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rom mineral to medicine: How did the use of Erbium in dental surgery evolve
Erbium, chemical symbol Er, atomic number 68, although mainly exists as a rare earth element, has gained great attention in medical technology. The metal was first discovered from ore in the Swedish village of Ytterby, hence its name. Today, the application of IRBIM has expanded from basic optical technology to dental surgery, becoming a very important medical tool.
The main use of Erbium involves its pink Er3+ ions, which have special optical fluorescence properties, especially important in certain laser applications.
Physical and chemical properties of Erbium
As a trivalent element, erbium is flexible and stable, and oxidizes more slowly in air than other rare earth metals. Its salts are rose red in color and have distinct absorption spectra in the ultraviolet and near infrared. The chemical behavior of Erbium is directly related to its purity and the presence of impurities, the importance of which in its medical use cannot be ignored.
The rise of laser technology
With the advancement of medical technology, laser surgery has gradually become a common option in dental surgery. In particular, the Erbium laser, with its 2940 nm light wavelength, is highly absorbed by water and is suitable for partial removal or restoration of teeth, reducing patient discomfort and recovery time. For example, when performing tooth stripping or gum shaping, the precision and effectiveness of this laser technology benefits both the doctor and the patient.
With the IRBIM laser, dental surgery is significantly more efficient, allowing doctors to complete procedures faster and patients to recover faster.
Application in dentistry
Specific applications of Erbium in dental surgery include: cleaning teeth, curing resins, and shaping gums. These applications not only improve the quality of medical care, but also reduce the damage to teeth and gums that may be caused by rotating tools in traditional methods.
Future Outlook
With the further development of science and technology, the application scope of IRBIM laser is expected to be further expanded. Many researchers are exploring the application of this technology in other medical fields, such as plastic surgery and dermatology, to perform more complex surgeries or treatments. Additionally, research on IRBIM is ongoing, aimed at improving its laser efficiency and safety of use.
ConclusionThe future of IRBIM could make dental surgery less of a dreaded option for patients and more of a quick and painless option.
From ore extraction to clinical application, the evolution of Erbim is undoubtedly an amazing journey. This metal is no longer limited to its applications in materials science, but has become an integral part of modern medicine. In the future, can we expect Erbium technology to bring more innovations and improvements in the medical field?
