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Stephan Barcikowski
Researcher at University of Duisburg-Essen
Publications - 374
Citations - 13139
Stephan Barcikowski is an academic researcher from University of Duisburg-Essen. The author has contributed to research in topics: Nanoparticle & Laser ablation. The author has an hindex of 53, co-authored 338 publications receiving 10427 citations. Previous affiliations of Stephan Barcikowski include University of Duisburg.
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Laser Synthesis and Processing of Colloids: Fundamentals and Applications
TL;DR: Unscreened surface charge of LSPC-synthesized colloids is the key to achieving colloidal stability and high affinity to biomolecules as well as support materials, thereby enabling the fabrication of bioconjugates and heterogeneous catalysts.
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Cytotoxicity and ion release of alloy nanoparticles.
TL;DR: Endothelial cells are found to be more sensitive to nanoparticle exposure than smooth muscle cells, suggesting cysteine to form metal complexes with bioactive ions in media.
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Interaction of colloidal nanoparticles with their local environment: the (ionic) nanoenvironment around nanoparticles is different from bulk and determines the physico-chemical properties of the nanoparticles
Christian Pfeiffer,Christoph Rehbock,Dominik Hühn,Carolina Carrillo-Carrión,Dorleta Jimenez de Aberasturi,Vivian Merk,Stephan Barcikowski,Wolfgang J. Parak +7 more
TL;DR: The aim of this review is to clarify and give an unifying view of the complex interplay between the NP's surface with their nanoenvironment, which has not been addressed in a comprehensive way in the literature.
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Advanced nanoparticle generation and excitation by lasers in liquids
TL;DR: This editorial briefly highlights selected recent advancements and critical aspects in the field of pulsed laser-based nanoparticle generation and manipulation, including exemplary strategies to harvest the unique properties of the laser-generated nanomaterials in theField of biomedicine and catalysis.
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Generation of nanoparticle colloids by picosecond and femtosecond laser ablations in liquid flow
Stephan Barcikowski,Ana Menéndez-Manjón,Boris N. Chichkov,Marijus Brikas,Gediminas Račiukaitis +4 more
TL;DR: In this paper, the femtosecond laser ablation in water is used to improve the reproducibility and increase the nanoparticle productivity by 380% compared to stationary liquid, achieving a maximum productivity of 8.6μg∕s at a pulse energy of 110μJ and repetition rate of 50kHz.