Bryan J Harper
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Explore the profile of Bryan J Harper including associated specialties, affiliations and a list of published articles.
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Articles
19
Citations
169
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Recent Articles
1.
Nieves Lira C, Carpenter A, Baio J, Harper B, Harper S, Mackiewicz M
Chem Res Toxicol
. 2024 May;
37(6):968-980.
PMID: 38743843
The widespread use of silver nanoparticles (AgNPs) in various applications and industries has brought to light the need for understanding the complex relationship between the physicochemical properties (shape, size, charge,...
2.
Harper B, Engstrom A, Harper S, Mackiewicz M
Nanomaterials (Basel)
. 2024 Apr;
14(8).
PMID: 38668148
We investigated the impacts of spherical and triangular-plate-shaped lipid-coated silver nanoparticles (AgNPs) designed to prevent surface oxidation and silver ion (Ag) dissolution in a small-scale microcosm to examine the role...
3.
Stine J, Aziere N, Harper B, Harper S
Micromachines (Basel)
. 2023 Oct;
14(10).
PMID: 37893340
As plastic production continues to increase globally, plastic waste accumulates and degrades into smaller plastic particles. Through chemical and biological processes, nanoscale plastic particles (nanoplastics) are formed and are expected...
4.
Golbek T, Harper B, Harper S, Baio J
Biointerphases
. 2022 Nov;
17(6):061003.
PMID: 36347646
Customizable gold nanoparticle platforms are motivating innovations in drug discovery with massive therapeutic potential due to their biocompatibility, stability, and imaging capabilities. Further development requires the understanding of how discrete...
5.
Silver Nanoparticles Stable to Oxidation and Silver Ion Release Show Size-Dependent Toxicity In Vivo
Cunningham B, Engstrom A, Harper B, Harper S, Mackiewicz M
Nanomaterials (Basel)
. 2021 Jul;
11(6).
PMID: 34201075
Silver nanoparticles (AgNPs) are widely used in commerce, however, the effect of their physicochemical properties on toxicity remains debatable because of the confounding presence of Ag ions. Thus, we designed...
6.
Shupe H, Boenisch K, Harper B, Brander S, Harper S
Environ Toxicol Chem
. 2021 Mar;
40(7):1822-1828.
PMID: 33661533
Agglomeration of nanoplastics in waters can alter their transport and fate in the environment. Agglomeration behavior of 4 nanoplastics differing in core composition (red- or blue-dyed polystyrene) and surface chemistry...
7.
Stine J, Harper B, Conner C, Velev O, Harper S
Nanomaterials (Basel)
. 2021 Jan;
11(1).
PMID: 33418857
Lignin is the second most abundant biopolymer on Earth after cellulose. Since lignin breaks down in the environment naturally, lignin nanoparticles may serve as biodegradable carriers of biocidal actives with...
8.
Crandon L, Boenisch K, Harper B, Harper S
PLoS One
. 2020 Jun;
15(6):e0233844.
PMID: 32492068
The hydrophobicity of nanoparticles (NPs) is a key property determining environmental fate, biological partitioning and toxicity. However, methods to characterize surface hydrophobicity are not uniformly applied to NPs and cannot...
9.
Wu F, Harper B, Crandon L, Harper S
Environ Sci Nano
. 2020 May;
7(1):105-115.
PMID: 32391155
Copper based nanoparticles (NPs) are used extensively in industrial and commercial products as sensors, catalysts, surfactants, antimicrobials, and for other purposes. The high production volume and increasing use of copper-based...
10.
Hooven L, Chakrabarti P, Harper B, Sagili R, Harper S
Molecules
. 2019 Dec;
24(24).
PMID: 31817417
The decline in populations of insect pollinators is a global concern. While multiple factors are implicated, there is uncertainty surrounding the contribution of certain groups of pesticides to losses in...