2022
DOI: 10.1021/acsanm.2c03213
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Surface-Active Plasma-Polymerized Nanoparticles for Multifunctional Diagnostic, Targeting, and Therapeutic Probes

Abstract: Surface-functionalized polymeric nanoparticles have advanced the field of nanomedicine as promising constructs for targeted delivery of molecular cargo as well as diagnostics and therapeutics. Conventionally, the functionalization of polymeric nanoparticles incorporates tedious wet chemical methods that require complex, multistep protocols. Surface-active plasma-polymerized nanoparticles (PPNs) produced by a dry, low-pressure plasma process can be easily functionalized with multiple ligands in a simple step. H… Show more

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Cited by 10 publications
(8 citation statements)
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“…[66,[101][102][103][104][105] Depositing plasmas, on the other hand, coat the surfaces of substrates with either an additional layer like plasma polymer films [106][107][108][109][110][111] and magnetronsputtered coatings [112][113][114][115][116][117] or synthesize new material such as nanoparticles. [118][119][120][121] The plasma processes share a common underlying concept: The electrons in the plasma are accelerated by electric fields, and they excite the reactant gases, resulting in ionization, radical fragmentation, and enhanced plasma phase chemistry. [107] With an organic gas such as acetylene [122] or monomer vapors such as allylamine, [123,124] acrylic acid, [125] octadiene, [126,127] or thiophene, [128,129] plasma polymerization can be used not only for the coating of particulate surfaces but also for the production of organic nanoparticles.…”
Section: Biofunctional Molecules Attached To Polymeric Nanoparticles:...mentioning
confidence: 99%
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“…[66,[101][102][103][104][105] Depositing plasmas, on the other hand, coat the surfaces of substrates with either an additional layer like plasma polymer films [106][107][108][109][110][111] and magnetronsputtered coatings [112][113][114][115][116][117] or synthesize new material such as nanoparticles. [118][119][120][121] The plasma processes share a common underlying concept: The electrons in the plasma are accelerated by electric fields, and they excite the reactant gases, resulting in ionization, radical fragmentation, and enhanced plasma phase chemistry. [107] With an organic gas such as acetylene [122] or monomer vapors such as allylamine, [123,124] acrylic acid, [125] octadiene, [126,127] or thiophene, [128,129] plasma polymerization can be used not only for the coating of particulate surfaces but also for the production of organic nanoparticles.…”
Section: Biofunctional Molecules Attached To Polymeric Nanoparticles:...mentioning
confidence: 99%
“…[107] With an organic gas such as acetylene [122] or monomer vapors such as allylamine, [123,124] acrylic acid, [125] octadiene, [126,127] or thiophene, [128,129] plasma polymerization can be used not only for the coating of particulate surfaces but also for the production of organic nanoparticles. [120,121,130] Originally known as plasma dust or powder, plasma polymerized nanoparticles (PPNs) were explored as by-products in space or contaminants in semiconductor industry plasma processes. [131] More recently, their potential as nanocarriers in the biomedical field has been realized and is being explored for multi-functional therapeutics.…”
Section: Biofunctional Molecules Attached To Polymeric Nanoparticles:...mentioning
confidence: 99%
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