREOF - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240038487 titled 'LIQUID CELL FOR ELECTRON MICROSCOPE AND MANUFACTURING METHOD THEREOF

Simplified Explanation

The abstract describes a liquid cell for an electron microscope that includes a lower widow layer, an upper widow layer, and a separation film between them. The upper and lower widow layers are separated from each other by the separation film, creating an upper space and a lower space.

• The liquid cell for an electron microscope includes a lower widow layer, an upper widow layer, and a separation film.
• The upper and lower widow layers are separated from each other by the separation film.
• The upper space is defined by the upper widow layer and the separation film, while the lower space is defined by the lower widow layer and the separation film.
• The upper widow layer, lower widow layer, and separation film may be made of the same material.

Potential applications of this technology:

• High-resolution imaging: The liquid cell allows for the imaging of samples in a liquid environment, enabling high-resolution imaging of biological samples or dynamic processes.
• Material characterization: The liquid cell can be used to study the behavior and properties of materials in a liquid state, providing insights into their structure and behavior.
• Environmental studies: The liquid cell enables the examination of samples in their natural liquid environment, allowing for the study of environmental processes and interactions.

Problems solved by this technology:

• Sample preservation: The liquid cell provides a controlled liquid environment for samples, allowing for their preservation and preventing dehydration or degradation during imaging.
• Real-time observations: The liquid cell enables real-time observations of dynamic processes in a liquid environment, providing valuable insights into biological or chemical reactions.
• Minimizing artifacts: The separation film helps to minimize artifacts and distortions caused by the interaction between the sample and the electron beam.

Benefits of this technology:

• Improved imaging quality: The liquid cell allows for high-resolution imaging of samples in their natural liquid environment, providing detailed information about their structure and behavior.
• Versatility: The liquid cell can be used for a wide range of applications, including biological imaging, material characterization, and environmental studies.
• Preservation of samples: The controlled liquid environment of the cell helps to preserve samples and maintain their integrity during imaging, preventing dehydration or degradation.

Original Abstract Submitted

provided is a liquid cell for an electron microscope according to an embodiment of the inventive concept, including a lower widow layer, an upper widow layer above the lower widow layer, and a separation film disposed between the upper widow layer and the lower widow layer so as to separate the upper widow layer and the lower widow layer from each other. an upper space may be defined by the upper widow layer and the separation film, and a lower space may be defined by the lower widow layer and the separation film. the upper widow layer, the lower widow layer, and the separation film may include the same material.