Fluorescence microscopy, a type of microscopy that displays and quantifies the quantity and distribution of specific molecules in a sample, uses fluorescent molecules. It is a useful tool with a wide range of applications in both scientific and therapeutic contexts.
Here are some of the advantages of fluorescence microscopy:
- High resolution: Fluorescent microscopy can be used to achieve high resolution, especially when paired with confocal microscopy.
- High sensitivity: Fluorescence microscopy can be used to find very low quantities of bright substances.
- Multicolor imaging:Fluorescent dyes can be used to mark different structures or molecules in a sample, allowing for the simultaneous observation of many different things.
- Non-destructive: The material can be repeatedly photographed without sustaining any damage because fluorescence microscopy is a non-destructive technique.
- Label-free imaging: Fluorescence microscopy can image samples without the use of fluorescent markers, which is advantageous in some situations.
Here are some of the disadvantages of fluorescence microscopy:
- Expensive: In general, fluorescence microscopes cost more than other kinds of microscopes.
- Complex: Setting up and using fluorescence microscopy can be challenging.
- Phototoxicity: Fluorescence compounds have the potential to be poisonous to cells, which could restrict its application in living cells.
- Background noise: Background noise in fluorescence microscopy can make it challenging to detect tiny signals.
- Photobleaching: The period of time that a sample can be photographed can be shortened because fluorescent molecules can be faded by exposure to light.
Despite its disadvantages, fluorescence microscopy is a powerful tool in several research and beneficial applications. Chongqing Scope Instrument Co., Ltd. has professional machines, technology and service. If you want more information, please click here.