Analytical instrumentation like Mass Spectrometers is widely used in the pharmaceutical and biotech industry for analyzing substances in drugs or other pharmaceuticals to ensure the quality and provide vital data during development of new pharmaceuticals. 

In forensic laboratories, analytical instrumentation is an important tool for analyzing drugs, DNA, and trace evidence during criminal investigations. 

Analyzing materials' properties, such as composition, structure, and morphology, is commonly used in many advanced diverse industries including automotive, defense, and aeronautical. X-ray diffraction (XRD) is another technique and instrumentation used in materials science and crystallography to analyze the atomic and molecular structure of crystalline materials.

Manufacturing of semiconductors involves many advanced processes that rely on consistent process parameters. Real-time process surveillance utilizing mass spectrometers helps ensure that each step is performed correctly and within specified tolerances to maintain the quality of the semiconductor products. Detecting deviations early can prevent defects and yield losses. 

In the semiconductor industry, analyzing wafer materials' properties such as layer thickness, stress, and composition by the use of Scanning Electron Microscopes is critically important during the development of new devices. 

In academic research, many types of analytical instrumentation are essential in various research fields for conducting experiments, gathering data, and analyzing results to invent future technologies.

Furthermore, Gloveboxes utilizing vacuum technology are widely used in the chemical industry to provide a controlled atmosphere that enables work with sensitive or hazardous chemicals in a controlled environment.