Nanomaterials: An Introduction
01 Jan 2021-Vol. 16, pp 1-27
Abstract: Nanotechnology offers a significant advantage in science, engineering, medicine, medical surgery, foods, packing, clothes, robotics, and computing from the beginning of the twenty-first century. As the potential scientific discovery always contains some good and bad effects on human civilization and the environment, nanotechnology is not an exception. The major drawbacks include economic disruption along with imposing threats to security, privacy, health, and environment. The introduction of the chapter discusses the historical background of nanotechnology. Later it also discusses the advancement of nanotechnology to date with its benefits. Major drawbacks of nanotechnology arise in human health due to the enormous involvement in medicine, food, agriculture, etc. This chapter also deals with environmental nano pollution and its effect on society, highlighting the social-economic disruption due to the rapid use of nanotechnology. Nano pollution affects not only human beings but also other living beings like microorganisms, animals and plants, which are briefly reviewed. This chapter also demonstrates the safety and security of nanotechnological developments, current policy and regulation status, challenges, and future trends. Finally, it is concluded, while nanotechnology offers more efficient power sources, faster and modern computers and technologies, life-saving medical treatments, but due to some negative impacts, it bounds us to think twice before any further advanced technological applications.
Citations
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TL;DR: In this article, a nanosecond pulse laser-assisted photoporation using titanium-oxide nanotubes (TNT) for highly efficient intracellular delivery has been established.
10 citations
TL;DR: In this article , the authors present diverse aptamer-functionalized hybrid nanomaterial conjugates designs and their applications for sensing and decontamination, and several isolated aptamer sequences for algal toxins are addressed in this review.
9 citations
TL;DR: In this paper , a D-shaped photonic crystal fiber sensor with 10 layers of graphene on the surface plasmon of gold is proposed for tuning refractive index (RI) sensitivity in the visible and IR regions.
Abstract: A simple design of a D-shaped photonic crystal fiber sensor with 10 layers of graphene on the surface plasmon of gold is proposed for tuning refractive index (RI) sensitivity in the visible and IR regions. The proposed structure has been simulated by optimizing the mesh size and the method of finite-difference eigenmode. By tuning the chemical potential of graphene ( μ c ), we realize tunable and enhanced RI sensing for a wide RI range from 1.35 to 1.42. The maximum wavelength sensitivities of the proposed sensor are 5200 nm/RIU, 6000 nm/RIU, and 7500 nm/RIU for μ c = 0.8 e v , 1.0 ev, and 1.2 ev, respectively. Further, sensor characteristic parameters such as amplitude sensitivity, resolution, and figure of merit have been investigated for different chemical potentials. All dramatic changes in sensor parameters show an advancement plan to control and tune RI-based optical sensors assisted by graphene.
6 citations
01 Jan 2023
TL;DR: In this paper , the authors focused on the collateral effects of the nanoparticles on the human and environmental health and proposed a method to assess and assess NP environmental effect, interactions with live creatures, and their accumulation in ecosystems.
Abstract: The development of nanotechnology in the field of agriculture and environment during recent times has significantly advanced the area and paved the way for future nanotechnologies. Though the substantial effect of the particle size on the material toxicities has been well recognized, however, the effect of the particle size on the nanoparticle behavior and reactivity is not well known. Currently, nanoparticles are used to tackle the environment pollution in terms of removal of toxins from water, soil, sewage, and air. They have also been employed in environmental instrumentation, including sensors, green nanotechnology, and greenhouse gas reduction. However, apart from these, there are some harmful effects of the nanoparticles on the environment. Therefore, using NPs in remediation treatments is not a short-term solution. However, it is critical to study and assess NP environmental effect, interactions with live creatures, and their accumulation in ecosystems. Considering all these factors, the current chapter is focused on the study of the collateral effects of the nanoparticles on the human and environmental health.
1 citations
TL;DR: In this paper , the authors have fabricated cellulose-based films hybridized with chitosan and g-C3N4 for visible light-induced removal of methylene blue and Cr (VI) ions from water.
References
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TL;DR: Titania nanoparticles are related to cytotoxic and genotoxic impact on a cell line representative of human lung, namely A549 alveolar epithelial cells.
Abstract: Titania nanoparticles are produced by tons, and included in commercial products, raising concerns about their potential impact on human health. This study relates their cytotoxic and genotoxic impact on a cell line representative of human lung, namely A549 alveolar epithelial cells.
20 citations
TL;DR: In this article, the authors study time domain terahertz spectroscopy and optical pump induced changes in tera-hertz conductivity of self-supported RGO membrane in the spectral window of 0.5-3.5 THz.
20 citations
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01 Jan 2016
19 citations
TL;DR: Evaluated data show that AgNPs modify the contractile action of ACh through NO production and possibly induce hyper-reactivity of tracheal smooth muscle.
19 citations
01 Jan 2020
TL;DR: This chapter mainly focuses on different physical drug-delivery techniques such as electroporation, optoporation, mechanopsoration, magnetoporation and hybrid techniques along with their working mechanisms, advantages, disadvantages, and limitations.
Abstract: Delivery of exogenous materials or cargo such as drugs, proteins, peptides, and nucleic acids into cells is a vital segment in molecular and cellular biology for potential cellular therapy and drug-discovery applications contributing toward personalization of medicine. Over the years, drug-delivery techniques have been developed in order to gain more control over the drug dosage, targeted delivery, and to minimize side effects. The major drug-delivery techniques can be classified as viral, chemical, and physical methods. Viral vectors are prominently used for gene therapy; however, they are cell-specific and have an immune response with high toxicity. Chemical methods are often limited by the low efficiency of plasmid delivery into different cell types due to plasmid degradation and toxicity. Considering these limitations, different physical methods such as photoporation, gene gun, hydrodynamic injection, electroporation, and mechanoporation, etc., are being widely developed for highly efficient cargo delivery with low toxicity. These methods are able to create transient hydrophilic membrane pores to deliver cargos into cells using different physical energies. Currently, ex vivo cargo delivery is widely studied while few in vivo applications have been developed. Concerning several obstacles to cargo delivery into cells, this chapter mainly focuses on different physical drug-delivery techniques such as electroporation, optoporation, mechanoporation, magnetoporation, and hybrid techniques along with their working mechanisms, advantages, disadvantages, and limitations. An insight into the future prospects and real-time applications of these techniques is also discussed.
18 citations