2021
DOI: 10.1016/j.scienta.2020.109810
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The bifunctional role of copper nanoparticles in tomato: Effective treatment for Fusarium wilt and plant growth promoter

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Cited by 83 publications
(36 citation statements)
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“…Currently, the nanoformulations attracted the scienti c researchers for its applications in many elds as well as agricultural eld not only for controlling the occurrence diseases but also for enhancing the physiological behavior in plants, productivity of crops and development of vegetative growth (Adamovskaya et al, 2005;Servin et al, 2015;Lopez-Lima et al, 2021). Numerous studied the lowest toxicity of metals such as silver, copper, zinc, and iron in nanoforms compared with its salts (Abdel Ghany et al, 2018), nanoparticles of copper, Zinc and iron are 7,30 and 40 times less poisonous as compared to their corresponding sulfate salts of copper (Panyuta et al, 2016).…”
Section: Introductionmentioning
confidence: 99%
“…Currently, the nanoformulations attracted the scienti c researchers for its applications in many elds as well as agricultural eld not only for controlling the occurrence diseases but also for enhancing the physiological behavior in plants, productivity of crops and development of vegetative growth (Adamovskaya et al, 2005;Servin et al, 2015;Lopez-Lima et al, 2021). Numerous studied the lowest toxicity of metals such as silver, copper, zinc, and iron in nanoforms compared with its salts (Abdel Ghany et al, 2018), nanoparticles of copper, Zinc and iron are 7,30 and 40 times less poisonous as compared to their corresponding sulfate salts of copper (Panyuta et al, 2016).…”
Section: Introductionmentioning
confidence: 99%
“…Furthermore, Cu has several advantages: for instance, it is cheap, it is highly available, and its production in terms of nanoparticles is economical. Therefore, there are several studies on the use of Cu nanoparticles on phytopathogenic fungi [42,79,90,92,[152][153][154][155][156][157][158][159][160][161][162][163][164][165]. The main synthesis methods to obtain Cu nanoparticles for the control of this pathogen are mentioned in Table 2.…”
Section: Cu Nanoparticlesmentioning
confidence: 99%
“…Something similar occurs in medium-sized Cu nanoparticles (40 to 70 nm); however, by increasing their size, their fluidity in the membrane makes the growth and development of colonies of the pathogen impossible [90,92,158]. Finally, the large Cu nanoparticles (80 to >100 nm) inhibit the growth of mycelium and spores, thus demonstrating their antifungal capacity [152,153,161]. makes it difficult to analyze the size effect of Cu nanoparticles on antifungal activity (see Figure 4).…”
Section: Cu Nanoparticlesmentioning
confidence: 99%
“…The growth of microbial resistance because of the bacteria that withstand to multiple antibiotics have been remain as a part of source for the morbidity, mortality and socioeconomic loss worldwide [41]. Due to the excellent antibacterial activity of copper, the US Environmental Protection Agency had registered about 300 copper-containing products as antibacterial agent back in 2008 and they were studied for biomedical application [42], crop disease control [43] and waste water treatment [44]. Cu-NPs has been a cheap and efficient antibacterial agent for centuries where it was discovered to exhibit broad antibacterial properties by oxidizing their proteins and lipids [45].…”
Section: Antibacterial Applications Of Copper/graphene Based Nanocompositesmentioning
confidence: 99%