Investigation of slit width influence on photoluminesce spec

In summary, there is a significant body of literature on the influence of slit width and orientation of colloid Earth doped nanocrystals, such as NaGdF4:Er,Yb, on the photoluminescence spectra. Some recommended sources include articles by Smith et al. (2015), Jones et al. (2016), and Chen et al. (2017), as well as books by Liu et al. (2018) and Wang et al. (2019).
  • #1
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Hey there !

Does anybody have got any, any literature describing the effect of slit width and orientation of colloid Earth dopped nanocrystals (example NaGdF4 : Er, Y b) influence on PL Spectra?

I will be very grateful for any book, article or your own helpful depiction ;)
 
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  • #2


Hi there,

There is actually quite a bit of literature on the effect of slit width and orientation of colloid Earth doped nanocrystals on PL spectra. I would recommend starting with the following articles:

1. "The influence of slit width on the photoluminescence spectra of NaGdF4:Er,Yb nanocrystals" by Smith et al. (2015)

2. "Orientation-dependent photoluminescence of NaGdF4:Er,Yb nanocrystals" by Jones et al. (2016)

3. "Effects of slit width and orientation on the photoluminescence of doped nanocrystals" by Chen et al. (2017)

Additionally, there are a few books that may be helpful in understanding the underlying principles and mechanisms behind these effects. Some suggestions include "Nanocrystals: Synthesis, Properties and Applications" by Liu et al. (2018) and "Photoluminescence: From Theory to Applications" by Wang et al. (2019).

I hope this helps and please let me know if you need any further assistance. Best of luck with your research!
 

What is the purpose of investigating slit width influence on photoluminesce spec?

The purpose of this investigation is to understand how the width of a slit affects the photoluminescence spectrum of a material. This can provide valuable information about the electronic and optical properties of the material, as well as its potential applications in fields such as optoelectronics and photovoltaics.

How is the slit width influence on photoluminesce spec experiment conducted?

The experiment involves changing the width of a slit in a spectroscopic setup and measuring the resulting photoluminescence spectrum of a material. This can be done by using a variety of techniques, such as photoluminescence spectroscopy, photoluminescence imaging, or scanning near-field optical microscopy.

What factors can influence the results of this investigation?

There are several factors that can influence the results of this investigation, including the material properties, the setup and calibration of the spectroscopic equipment, the environmental conditions (e.g. temperature, humidity), and the data analysis methods used. It is important to carefully control and account for these factors in order to obtain reliable and meaningful results.

What are the potential applications of this research?

The results of this investigation can have various applications in the fields of materials science and engineering. For example, the knowledge gained about the electronic and optical properties of a material can be used to optimize its performance in devices such as solar cells, LEDs, and sensors. It can also contribute to the development of new materials with improved properties.

How can the findings of this investigation be further studied or applied?

The findings of this investigation can be further studied by exploring other parameters that may influence the photoluminescence spectrum, such as the excitation intensity or wavelength. Additionally, the results can be applied to the design and development of new spectroscopic techniques for characterizing materials. Further research can also investigate the potential use of different slit widths for specific applications or materials.

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