Unveiling the main factors triggering the coagulation at the <scp>SiC</scp>‐blood interface

Parlak, Zümray Vuslat; Labude‐Weber, Norina; Neuhaus, Kerstin; Schmidt, Christina; Morgan, Aaron David; Zybała, Rafał; González‐Julián, Jesús; Neuß, Sabine; Schickle, Karolina

doi:10.1002/jbm.a.37533

J Biomedical Materials Res

2023

DOI: 10.1002/jbm.a.37533

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Unveiling the main factors triggering the coagulation at the SiC‐blood interface

Zümray Vuslat Parlak

Norina Labude‐Weber

Kerstin Neuhaus

et al.

Abstract: Hemocompatibility is the most significant criterion for blood-contacting materials in successful in vivo applications. Prior to the clinical tests, in vitro analyses must be performed on the biomaterial surfaces in accordance with the ISO 10993-4 standards.Designing a bio-functional material requires engineering the surface structure and chemistry, which significantly influence the blood cell activity according to earlier studies. In this study, we elucidate the role of surface terminations and polymorphs of S… Show more

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2024

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Cited by 2 publications

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In Silico Detection and Conveyance Feasibility of Antifungal Prodrug Flucytosine on the Surface of Pristine and Germanium‐Doped SiC Nanosheet

Krishna,

Suvilal,

Vamadevan

et al. 2024

Small Methods

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The work describes a novel sensing and transportation feasibility of the well‐established antifungal drug Flucytosine (5‐FC) using a 2D Silicon carbide (SiC) and Germanium‐doped Silicon carbide (Ge@SiC) nanosheet via PBE level of Density functional theory. The computational study revealed that the drug molecules adhere to SiC and Ge@SiC sheets, maintaining their structural properties through physisorption on SiC and chemisorption on Ge@SiC. The charge transfer process associated with the adsorption is observed by Lowdin charge analysis and both the SiC and Ge@SiC sheets are identified as a feasible oxidation‐based nanosensor for the drug. The results of electronic property calculation revealed a reduction in bandgap by 48.2% and 44.8% on SiC and Ge@SiC sheets respectively on adsorption of the drug, highlighting SiC nanosheet to be used as a bandgap‐based sensing device. Sensing response at room temperature and human body temperature suggested that, the SiC sheet has an excellent selectivity to Flucytosine drug. The drug's desorption efficiency from the carrier is analyzed using recovery time analysis at different temperatures and frequencies, suggesting the SiC nanosheet to be a better candidate. Together, the study highlights the potential sensing ability of SiC nanosheet for Flucytosine in contrast to the existing 0‐D nanostructures.

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In Silico Detection and Conveyance Feasibility of Antifungal Prodrug Flucytosine on the Surface of Pristine and Germanium‐Doped SiC Nanosheet

Krishna,

Suvilal,

Vamadevan

et al. 2024

Small Methods

View full text Add to dashboard Cite

show abstract

Novel magnetic iron oxide-dextran sulphate nanocomposites as potential anticoagulants: Investigating interactions with blood components and assessing cytotoxicity

Plohl,

Fras Zemljič,

Vihar

et al. 2024

Carbohydrate Polymers

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Unveiling the main factors triggering the coagulation at the SiC‐blood interface

Cited by 2 publications

References 35 publications

In Silico Detection and Conveyance Feasibility of Antifungal Prodrug Flucytosine on the Surface of Pristine and Germanium‐Doped SiC Nanosheet

In Silico Detection and Conveyance Feasibility of Antifungal Prodrug Flucytosine on the Surface of Pristine and Germanium‐Doped SiC Nanosheet

Novel magnetic iron oxide-dextran sulphate nanocomposites as potential anticoagulants: Investigating interactions with blood components and assessing cytotoxicity

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