Sławomir Błoński: Difference between revisions

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===Publications===
===Publications===
*<sup>☯</sup>
* <span class="nopmbm">Sønstevold&nbsp;L</span>, <span class="pmbm">Czerkies&nbsp;M</span>, <span class="nopmbm">Escobedo-Cousin&nbsp;E</span>, <span class="pmbm">Blonski&nbsp;S</span>, <span class="nopmbm">Vereshchagina&nbsp;E</span>. ''Micromachines'' <u>14</u>(3):532 (2023) [https://dx.doi.org/10.3390/mi14030532 CrossRef]
* <span class="nopmbm">Rabcuka&nbsp;J</span>, <span class="pmbm">Blonski&nbsp;S</span>, <span class="nopmbm">Meli&nbsp;A</span>, <span class="nopmbm">Sowemimo-Coker&nbsp;S</span>, <span class="pmbm">Zaremba&nbsp;D</span>, <span class="nopmbm">Stephenson&nbsp;D</span>, <span class="nopmbm">Dzieciatkowska&nbsp;M</span>,  <span class="nopmbm">Nerguizian&nbsp;D</span>, <span class="nopmbm">Cardigan&nbsp;R</span>, <span class="pmbm">Korczyk&nbsp;PM</span>, <span class="nopmbm">Smethurst&nbsp;PA</span>, <span class="nopmbm">D'Alessandro&nbsp;A</span>, <span class="nopmbm">Swietach&nbsp;P</span>. '''Metabolic reprogramming under hypoxic storage preserves faster oxygen unloading from stored red blood cells''', ''Blood&nbsp;Adv'' <u>6</u>(18):5415–5428 (2022) [https://pubmed.ncbi.nlm.nih.gov/35736672 PubMed] [http://dx.doi.org/10.1182/bloodadvances.2022007774 CrossRef]
* <span class="nopmbm">Rabcuka&nbsp;J</span>, <span class="pmbm">Blonski&nbsp;S</span>, <span class="nopmbm">Meli&nbsp;A</span>, <span class="nopmbm">Sowemimo-Coker&nbsp;S</span>, <span class="pmbm">Zaremba&nbsp;D</span>, <span class="nopmbm">Stephenson&nbsp;D</span>, <span class="nopmbm">Dzieciatkowska&nbsp;M</span>,  <span class="nopmbm">Nerguizian&nbsp;D</span>, <span class="nopmbm">Cardigan&nbsp;R</span>, <span class="pmbm">Korczyk&nbsp;PM</span>, <span class="nopmbm">Smethurst&nbsp;PA</span>, <span class="nopmbm">D'Alessandro&nbsp;A</span>, <span class="nopmbm">Swietach&nbsp;P</span>. '''Metabolic reprogramming under hypoxic storage preserves faster oxygen unloading from stored red blood cells''', ''Blood&nbsp;Adv'' <u>6</u>(18):5415–5428 (2022) [https://pubmed.ncbi.nlm.nih.gov/35736672 PubMed] [http://dx.doi.org/10.1182/bloodadvances.2022007774 CrossRef]



Revision as of 22:12, 28 August 2023

Ph.D., Assistant Professor
Sławomir Błoński

Contact

e-mail at ippt.pan.pl: sblonski
tel.: +48 22 8261280 ext. 413
room: 312

Institute of Fundamental Technological Research
Polish Academy of Sciences
Pawińskiego 5B, 02-106 Warsaw, Poland


Publications

  • Sønstevold L, Czerkies M, Escobedo-Cousin E, Blonski S, Vereshchagina E. Micromachines 14(3):532 (2023) CrossRef
  • Rabcuka J, Blonski S, Meli A, Sowemimo-Coker S, Zaremba D, Stephenson D, Dzieciatkowska M, Nerguizian D, Cardigan R, Korczyk PM, Smethurst PA, D'Alessandro A, Swietach P. Metabolic reprogramming under hypoxic storage preserves faster oxygen unloading from stored red blood cells, Blood Adv 6(18):5415–5428 (2022) PubMed CrossRef
  • Zaremba D, Błoński S, Korczyk PM. Concentration on demand – a microfluidic system for precise adjustment of the content of single droplets, Chem Eng J 430(3):132935 (2022) CrossRef
  • Blonski S, J Aureille, S Badawi, D Zaremba, L Pernet, A Grichine, S Fraboulet, PM Korczyk, P Recho, Ch Guilluy, ME Dolega. Direction of epithelial folding defines impact of mechanical forces on epithelial state, Dev Cell 56:3222–3234 (2021) CrossRef
  • Zaremba D, Błoński S, Korczyk PM. Integration of capillary–hydrodynamic logic circuitries for built-in control over multiple droplets in microfluidic networks, Lab Chip 21:1771 (2021) PubMed CrossRef
  • Blonski S, Zaremba D, Jachimek M, Jakiela S, Wacławczyk T, Korczyk PM. Impact of inertia and channel angles on flow distribution in microfluidic junctions, Microfluid Nanofluid 24:14 (2020) CrossRef
  • Zalewska-Piątek B, Olszewski M, Lipniacki T, Błoński S, Wieczór M, Bruździak P, Skwarska A, Nowicki B, Nowicki S, Piątek R. A shear stress micromodel of urinary tract infection by the Escherichia coli producing Dr adhesin, PLOS Pathog 16:1 (2020) CrossRef
  • Korczyk PM, van Steijn V, Blonski S, Zaremba D, Beattie DA, Garstecki P. Accounting for corner flow unifies the understanding of droplet formation in microfluidic channels, Nat Commun 10:2528 (2019) PubMed CrossRef | PDF SuppInfo-PDF
  • Jetka T, Winarski T, Nienałtowski K, Błoński S, Komorowski M. Information-theoretic analysis of multivariate single-cell signaling responses, PLOS Comput Biol 15(7):e1007132 (2019) CrossRef | PDF SuppInfo-PDF
  • Zaremba D, Blonski S, Marijnissen MJ, Korczyk PM. Fixing the direction of droplets in a bifurcating microfluidic junction, Microfluid Nanofluid 23:55 (2019) CrossRef
  • Blonski S, Pregowska A, Michalek T, Szczepanski J. The use of Lempel-Ziv complexity to analyze turbulence and flow randomness based on velocity fluctuations, Bull Polish Acad Sci–Tech Sci 67(5):957–962 (2019) CrossRef
  • Czerkies M, Korwek Z, Prus W, Kochańczyk M, Jaruszewicz-Błońska J, Tudelska K, Błoński S, Kimmel M, Brasier AR, Lipniacki T. Cell fate in antiviral response arises in the crosstalk of IRF, NF-κB and JAK/STAT pathways, Nat Commun 9:493 (2018) PubMed CrossRef | PDF SuppInfo-PDF SuppData SuppMovies SuppCode
  • Zaremba D, Błoński S, Jachimek M, Marijnissen MJ, Jakieła S, Korczyk PM. Investigations of modular microfluidic geometries for passive manipulations on droplets, Bull Polish Acad Sci–Tech Sci 66(2):139–149 (2018) CrossRef
  • Małolepszy A, Błonski S, Chrzanowska-Giżyńska J, Wojasiński M, Płocinski T, Stobinski L, Szymanski Z. Fluorescent carbon and graphene oxide nanoparticles synthesized by the laser ablation in liquid, Appl Phys A–Mater Sci Process 124:282 (2018) CrossRef
  • Jarecki L, Błoński S, Zachara Z. Modeling of pneumatic melt drawing of poly-L-lactide fibers in the Laval nozzle, Ind Eng Chem Res (2015) 54(43):10796–10810 CrossRef
  • Blim A, Jarecki L, Błoński S. Modeling of pneumatic melt drawing of polypropylene super-thin fibers in the Laval nozzle, Bull Pol Acad Sci–Tech Sci 62(1):43–54 (2014) CrossRef | PDF
  • Węgrzyn J, Samborski A, Reissig L, Korczyk PM, Błoński S, Garstecki P. Microfluidic architectures for efficient generation of chemistry gradations in droplets, Microfluid Nanofluid 14(1-2):235–245 (2013, e-pub 2012) CrossRef | PDF
  • Jarecki L, Błoński S, Blim A, Zachara A. Modeling of Pneumatic Melt Spinning Processes, J Appl Polym Sci 125(6):4402–4415 (2012) CrossRef
  • Błoński S, Domagalski P, Dziubiński M, Kowalewski TA. Hydrodynamically modified seeding for micro-PIV, Arch Mech 63:163–182 (2011) PDF
  • Jarecki L, Błoński S, Zachara A, Blim A. Computer modeling of pneumatic formation of superthin fibres, Comp Meth Mat Sci 11(1):74–80 (2011)
  • Szumbarski J, Błoński S. Destabilization of laminar flow in a rectangular channel by transversely-oriented wall corrugation, Arch Mech 63(4):393–428 (2011) PDF
  • Bretcanu O, Misra SK, Yunos DM, Boccaccini AR, Roy I, Kowalczyk T, Błoński S, Kowalewski TA. Electrospun nanofibrous biodegradable polyester coatings on Bioglass-based glass-ceramics for tissue engineering, Mater Chem Phys 118:420–426 (2009) CrossRef
  • Kowalewski TA, Błoński S, Korczyk P. Eksperymentalna analiza przepływów w skali mikro i nano [Experimental analysis of micro- and nanoscale flows], in Wybrane zagadnienia przepływów i wymiany ciepła, Oficyna Wyd. Polit. Warsz. 6:127–149 (2008)
  • Licznar P, Łomotowski J, Błoński S, Ciach GJ. Microprocessor Field Impactometer Calibration: Do We Measure Drops Momentum or Their Kinetic Energy?, J Atmos Ocean Tech 25:742–753 (2008) CrossRef
  • Błoński S, Korczyk PM, Kowalewski TA. Analysis of turbulence in a micro-channel emulsifier, Int J Therm Sci 46:1126–1141 (2007) CrossRef
  • Błoński S, Kowalewski TA. PIV analysis of turbulent flow in a micro-channel, J Theor Appl Mech 45:489–503 (2007) PDF
  • Sielamowicz I, Błoński S, Kowalewski TA Digital Particle Image Velocimetry (DPIV) technique in measurements of granular material flows, Part 2 of 3 – converging hoppers, Chem Eng Sci 61(16):5307-5317 (2006) CrossRef
  • Kowalewski TA, Blonski S, Barral S. Experiments and modelling of electrospinning process, B Pol Acad Sci-Tech 53:385–394 (2005) PDF
  • Sielamowicz I, Błoński S, Kowalewski TA. Optical technique DPIV in measurements of granular material flows, Part 1 of 3 - plane hoppers, Chem Eng Sci 60(2):589–598 (2005) CrossRef
  • Sielamowicz I, Kowalewski TA, Błoński S. Central and Eccentric Granular Material Flows in Bins/Hoppers Registered by Optical Technique DPIV, Acta Agrophysica 4(2):519–531 (2004)