&lt;p&gt;Cyanobacteria – A Promising Platform in Green Nanotechnology: A Review on Nanoparticles Fabrication and Their Prospective Applications&lt;/p&gt;

Hamida, Reham Samir; Ali, Mohamed Abdelaal; Redhwan, Alya; Bin-Meferij, Mashael Mohammed

doi:10.2147/ijn.s256134

Cited by 80 publications

(56 citation statements)

References 144 publications

(280 reference statements)

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“…Nanotechnology has recently created a revolution in the scientific world, particularly in the industrial, medical, agricultural, and electronic sectors [ 1 , 2 ]. This revolution is due to the ability of this technology to generate new products in the nanoscale (at least one of their dimensions in the range 1–100 nm) with unique and desirable physicochemical and biological characteristics that are missing in their precursor forms [ 3 , 4 ]. These nanomaterials (NMs) have a high surface-area-to-volume ratio and can therefore be used in drug delivery [ 5 ], catalysis [ 6 ], therapeutics [ 7 , 8 ], theranostics [ 9 ], and detection and diagnostic fields [ 10 ].…”

Section: Introductionmentioning

confidence: 99%

“…These unique features of NPs facilitate the creation and development of new tools, processes, and products with applications in many sectors, including medicine, industry, and communication; thus, enthusiasm for producing novel nanoproducts has rapidly increased. However, this swift growth has resulted in harmful effects on living organisms and their environments [ 4 , 28 ]. This damage arises from using and yielding hazardous materials during the production of NPs via chemical synthesis approaches.…”

Section: Introductionmentioning

confidence: 99%

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Lichens—A Potential Source for Nanoparticles Fabrication: A Review on Nanoparticles Biosynthesis and Their Prospective Applications

Hamida

Ali

Abdelmeguid

et al. 2021

JoF

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Green synthesis of nanoparticles (NPs) is a safe, eco-friendly, and relatively inexpensive alternative to conventional routes of NPs production. These methods require natural resources such as cyanobacteria, algae, plants, fungi, lichens, and naturally extracted biomolecules such as pigments, vitamins, polysaccharides, proteins, and enzymes to reduce bulk materials (the target metal salts) into a nanoscale product. Synthesis of nanomaterials (NMs) using lichen extracts is a promising eco-friendly, simple, low-cost biological synthesis process. Lichens are groups of organisms including multiple types of fungi and algae that live in symbiosis. Until now, the fabrication of NPs using lichens has remained largely unexplored, although the role of lichens as natural factories for synthesizing NPs has been reported. Lichens have a potential reducible activity to fabricate different types of NMs, including metal and metal oxide NPs and bimetallic alloys and nanocomposites. These NPs exhibit promising catalytic and antidiabetic, antioxidant, and antimicrobial activities. To the best of our knowledge, this review provides, for the first time, an overview of the main published studies concerning the use of lichen for nanofabrication and the applications of these NMs in different sectors. Moreover, the possible mechanisms of biosynthesis are discussed, together with the various optimization factors influencing the biological synthesis and toxicity of NPs.

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Lichens—A Potential Source for Nanoparticles Fabrication: A Review on Nanoparticles Biosynthesis and Their Prospective Applications

Hamida

Ali

Abdelmeguid

et al. 2021

JoF

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“… 15 , 16 The potentiality of nanoparticles (NPs) to be promising antimicrobial agents is returning to their physical and chemical properties. 17 The smaller size of NPs enables them to easily penetrate the cells such as bacteria causing cellular damage. 18 Additionally, larger surface area of NPs allows them to be load with antibiotics and antimicrobial agents increasing their efficiency; 19 their charges play important role in nano/cell interfere; 20 their stability, 19 biocompatibility and bioavailability enabling them to be used in different medical applications.…”

Section: Introductionmentioning

confidence: 99%

“…to fabricate metal precursors into their nanoforms. 17 , 21 , 24–26 Thus, green synthesis approach does not produce or use toxic materials, making it safer for living organisms and the environment. 27 , 28 Similarly, biological synthesis of NPs has become more attractive than physical synthesis methods because biological synthesis can easily be performed under normal laboratory conditions without expensive instruments, intensive power, or significant costs.…”

Section: Introductionmentioning

confidence: 99%

“… 27 , 28 Similarly, biological synthesis of NPs has become more attractive than physical synthesis methods because biological synthesis can easily be performed under normal laboratory conditions without expensive instruments, intensive power, or significant costs. 17 , 29 Recently, many investigations used cyanobacteria as a bio-factory for synthesizing NPs showing the higher reducing potentiality of these creatures to fabricate the precursors material into their nanoforms. 27 , 30 Hamouda et al reported that Ag-NPs synthesized by Oscillatoria limnetica revealing potent anticancer and antibacterial potentiality.…”

Section: Introductionmentioning

confidence: 99%

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Lethal Mechanisms of Nostoc-Synthesized Silver Nanoparticles Against Different Pathogenic Bacteria

Hamida¹,

Ali²,

Goda³

et al. 2020

IJN

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Metal‐Organic Frameworks Deliver a Conjugate of Functional Oligonucleotides and Photosensitizer to Induce Apoptosis for Enhancing Chemotherapy

Han

Qian

et al. 2021

ChemNanoMat

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Metal‐organic frameworks are highly porous and biodegradable and have found numerous applications in biomedicine. However, the traditional chemotherapy of MOF‐drug delivery system remains a great challenge because of adverse side effects and cell tolerance. In this work, we have fabricated a hybrid drug delivery system based on ZIF‐90 encapsulated with Doxorubicin (DOX) and Ce6‐G3139 for enhanced chemotherapy. The released DOX can enter cell nucleus and trigger cell death. In addition, the G3139 binds to the anti‐apoptotic gene Bcl‐2 in tumor cells and related proteins are downregulated to inhibit cell proliferation. Meanwhile, the photosensitizer Ce6 carried by the nucleic acid will generate abundant reactive oxygen species under a near‐infrared (NIR) laser irradiation thus induces more cell apoptosis. It was worth mentioning that in vitro MTT test in the MCF‐7 cells assays revealed that DOX@ ZIF‐90/Ce6‐G3139 nanoparticles possessed stronger anticancer capability than free DOX or DOX@ ZIF‐90 nanoparticles indicating that the investigation offers an exciting new therapeutic strategy for the treatment of chemotherapy.

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<p>Cyanobacteria – A Promising Platform in Green Nanotechnology: A Review on Nanoparticles Fabrication and Their Prospective Applications</p>

Cited by 80 publications

References 144 publications

Lichens—A Potential Source for Nanoparticles Fabrication: A Review on Nanoparticles Biosynthesis and Their Prospective Applications

Lichens—A Potential Source for Nanoparticles Fabrication: A Review on Nanoparticles Biosynthesis and Their Prospective Applications

Lethal Mechanisms of Nostoc-Synthesized Silver Nanoparticles Against Different Pathogenic Bacteria

Metal‐Organic Frameworks Deliver a Conjugate of Functional Oligonucleotides and Photosensitizer to Induce Apoptosis for Enhancing Chemotherapy

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