D
Daria Podstawczyk
Researcher at Wrocław University of Technology
Publications - 40
Citations - 1103
Daria Podstawczyk is an academic researcher from Wrocław University of Technology. The author has contributed to research in topics: Self-healing hydrogels & Chemistry. The author has an hindex of 11, co-authored 33 publications receiving 688 citations. Previous affiliations of Daria Podstawczyk include Texas A&M University.
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Application of response surface methodology and artificial neural network methods in modelling and optimization of biosorption process.
TL;DR: Most frequently used experimental designs are described, concerning their limitations and typical applications, and ways to determine the accuracy and the significance of model fitting for both methodologies described herein are presented.
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Biosorption of copper(II) ions by flax meal: Empirical modeling and process optimization by response surface methodology (RSM) and artificial neural network (ANN) simulation
TL;DR: In this paper, a feed-forward neural network with a topology optimized by response surface methodology was applied successfully for prediction of biosorption performance for the removal of Cu 2+ ions by waste flax meal.
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3D printed stimuli-responsive magnetic nanoparticle embedded alginate-methylcellulose hydrogel actuators
TL;DR: In this paper, a 3D printing ink, a bionanocomposite based on alginate, methylcellulose and magnetic nanoparticles (MNPs), was used to print pre-designed high-quality 3D structures.
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Biosorption of malachite green by eggshells: Mechanism identification and process optimization
TL;DR: The results of the present study showed that waste eggshells have the potential to be used as an inexpensive but effective biosorbent useful in wastewater treatment.
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Microfabricated and 3-D printed electroconductive hydrogels of PEDOT:PSS and their application in bioelectronics
John R. Aggas,Sara Abasi,Jesse F. Phipps,Daria Podstawczyk,Anthony Guiseppi-Elie,Anthony Guiseppi-Elie +5 more
TL;DR: A novel photocrosslinkable, hybrid bioactive and inherently conductive bioink formed from poly(3,4-ethylenedioxythiophene):polystyrene sulfonate (PEDOT:PSS) nanomaterials within poly(2-hydroxyethyl methacrylate) p(HEMA-co-EGMA) was used to render complex hydrogel constructs through microlithographic fabrication and 3-D printing.