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Готові списки джерел за темами / Hybrid nanoconstruct

Добірка наукової літератури з теми "Hybrid nanoconstruct"

Автор: Grafiati

Опубліковано: 14 березня 2023

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Статті в журналах з теми "Hybrid nanoconstruct"

1

Nguyen, Tuyen Duong Thanh, Arunkumar Pitchaimani, Colin Ferrel, Ravindra Thakkar, and Santosh Aryal. "Nano-confinement-driven enhanced magnetic relaxivity of SPIONs for targeted tumor bioimaging." Nanoscale 10, no. 1 (2018): 284–94. http://dx.doi.org/10.1039/c7nr07035g.

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We uniquely engineered targeted hybrid nanoconstruct (HNC) made up of PLGA and superficially decorated with bone targeting agent, alendronic acid, whose inner polymeric core is confined with 5 nm SPIONs by tuning the distance between the clustering SPIONs. Effect of such cluster confinement in the magnetic properties of HNC was studied in detail.

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2

Nair, Lakshmi V., Yutaka Nagaoka, Toru Maekawa, D. Sakthikumar, and Ramapurath S. Jayasree. "Quantum Dot Tailored to Single Wall Carbon Nanotubes: A Multifunctional Hybrid Nanoconstruct for Cellular Imaging and Targeted Photothermal Therapy." Small 10, no. 14 (April 1, 2014): 2771–75. http://dx.doi.org/10.1002/smll.201400418.

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3

Nimi, N., Ariya Saraswathy, Shaiju S. Nazeer, Nimmi Francis, Sachin J. Shenoy, and Ramapurath S. Jayasree. "Multifunctional hybrid nanoconstruct of zerovalent iron and carbon dots for magnetic resonance angiography and optical imaging: An In vivo study." Biomaterials 171 (July 2018): 46–56. http://dx.doi.org/10.1016/j.biomaterials.2018.04.012.

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4

Nair, Lakshmi V., Yutaka Nagaoka, Toru Maekawa, D. Sakthikumar, and Ramapurath S. Jayasree. "Quantum Dots: Quantum Dot Tailored to Single Wall Carbon Nanotubes: A Multifunctional Hybrid Nanoconstruct for Cellular Imaging and Targeted Photothermal Therapy (Small 14/2014)." Small 10, no. 14 (July 2014): 2964. http://dx.doi.org/10.1002/smll.201470085.

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5

Cauda, Valentina. "Stimuli-responsive hybrid nanoconstructs for efficient theranostic applications in nanomedicine." Project Repository Journal 15, no. 1 (November 7, 2022): 44–47. http://dx.doi.org/10.54050/prj1519538.

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Stimuli-responsive hybrid nanoconstructs for efficient theranostic applications in nanomedicine The multidisciplinary ERC Starting Grant project “Hybrid immune-eluding nanocrystals as smart and active theranostic weapons against cancer” (TrojaNanoHorse) and the following ERC Proof-of-Concept Grant aim to develop a new generation of multifunctional theranostic nanosystems and apply them for improved cancer treatment, efficient cell imaging and for providing high safety for the hosting organism.

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6

Deyev, S. M., and E. N. Lebedenko. "Targeted Bifunctional Proteins and Hybrid Nanoconstructs for Cancer Diagnostics and Therapies." Molecular Biology 51, no. 6 (November 2017): 788–803. http://dx.doi.org/10.1134/s002689331706005x.

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7

Dimitrov, Erik, Natalia Toncheva-Moncheva, Pavel Bakardzhiev, Aleksander Forys, Jordan Doumanov, Kirilka Mladenova, Svetla Petrova, Barbara Trzebicka, and Stanislav Rangelov. "Original Synthesis of a Nucleolipid for Preparation of Vesicular Spherical Nucleic Acids." Nanomaterials 12, no. 20 (October 18, 2022): 3645. http://dx.doi.org/10.3390/nano12203645.

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Spherical nucleic acids (SNAs)—nanostructures, consisting of a nanoparticle core densely functionalized with a shell of short oligonucleotide strands—are a rapidly emerging class of nanoparticle-based therapeutics with unique properties and specific applications as drug and nucleic acid delivery and gene regulation materials. In this contribution, we report on the preparation of hollow SNA nanoconstructs by co-assembly of an originally synthesized nucleolipid—a hybrid biomacromolecule, composed of a lipidic residue, covalently linked to a DNA oligonucleotide strand—with other lipids. The nucleolipid was synthesized via a click chemistry approach employing initiator-free, UV light-induced thiol-ene coupling of appropriately functionalized intermediates, performed in mild conditions using a custom-made UV light-emitting device. The SNA nanoconstructs were of a vesicular structure consisting of a self-closed bilayer membrane in which the nucleolipid was intercalated via its lipid–mimetic residue. They were in the lower nanometer size range, moderately negatively charged, and were found to carry thousands of oligonucleotide strands per particle, corresponding to a grafting density comparable to that of other SNA structures. The surface density of the strands on the bilayer implied that they adopted an unextended conformation. We demonstrated that preformed vesicular structures could be successfully loaded with either hydrophilic or hydrophobic dyes.

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Stigliano, Cinzia, Maricela R. Ramirez, Jaykrishna V. Singh, Santosh Aryal, Jaehong Key, Elvin Blanco, and Paolo Decuzzi. "Methotraxate-Loaded Hybrid Nanoconstructs Target Vascular Lesions and Inhibit Atherosclerosis Progression in ApoE−/−Mice." Advanced Healthcare Materials 6, no. 13 (April 12, 2017): 1601286. http://dx.doi.org/10.1002/adhm.201601286.

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9

Brogan, Alex P. S., Richard B. Sessions, Adam W. Perriman, and Stephen Mann. "Molecular Dynamics Simulations Reveal a Dielectric-Responsive Coronal Structure in Protein–Polymer Surfactant Hybrid Nanoconstructs." Journal of the American Chemical Society 136, no. 48 (November 20, 2014): 16824–31. http://dx.doi.org/10.1021/ja507592b.

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10

El-Boubbou, Kheireddine, O. M. Lemine, and Daniel Jaque. "Synthesis of novel hybrid mesoporous gold iron oxide nanoconstructs for enhanced catalytic reduction and remediation of toxic organic pollutants." RSC Advances 12, no. 55 (2022): 35989–6001. http://dx.doi.org/10.1039/d2ra05990h.

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Development of highly-efficient, rapid, and recyclable hybrid mesoporous Au–IO NPs nanocatalysts for elimination of toxic environmental contaminants. Thanks to synergistic cooperation of their well-dispersed AuNPs, large surface area/pore volume, and mesoporosity.

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Більше джерел

Частини книг з теми "Hybrid nanoconstruct"

1

Llansola-Portoles, Manuel J., Rodrigo E. Palacios, Devens Gust, Thomas A. Moore, and Ana L. Moore. "Artificial Photosynthesis: From Molecular to Hybrid Nanoconstructs." In From Molecules to Materials, 71–98. Cham: Springer International Publishing, 2015. http://dx.doi.org/10.1007/978-3-319-13800-8_3.

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