Overview of Toxicity of Titanium Dioxide Nanoparticles, Its Synthesis, Functions, Mechanism, Models Used in Toxicological Studies and Disposal Methods- a Review DOI Open Access

Rakhi Chandoliya,

Shivika Sharma,

Vikas Sharma

и другие.

Опубликована: Авг. 20, 2024

Due to its intriguing applications across a wide range of industries, nanotechnology is generating lot interest globally. Titanium dioxide (TiO2) nanoparticles are one type nanoparticle (NP) that commonly utilised in everyday use and can be produced using variety physical, chemical, environmentally friendly techniques. Green synthesis an economical, benign, non-toxic method synthesising NPs. Under normal circumstances, the application TiO2 greatly enhanced plants' shoot length, leaf area, root dry weight. These growth-promoting factors coincided with elevated proline, soluble sugar, chlorophyll B levels as well improved antioxidant enzyme activity. Thus, higher proline other metabolites played role osmo-protection, while increased activities helped explain observed decrease hydrogen peroxide malondialdehyde contents. Taken together, these significantly plant growth under salinity. have demonstrated efficacy treating contaminated water been shown positively impact physiology, particularly response abiotic stresses. However, reaction varies depending on characteristics such metal species, type, size, shape, dose, duration exposure, variables. One most popular nanomaterials customer goods, agricultural, energy industries Therefore, harm ecosystems living things will unavoidably result from high demand widespread usage. Gaining more knowledge about toxicity NP could help risk assessments safe handling procedures for nanoparticles. The titanium oxide, many uses, nanoparticles, their mode all summarised this paper.

Язык: Английский

Overview of Toxicity of Titanium Dioxide Nanoparticles, Its Synthesis, Functions, Mechanism, Models Used in Toxicological Studies and Disposal Methods- a Review DOI Open Access

Rakhi Chandoliya,

Shivika Sharma,

Vikas Sharma

и другие.

Опубликована: Авг. 20, 2024

Due to its intriguing applications across a wide range of industries, nanotechnology is generating lot interest globally. Titanium dioxide (TiO2) nanoparticles are one type nanoparticle (NP) that commonly utilised in everyday use and can be produced using variety physical, chemical, environmentally friendly techniques. Green synthesis an economical, benign, non-toxic method synthesising NPs. Under normal circumstances, the application TiO2 greatly enhanced plants' shoot length, leaf area, root dry weight. These growth-promoting factors coincided with elevated proline, soluble sugar, chlorophyll B levels as well improved antioxidant enzyme activity. Thus, higher proline other metabolites played role osmo-protection, while increased activities helped explain observed decrease hydrogen peroxide malondialdehyde contents. Taken together, these significantly plant growth under salinity. have demonstrated efficacy treating contaminated water been shown positively impact physiology, particularly response abiotic stresses. However, reaction varies depending on characteristics such metal species, type, size, shape, dose, duration exposure, variables. One most popular nanomaterials customer goods, agricultural, energy industries Therefore, harm ecosystems living things will unavoidably result from high demand widespread usage. Gaining more knowledge about toxicity NP could help risk assessments safe handling procedures for nanoparticles. The titanium oxide, many uses, nanoparticles, their mode all summarised this paper.

Язык: Английский

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