Essay Sample on Nanotechnology

Introduction

The nanoparticles when emitted into the environment affect the general health of both plant and animals from their natural habitat. Following the in-depth analysis of the video, the nanoparticles which are components of the building, agricultural, cosmetics as well as a consumer product subject the lives of different species at risk. Notably, the nanoparticles, when exposed into the atmosphere have detrimental effects to both fauna and flora found into the atmosphere. The video objectively points out the adverse effects of these invisible particles which are consumed on a daily basis by the living organism from their respective habitats. Significantly, several scientific based types of research are conducted with an aim to determine the intensity of the toxin along with the health complication the nanoparticles may have on the living cells. Several tests are performed by introducing the most common nanoparticles from both silver and gold which are majorly produced by the manufacturing companies in the entire globe.

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The toxicity of the nanoparticles is not in the public domain, and many stakeholders do not take into account the magnitude of the influence they have in the environment (Liang, 4899). In-depth research indicates that the nanoparticles can easily diffuse across the cell membrane into the tissue cells where the caused massive destruction. Tentatively, the size of the particles upon emission from the donor surfaces moves in larger volumes into the body of the living organism where they have detrimental effects. On the other hand, the shape and composition of the nanoparticles contain the chemicals when inhaled acts as toxins. Besides, based on the nature of the particles which are definitely smaller in size and can only be seen using the electronic microscope contributes to the speed in which they penetrate the tissue cells. Research indicates that silver particles along with the gold particles which are commonly emitted into the environment from various manufacturing companies are more toxic (Liang, 4899).

It is imperative to note that, the nanoparticles whose effects are the chief cause of the cancerous tissues witnessed require rapid attention before they are exposed to the users in the society for consumption. Since the particles are found in every material, research indicates that cumulatively it will have tremendous effects on the living organism. From the video, the introduction of the nanoparticle into the aquatic ecosystem reveals a massive growth on the internal organs exposing the intensity of the nanoparticles to the marine ecosystem.

Interestingly, specific nanoparticles such as selenium which is used in the semiconductor industries are also considered the most toxic than ever thought when exposed to the lives of a living organism in the ecosystem. On the same account, it might also contain some dietary contribution only when used to a specific measured percentage. The effects of these nanoparticles are often felt after a given period once they are exposed into the environment.

Based on the in-depth analysis, the nanoparticle significantly affects the internal organ of the aquatic organisms which in the long run affects the general population within the ecosystem. These effects can only be noticed based research of the same particles hence there is an absolute need to check on the nanoparticles before they are introduced to the population through the materials (Liang, 4899).

Conclusion

Significantly, as part of the sustainable recovery, numerous research stations should be put up in order to help check on the concentration of the nanoparticles before they are released into the environment by the manufacturers. On the other hand, relevant policies should be put in place to help regulate the emission of the nanoparticles into the ecosystem to help minimize its effects. Since the impact of the nanoparticles in the aquatic environment is severe, there should a complete burn on any form of dumping into the water bodies to the marine lives (Liang, 4899)

Work Cited

Liang, Linen, et al. "Incorporation of In2S3 Nanoparticles into a Metal-Organic Framework for Ultrafast Removal of Hg from Water." Inorganic chemistry 57.9 (2018): 4891-4897.