Marcel Krzan

Leader (PI) of the research project - Opus 23 - 2022-2025 by National Science Center of Poland at Jerzy Haber Institute of Catalysis and Surface Chemistry, Polish Academy of Sciences
  • Claim this Profile
Contact Information
us****@****om
(386) 825-5501
Location
Krakow Metropolitan Area, PL
Languages
  • English Professional working proficiency
  • Polish Native or bilingual proficiency
  • German Elementary proficiency
Skills

Topline Score

Topline score feature will be out soon.

Bio

Generated by
Topline AI

You need to have a working account to view this content.
Join now
You need to have a working account to view this content.
Join now

Credentials

  • Strategic Thinking for Growing Your Enterprise
    NovoEd
    May, 2016
    - Sep, 2024

Experience

  • Jerzy Haber Institute of Catalysis and Surface Chemistry, Polish Academy of Sciences
    • Poland
    • Chemical Manufacturing
    • 1 - 100 Employee
    • Leader (PI) of the research project - Opus 23 - 2022-2025 by National Science Center of Poland
      • Dec 2022 - Present

      I am a Leader of National Scientific Center of Poland “Opus 23” project entitled "Biodegradable, biocompatible and interactive surfactants - as an ecologically safe alternative to synthetic compounds in the generation of foams and emulsions for cosmetic, medical and industrial applications" (grant no. 2022/45/B/ST8/02058, budget ca. 340000 Euro). Project in progress. During the project, I want to develop formulations of "smart", bio-active, surface-active and biodegradable emulsions and… Show more I am a Leader of National Scientific Center of Poland “Opus 23” project entitled "Biodegradable, biocompatible and interactive surfactants - as an ecologically safe alternative to synthetic compounds in the generation of foams and emulsions for cosmetic, medical and industrial applications" (grant no. 2022/45/B/ST8/02058, budget ca. 340000 Euro). Project in progress. During the project, I want to develop formulations of "smart", bio-active, surface-active and biodegradable emulsions and foams. Obtained dispersed systems will be based on mixtures of biosurfactants with biopolymers (or nanoparticles). The additives will have bioactive, therapeutic or other properties required by the final application generated dispersed systems. To ensure the interactivity of the developed dispersed systems, I plan to introduce surfactants that change their surface activity under the influence of pH, ionic strength, temperature or light stimuli. I also want to ensure that the surfactants will interact with other biopolymers and solid particles of natural origin, complexing them and introducing them into the adsorption layer. As a result, compounds devoid of surface activity may be found in the adsorption layer in significant excess and improve the property of the thin interfacial lamella film. In the same way, the non surface-active compounds will be removed as complex additives from the wastewater slurries. Show less I am a Leader of National Scientific Center of Poland “Opus 23” project entitled "Biodegradable, biocompatible and interactive surfactants - as an ecologically safe alternative to synthetic compounds in the generation of foams and emulsions for cosmetic, medical and industrial applications" (grant no. 2022/45/B/ST8/02058, budget ca. 340000 Euro). Project in progress. During the project, I want to develop formulations of "smart", bio-active, surface-active and biodegradable emulsions and… Show more I am a Leader of National Scientific Center of Poland “Opus 23” project entitled "Biodegradable, biocompatible and interactive surfactants - as an ecologically safe alternative to synthetic compounds in the generation of foams and emulsions for cosmetic, medical and industrial applications" (grant no. 2022/45/B/ST8/02058, budget ca. 340000 Euro). Project in progress. During the project, I want to develop formulations of "smart", bio-active, surface-active and biodegradable emulsions and foams. Obtained dispersed systems will be based on mixtures of biosurfactants with biopolymers (or nanoparticles). The additives will have bioactive, therapeutic or other properties required by the final application generated dispersed systems. To ensure the interactivity of the developed dispersed systems, I plan to introduce surfactants that change their surface activity under the influence of pH, ionic strength, temperature or light stimuli. I also want to ensure that the surfactants will interact with other biopolymers and solid particles of natural origin, complexing them and introducing them into the adsorption layer. As a result, compounds devoid of surface activity may be found in the adsorption layer in significant excess and improve the property of the thin interfacial lamella film. In the same way, the non surface-active compounds will be removed as complex additives from the wastewater slurries. Show less

  • Jerzy Haber Institute of Catalysis and Surface Chemistry PAS
    • Adjunct (assistant professor) & Senior researcher (PhD)
      • Oct 1998 - Present

      I'm an experienced researcher in the fields of physico-chemistry of liquids and hydrodynamics. I am an author or co-author of 2 chapters in the scientific books and over 60-reviewed scientific publications (Hirsch factor =17). My main research topics are connected with: i) bubble motion in surface-active agent solutions, ii) adsorption processes, state of adsorption layer at gas/liquid interface under dynamic conditions, iii) foam and emulsion stability and rheology, iv) surface activity of… Show more I'm an experienced researcher in the fields of physico-chemistry of liquids and hydrodynamics. I am an author or co-author of 2 chapters in the scientific books and over 60-reviewed scientific publications (Hirsch factor =17). My main research topics are connected with: i) bubble motion in surface-active agent solutions, ii) adsorption processes, state of adsorption layer at gas/liquid interface under dynamic conditions, iii) foam and emulsion stability and rheology, iv) surface activity of biopolymers (proteins or polysaccharides, v) flotation and dynamic of three-phase contact formation, vi) solid foam preparation and formation, vii) automatic digital image analysis. I participated in numerous international fellowship programs, founded by European Tempus Erasmus (1998), DAAD Deutscher Akademischer Austausch Dienst (2003), the French Egide (2005) and the CNRS Centre National de la Recherche Scientifique (2006), European exchange programs COST (2009, 2013, and 2014) and Erasmus (2014-2016). Between 2004-2007 I was one of the scientific investigators in the European Space Agency project "Hydrodynamics of wet foams" (second and third tasks performed within the framework of post-doctoral internships at France and Belgium). Since 2011 I am a Leader of the R@D Polish National Scientific Center project entitled "Development in technology for generation of stable and biodegradable aqueous foam for industrial and biomedical applications." I have more than 5 years of experience in Polish and European projects related to innovation, entrepreneurship, SMEs support, business development, infrastructure of research & higher education and technology transfer. My experiences in those areas is also supported by more than 20 specialized courses related to similar subjects organized in the framework of programs "Skills" by Foundation for Polish Science and "SIMS" Science Infrastructure Management Support by Polish National Center for Research and Development

    • Leader (PI) of the research project - Opus 11 - 2016-2022 by National Science Center of Poland
      • Nov 2016 - Jan 2022

      I was a Leader of National Scientific Center of Poland “Opus 11” project entitled "“Development of modern generation technology of stable biological surface film for various bio-medical applications (antibacterial or regeneration properties) " (grant no. 2016/21/B/ST8/02107, budget ca. 260000 Euro). The project is based on my experiences gained during my project “Opus 1” project regarding the bio-foams formulations. It is also strictly connected with my cooperation with the cosmetic SME… Show more I was a Leader of National Scientific Center of Poland “Opus 11” project entitled "“Development of modern generation technology of stable biological surface film for various bio-medical applications (antibacterial or regeneration properties) " (grant no. 2016/21/B/ST8/02107, budget ca. 260000 Euro). The project is based on my experiences gained during my project “Opus 1” project regarding the bio-foams formulations. It is also strictly connected with my cooperation with the cosmetic SME “Luga- Cosmetic Center”. During the project I want to develop new, save, non toxic and hypo-allergic formulations of thin films, emulasions or foams with antibacterial or regeneration properties. My job, as a leader, was i) project management, ii) collaboration with my co-workers and iii) intense experimental iv) and analytical work. I will also v) cooperate with SME (Luga-Cosmetic Center to obtain the most interwsting research subjects. Our primary task in the course of the project was to develop new, innovative formulation of mixtures of polysaccharides and non-toxic surface active substances. The mixtures will be physico-chemically tested using all available methods (surface tension, surface elasticity, foamability, foam stability, foam rheology - viscoelasticy, thin foam film layer stability and thickess in Scheludko-Exerowa cell, and others). During the study we also will use the methods of mathematical CAD modeling, allowing us to develop prototypes and models of technological equipment for producing cosmetics basing on our results.

  • Jerzy Haber Institute of Catalysis and Surface Chemistry, Polish Academy of Sciences PAS
    • Poland
    • Chemical Manufacturing
    • 1 - 100 Employee
    • Project Leader (PI), international bilateral cooperation between PAS (Poland) - CNR (Italy)
      • Apr 2017 - Dec 2022

      Project Leader, international bilateral cooperation – Polish – Italian Joint Research project under the agreement of scientific cooperation between Polish Academy of Sciences and the National Research Council, titled: “Biocompatible particle-stabilized foams and emulsions as carriers for healing agents”. Italian cooperator: dr. F. Ravera from Institute of Condensed Matter Chemistry and Technologies for Energy CNR, Genova, Italy. During the project we want to develop technology for generation… Show more Project Leader, international bilateral cooperation – Polish – Italian Joint Research project under the agreement of scientific cooperation between Polish Academy of Sciences and the National Research Council, titled: “Biocompatible particle-stabilized foams and emulsions as carriers for healing agents”. Italian cooperator: dr. F. Ravera from Institute of Condensed Matter Chemistry and Technologies for Energy CNR, Genova, Italy. During the project we want to develop technology for generation and application of stable foam and emulsions formulated from mixtures of hypoallergenic, non-toxic biological polymers, mainly biosurfactants (proteins, polysaccharides, glycolipids and phospholipids). We will study the adsorption process in multicomponent biological (biocompatible and biodegradable) surface active agent solutions. Similar research hasn’t been presented yet in the literature of subject.

    • Project Leader (PI), international bilateral cooperation between PAS (Poland) - BAS (Bulgaria)
      • Feb 2018 - Jun 2021

      Project Leader, international bilateral cooperation – Polish – Bulgarian Joint Research project under the agreement of scientific cooperation between Polish and Bulgarian Academies of Sciences, titled: “Biocompatible particle-stabilized foams and emulsions for biomedical applications”. Bulgarian PI: prof. Elena Mileva from Institute of Phyiscal Chemistry Bulgarian Academy of Sciences BAS, Sofia, Bulgaria. During the project we want to develop technology for generation and application of… Show more Project Leader, international bilateral cooperation – Polish – Bulgarian Joint Research project under the agreement of scientific cooperation between Polish and Bulgarian Academies of Sciences, titled: “Biocompatible particle-stabilized foams and emulsions for biomedical applications”. Bulgarian PI: prof. Elena Mileva from Institute of Phyiscal Chemistry Bulgarian Academy of Sciences BAS, Sofia, Bulgaria. During the project we want to develop technology for generation and application of stable foam and emulsions formulated from mixtures of non-toxic biological polymers, mainly biosurfactants (proteins, polysaccharides, glycolipids and phospholipids). We will study the adsorption process in multicomponent biological (biocompatible and biodegradable) surface active agent solutions. Similar research hasn’t been presented yet in the literature of subject.

    • Project Leader (PI), international bilateral cooperation with Munster University, Germany
      • Dec 2018 - Dec 2021

      Polish – German Joint Research Project under the agreement of scientific cooperation between Polish National Agency of Academic Exchange and the German Academic Exchange Agency, titled: “Smart liquid/gas interfaces with photo-switchable surfactants”. German cooperator: prof. Prof. Dr. Björn Braunschweig from Westfälische Wilhelms-Universität Münster, Polish budget ca. 5000 Euro. Project in progress. This collaboration aims to clarify the molecular structure and dynamics of photo-switchable… Show more Polish – German Joint Research Project under the agreement of scientific cooperation between Polish National Agency of Academic Exchange and the German Academic Exchange Agency, titled: “Smart liquid/gas interfaces with photo-switchable surfactants”. German cooperator: prof. Prof. Dr. Björn Braunschweig from Westfälische Wilhelms-Universität Münster, Polish budget ca. 5000 Euro. Project in progress. This collaboration aims to clarify the molecular structure and dynamics of photo-switchable surfactants at different hierarchical level of aqueous foam from the nano to the macroscopic scale. In order to reveal structure-property relationships that govern foam properties from the molecular building blocks at the liquid/gas interface to the macroscopic foam. Show less Polish – German Joint Research Project under the agreement of scientific cooperation between Polish National Agency of Academic Exchange and the German Academic Exchange Agency, titled: “Smart liquid/gas interfaces with photo-switchable surfactants”. German cooperator: prof. Prof. Dr. Björn Braunschweig from Westfälische Wilhelms-Universität Münster, Polish budget ca. 5000 Euro. Project in progress. This collaboration aims to clarify the molecular structure and dynamics of photo-switchable… Show more Polish – German Joint Research Project under the agreement of scientific cooperation between Polish National Agency of Academic Exchange and the German Academic Exchange Agency, titled: “Smart liquid/gas interfaces with photo-switchable surfactants”. German cooperator: prof. Prof. Dr. Björn Braunschweig from Westfälische Wilhelms-Universität Münster, Polish budget ca. 5000 Euro. Project in progress. This collaboration aims to clarify the molecular structure and dynamics of photo-switchable surfactants at different hierarchical level of aqueous foam from the nano to the macroscopic scale. In order to reveal structure-property relationships that govern foam properties from the molecular building blocks at the liquid/gas interface to the macroscopic foam. Show less

  • Luga - Cosmetic Center SME
    • Senior Expert in the field of Good Laboratory Practice and Research & Project Managements
      • Feb 2016 - Jun 2020

      In February 2016 I begun the close research and development cooperation with the Luga - Cosmetic Center SME. We want to incorporate in presently produced by the Luga SME hair care cosmetic products the novel, innovative safe - non-toxic and hypoallergic biopolymers. In February 2016 I begun the close research and development cooperation with the Luga - Cosmetic Center SME. We want to incorporate in presently produced by the Luga SME hair care cosmetic products the novel, innovative safe - non-toxic and hypoallergic biopolymers.

  • Institute of Physical Chemistry Bulgarian Academy of Science
    • Bulgaria
    • Research Services
    • 1 - 100 Employee
    • Visiting researcher - Erasmus + mobility
      • May 2018 - May 2018

      Research in the field of thin foam film stability in Scheludko-Exerowa cell - green surfactants and its mixtures Research in the field of thin foam film stability in Scheludko-Exerowa cell - green surfactants and its mixtures

  • Université Paris Sud
    • France
    • Higher Education
    • 1 - 100 Employee
    • Visiting researcher in Laboratoire de Physique des Solides, Université Paris Sud
      • Apr 2018 - Apr 2018

      Short research visit in prof. Dominique Langevin research group Laboratoire de Physique des Solides. Measurements in the field of bio-foams stability using FoamScan Teclis equipment. Visit performed as a part of Erasmus Plus Staff mobility 2018 project. Short research visit in prof. Dominique Langevin research group Laboratoire de Physique des Solides. Measurements in the field of bio-foams stability using FoamScan Teclis equipment. Visit performed as a part of Erasmus Plus Staff mobility 2018 project.

  • Institute of Chemical Process Fundamentals CAS, v. v. i.
    • Czechia
    • Research
    • 1 - 100 Employee
    • Visting researcher
      • Nov 2017 - Nov 2017

      Research visit in dr. Jiri Veriazka research group in Institute of Chemical Process Fundamentals of Czech Academy of Sciences, Praque, Czech Rep, due to Polish – Czech Republic Joint Research Project (bilateral cooperation between both Academies of Sciences), (November 2017, 1 week). Research in the field of bubble motion in surface active agent solutions. Research visit in dr. Jiri Veriazka research group in Institute of Chemical Process Fundamentals of Czech Academy of Sciences, Praque, Czech Rep, due to Polish – Czech Republic Joint Research Project (bilateral cooperation between both Academies of Sciences), (November 2017, 1 week). Research in the field of bubble motion in surface active agent solutions.

  • in Institute of Condensed Matter Chemistry and Technologies for Energy, National Research Council
    • Visiting researcher in CNR institute
      • Oct 2017 - Oct 2017

      Research visit in dr. L. Ligierri and dr. F. Ravera research group in Institute of Condensed Matter Chemistry and Technologies for Energy, National Research Council CNR, founded by Polish – Italian Joint Research Project under the agreement of scientific bilateral cooperation between Polish Academy of Sciences and CNR, titled: “Biocompatible particle-stabilized foams and emulsions as carriers for healing agents”. (October 2017, 2 weeks). Research in the field of bio-polymers surface activity… Show more Research visit in dr. L. Ligierri and dr. F. Ravera research group in Institute of Condensed Matter Chemistry and Technologies for Energy, National Research Council CNR, founded by Polish – Italian Joint Research Project under the agreement of scientific bilateral cooperation between Polish Academy of Sciences and CNR, titled: “Biocompatible particle-stabilized foams and emulsions as carriers for healing agents”. (October 2017, 2 weeks). Research in the field of bio-polymers surface activity and surface elasticity. Show less Research visit in dr. L. Ligierri and dr. F. Ravera research group in Institute of Condensed Matter Chemistry and Technologies for Energy, National Research Council CNR, founded by Polish – Italian Joint Research Project under the agreement of scientific bilateral cooperation between Polish Academy of Sciences and CNR, titled: “Biocompatible particle-stabilized foams and emulsions as carriers for healing agents”. (October 2017, 2 weeks). Research in the field of bio-polymers surface activity… Show more Research visit in dr. L. Ligierri and dr. F. Ravera research group in Institute of Condensed Matter Chemistry and Technologies for Energy, National Research Council CNR, founded by Polish – Italian Joint Research Project under the agreement of scientific bilateral cooperation between Polish Academy of Sciences and CNR, titled: “Biocompatible particle-stabilized foams and emulsions as carriers for healing agents”. (October 2017, 2 weeks). Research in the field of bio-polymers surface activity and surface elasticity. Show less

  • Max Planck Institute for Colloids and Interfaces
    • Visiting Researcher
      • Jul 2017 - Oct 2017

      Research visit in dr. habil Reinhard Miller group in Golm/Potsdam ICIC MPI. Fellowship sponsored by my scholarship project won as a "Re-invitation Programme for Former Scholarship Holders" from Deutscher Akademischer Austauschdienst DAAD (German Academic Exchange Service). During this long research visit I will do series of experiements presenting the surface activity and surface elasticity of various biosurfactant solutions. Research visit in dr. habil Reinhard Miller group in Golm/Potsdam ICIC MPI. Fellowship sponsored by my scholarship project won as a "Re-invitation Programme for Former Scholarship Holders" from Deutscher Akademischer Austauschdienst DAAD (German Academic Exchange Service). During this long research visit I will do series of experiements presenting the surface activity and surface elasticity of various biosurfactant solutions.

  • “Institute of Multiphase Flows” in Technische Universität Hamburg-Harburg
    • Erasmus Plus, Staff Mobility for Training - Visiting researcher
      • May 2017 - May 2017

      Erasmus Plus, Staff Mobility for Training, visit in prof. Michael Schlüter research group in “Institute of Multiphase Flows”, Technische Universität Hamburg-Harburg, Hamburg, Germany (May 2017, 1 week). Training and experiements in the field of Particle Image Velocimetry PIV and Liquid Image Velocimetry LIV. Erasmus Plus, Staff Mobility for Training, visit in prof. Michael Schlüter research group in “Institute of Multiphase Flows”, Technische Universität Hamburg-Harburg, Hamburg, Germany (May 2017, 1 week). Training and experiements in the field of Particle Image Velocimetry PIV and Liquid Image Velocimetry LIV.

  • Laboratoire de Physique des Solides, Université Paris Sud,
    • Erasmus + Staff for Training Mobility
      • Feb 2017 - Feb 2017

      Erasmus Plus, Staff Mobility for Training, visit in prof. Dominique Langevin research group - Laboratoire de Physique des Solides, Université Paris Sud., France (February 2017, 1 week). Research in the field of protein foams. Erasmus Plus, Staff Mobility for Training, visit in prof. Dominique Langevin research group - Laboratoire de Physique des Solides, Université Paris Sud., France (February 2017, 1 week). Research in the field of protein foams.

  • Collegium Wratislaviense
    • Poland
    • Education Administration Programs
    • 1 - 100 Employee
    • Tutoring - 8 days course by Collegium Wratislaviense
      • Nov 2016 - Dec 2016

      Tutoring - 8 days course by Collegium Wratislaviense Tutoring - 8 days course by Collegium Wratislaviense

  • University of Chemistry and Technology, Department of Chemical Engineering
    • Erasmus + Staff for Training Mobility
      • Nov 2016 - Dec 2016

      Two weeks training and research mission in dr. Pavlina Basarova Laboratory of flotation and surface phenomena. During the visit we performed a series of experiemnts describing the physicochemical properties of various n-alkanols solutions. The study allow to characterise the bulk viscosity of chosen alcohols. During the visit I presented two different invited lectures. First, titled “Development of steady state adsorption distribution over interface of a bubble rising in solutions of… Show more Two weeks training and research mission in dr. Pavlina Basarova Laboratory of flotation and surface phenomena. During the visit we performed a series of experiemnts describing the physicochemical properties of various n-alkanols solutions. The study allow to characterise the bulk viscosity of chosen alcohols. During the visit I presented two different invited lectures. First, titled “Development of steady state adsorption distribution over interface of a bubble rising in solutions of n-alkanols (from ethanol till n-decanol, was presented in our institute in Monday 28.11.2016. Second, titled “Influence of various physico-chemical properties on bubble motion in surface active agents solution”, on the invitation of Dr. Jiri Vejrazka in Institute of Chemical Process Fundamentals of the Czech Academy of Science (07.12.2016). Show less Two weeks training and research mission in dr. Pavlina Basarova Laboratory of flotation and surface phenomena. During the visit we performed a series of experiemnts describing the physicochemical properties of various n-alkanols solutions. The study allow to characterise the bulk viscosity of chosen alcohols. During the visit I presented two different invited lectures. First, titled “Development of steady state adsorption distribution over interface of a bubble rising in solutions of… Show more Two weeks training and research mission in dr. Pavlina Basarova Laboratory of flotation and surface phenomena. During the visit we performed a series of experiemnts describing the physicochemical properties of various n-alkanols solutions. The study allow to characterise the bulk viscosity of chosen alcohols. During the visit I presented two different invited lectures. First, titled “Development of steady state adsorption distribution over interface of a bubble rising in solutions of n-alkanols (from ethanol till n-decanol, was presented in our institute in Monday 28.11.2016. Second, titled “Influence of various physico-chemical properties on bubble motion in surface active agents solution”, on the invitation of Dr. Jiri Vejrazka in Institute of Chemical Process Fundamentals of the Czech Academy of Science (07.12.2016). Show less

  • Institute of Physical Chemistry Bulgarian Academy of Sciences IPC BAS
    • Erasmus +, Higher Education Student and Staff Mobility
      • Oct 2016 - Oct 2016

      Two weeks training and research mission in prof. Elena Mileva research gropu in IPC BAS. During the visit we performed a series of experiemnts describing the physicochemical properties of various chtosan mixtures in presence of cationic surfactant lauryol ethyl arginate and hydrophilic silica nanoparticles. The study was mostly performed in the Scheludko-Excerova cell, what allow describing the characteristic of foam symmetric thin liquid films. The additional test performed in Sinterface PAT-1… Show more Two weeks training and research mission in prof. Elena Mileva research gropu in IPC BAS. During the visit we performed a series of experiemnts describing the physicochemical properties of various chtosan mixtures in presence of cationic surfactant lauryol ethyl arginate and hydrophilic silica nanoparticles. The study was mostly performed in the Scheludko-Excerova cell, what allow describing the characteristic of foam symmetric thin liquid films. The additional test performed in Sinterface PAT-1 apparatus allow us also describe the surface activity and surface elasticity of studies mixtures. During the visit I presented two different invited lectures. First, titled “Particle laden stabilization of foams consisting biological active compounds”, was presented in our institute in Friday 07.10.2016. Second, titled “Physico-chemical and hydrodynamic aspects of the bubble motion in surface active agent solutions”, was done on the invitation of prof. N. Denkov in Sofia University in Monday 10.10.2016. Show less Two weeks training and research mission in prof. Elena Mileva research gropu in IPC BAS. During the visit we performed a series of experiemnts describing the physicochemical properties of various chtosan mixtures in presence of cationic surfactant lauryol ethyl arginate and hydrophilic silica nanoparticles. The study was mostly performed in the Scheludko-Excerova cell, what allow describing the characteristic of foam symmetric thin liquid films. The additional test performed in Sinterface PAT-1… Show more Two weeks training and research mission in prof. Elena Mileva research gropu in IPC BAS. During the visit we performed a series of experiemnts describing the physicochemical properties of various chtosan mixtures in presence of cationic surfactant lauryol ethyl arginate and hydrophilic silica nanoparticles. The study was mostly performed in the Scheludko-Excerova cell, what allow describing the characteristic of foam symmetric thin liquid films. The additional test performed in Sinterface PAT-1 apparatus allow us also describe the surface activity and surface elasticity of studies mixtures. During the visit I presented two different invited lectures. First, titled “Particle laden stabilization of foams consisting biological active compounds”, was presented in our institute in Friday 07.10.2016. Second, titled “Physico-chemical and hydrodynamic aspects of the bubble motion in surface active agent solutions”, was done on the invitation of prof. N. Denkov in Sofia University in Monday 10.10.2016. Show less

  • Max-Planck Institute for Colloids and Surface Chemistry MPI CSC
    • Visiting researcher - staff mobility
      • Jul 2016 - Jul 2016

      Short time scientific visit for research in dr. habil. Reinhard Miller research group, available thanks for the financial support obtained from MPI Institute for Colloid and Surface Chemistry and Polish SME Luga – Cosmetic Center (July 2016, 2 weeks). Short time scientific visit for research in dr. habil. Reinhard Miller research group, available thanks for the financial support obtained from MPI Institute for Colloid and Surface Chemistry and Polish SME Luga – Cosmetic Center (July 2016, 2 weeks).

  • Stanford University
    • United States
    • Higher Education
    • 700 & Above Employee
    • Strategic Thinking for Growing Your Enterprise - online course
      • May 2016 - May 2016

      This course provide lessons that can help business leaders identify new opportunities and avoid pitfalls as their company reaches for the next level. https://novoed.com/strategiesforgrowth/home This course provide lessons that can help business leaders identify new opportunities and avoid pitfalls as their company reaches for the next level. https://novoed.com/strategiesforgrowth/home

  • Collegium Wratislaviense - training
    • Mentoring - 6 days course
      • Feb 2016 - Mar 2016

      Mentoring - 6 days course by Collegium Wratislaviense Mentoring - 6 days course by Collegium Wratislaviense

  • French National Institute for Nuclear Science and Technology (INSTN) - Saclay
    • Training Specialist
      • Oct 2015 - Nov 2015

      Polish Ministry of Science and Higher Education special program titled "Training and internships in the field of nuclear energy technology (8 weeks – in French Atomic Energy and Alternative Energies Commission (CEA) in cooperation with z French National Institute for Nuclear Science and Technology (INSTN). Polish Ministry of Science and Higher Education special program titled "Training and internships in the field of nuclear energy technology (8 weeks – in French Atomic Energy and Alternative Energies Commission (CEA) in cooperation with z French National Institute for Nuclear Science and Technology (INSTN).

  • Stanford University (online training course)
    • Writing in Science course
      • Sep 2015 - Oct 2015

      Writing in Science course Writing in Science course

  • Foundation for Polish Science
    • Poland
    • Civic and Social Organizations
    • 1 - 100 Employee
    • FPS "Skills" Program - training program
      • Jun 2014 - Sep 2015

      „Research Team Management Training (Leadership and Management skills course for scientist” by HFP Consulting, Project Skills Foundation for Polish Science „Project management in research” by Vitae, Project Skills Foundation for Polish Science „Negotiations”, Project Skills Foundation for Polish Science „Entrepreneurship Training” by Fuentek, Project Skills Foundation for Polish Science „Commercialization of research results”, Project Skills Foundation for Polish Science… Show more „Research Team Management Training (Leadership and Management skills course for scientist” by HFP Consulting, Project Skills Foundation for Polish Science „Project management in research” by Vitae, Project Skills Foundation for Polish Science „Negotiations”, Project Skills Foundation for Polish Science „Entrepreneurship Training” by Fuentek, Project Skills Foundation for Polish Science „Commercialization of research results”, Project Skills Foundation for Polish Science „Public engagement” by Vitae, Project Skills Foundation for Polish Science „Presentation of research results (Social Media & Web 2.0 Communication)” by Econnect Communication, Project Skills Foundation for Polish Science "Scientific writing course for advanced researchers" by Project Skills Foundation for Polish Science, "Enterprise and initiative" by by Project Skills Foundation for Polish Science, „Presentation of research results for Media and Bussines” by Project Skills Foundation for Polish Science "Innovative company management - business strategy game" by Project Skills Foundation for Polish Science Show less „Research Team Management Training (Leadership and Management skills course for scientist” by HFP Consulting, Project Skills Foundation for Polish Science „Project management in research” by Vitae, Project Skills Foundation for Polish Science „Negotiations”, Project Skills Foundation for Polish Science „Entrepreneurship Training” by Fuentek, Project Skills Foundation for Polish Science „Commercialization of research results”, Project Skills Foundation for Polish Science… Show more „Research Team Management Training (Leadership and Management skills course for scientist” by HFP Consulting, Project Skills Foundation for Polish Science „Project management in research” by Vitae, Project Skills Foundation for Polish Science „Negotiations”, Project Skills Foundation for Polish Science „Entrepreneurship Training” by Fuentek, Project Skills Foundation for Polish Science „Commercialization of research results”, Project Skills Foundation for Polish Science „Public engagement” by Vitae, Project Skills Foundation for Polish Science „Presentation of research results (Social Media & Web 2.0 Communication)” by Econnect Communication, Project Skills Foundation for Polish Science "Scientific writing course for advanced researchers" by Project Skills Foundation for Polish Science, "Enterprise and initiative" by by Project Skills Foundation for Polish Science, „Presentation of research results for Media and Bussines” by Project Skills Foundation for Polish Science "Innovative company management - business strategy game" by Project Skills Foundation for Polish Science Show less

  • Polish National Center for Research and Development
    • SIMS - Science Infrastructure Management Support - training program
      • Jun 2014 - Sep 2015

      "Project Management" by SIMS project of the Polish National Center for Research and Development (NCRD) 2015 "Communication, Public Relations and Marketing" by SIMS project NCRD 2015, "Creativity Lab - EUREKA!" by SIMS project NCRD 2014, "Business Development" by SIMS project NCRD 2014, "Finances" - financial management by SIMS project NCRD 2015, "Strategy" – research team strategy by SIMS project NCRD 2015, "Law" for scientists by SIMS project NCRD 2014, "Wikinomics" for… Show more "Project Management" by SIMS project of the Polish National Center for Research and Development (NCRD) 2015 "Communication, Public Relations and Marketing" by SIMS project NCRD 2015, "Creativity Lab - EUREKA!" by SIMS project NCRD 2014, "Business Development" by SIMS project NCRD 2014, "Finances" - financial management by SIMS project NCRD 2015, "Strategy" – research team strategy by SIMS project NCRD 2015, "Law" for scientists by SIMS project NCRD 2014, "Wikinomics" for scientists by SIMS project NCRD 2015, "Wrap up, Kick of and Move to Next level" – practical workshops in developing innovative technological solutions for scientists by SIMS project NCRD 2015 Show less "Project Management" by SIMS project of the Polish National Center for Research and Development (NCRD) 2015 "Communication, Public Relations and Marketing" by SIMS project NCRD 2015, "Creativity Lab - EUREKA!" by SIMS project NCRD 2014, "Business Development" by SIMS project NCRD 2014, "Finances" - financial management by SIMS project NCRD 2015, "Strategy" – research team strategy by SIMS project NCRD 2015, "Law" for scientists by SIMS project NCRD 2014, "Wikinomics" for… Show more "Project Management" by SIMS project of the Polish National Center for Research and Development (NCRD) 2015 "Communication, Public Relations and Marketing" by SIMS project NCRD 2015, "Creativity Lab - EUREKA!" by SIMS project NCRD 2014, "Business Development" by SIMS project NCRD 2014, "Finances" - financial management by SIMS project NCRD 2015, "Strategy" – research team strategy by SIMS project NCRD 2015, "Law" for scientists by SIMS project NCRD 2014, "Wikinomics" for scientists by SIMS project NCRD 2015, "Wrap up, Kick of and Move to Next level" – practical workshops in developing innovative technological solutions for scientists by SIMS project NCRD 2015 Show less

  • J. Haber Institute of Catalysis and Surface Chemistry PAS
    • Leader of the research project - Opus 1 - 2011-2015 Polish National Scientific Center
      • Mar 2011 - Sep 2015

      I was a Leader of National Scientific Center of Poland project entitled "Development in technology for generation of stable and biodegradable aqueous foam for industrial and biomedical applications." (grant no. 2011/01/B/ST8/03717, budget ca. 120000 Euro). The project was based on my personal professional experiences gained during my PhD studies and postdoc internships. The project aim is to develop the new technology of generating of bioinspired, easy degradable polysaccharides or proteins… Show more I was a Leader of National Scientific Center of Poland project entitled "Development in technology for generation of stable and biodegradable aqueous foam for industrial and biomedical applications." (grant no. 2011/01/B/ST8/03717, budget ca. 120000 Euro). The project was based on my personal professional experiences gained during my PhD studies and postdoc internships. The project aim is to develop the new technology of generating of bioinspired, easy degradable polysaccharides or proteins based aqueous foams stabilized by micro- nano- or colloidal dispersed particles. The particles as foam thin film component will block the drainage of the liquid from the film layer enhancing foam stability, elasticity and yield stress. Such biofoams as easy decomposable can be alternative to presently used foams. My job, as a leader, was i) project management, ii) collaboration with my co-workers and iii) intense experimental and iv) analytical work. Our primary task in the course of the project was to develop new, innovative formulation of mixtures of polysaccharides and non-toxic surface active substances (and/or solid particles) with foaming potential. The mixtures were physico-chemically tested using all available methods (surface tension, surface elasticity, foamability, foam stability, foam rheology - viscoelasticy, thin foam film layer stability and thickess in Scheludko-Exerowa cell, and others). During the study we also used the methods of mathematical CAD modeling, allowing us to develop prototypes and models of technological equipment for producing cosmetics basing on our results. The project results allow us to establish the cooperation with Polish SME "Luga - Cosmetic Centre". Show less I was a Leader of National Scientific Center of Poland project entitled "Development in technology for generation of stable and biodegradable aqueous foam for industrial and biomedical applications." (grant no. 2011/01/B/ST8/03717, budget ca. 120000 Euro). The project was based on my personal professional experiences gained during my PhD studies and postdoc internships. The project aim is to develop the new technology of generating of bioinspired, easy degradable polysaccharides or proteins… Show more I was a Leader of National Scientific Center of Poland project entitled "Development in technology for generation of stable and biodegradable aqueous foam for industrial and biomedical applications." (grant no. 2011/01/B/ST8/03717, budget ca. 120000 Euro). The project was based on my personal professional experiences gained during my PhD studies and postdoc internships. The project aim is to develop the new technology of generating of bioinspired, easy degradable polysaccharides or proteins based aqueous foams stabilized by micro- nano- or colloidal dispersed particles. The particles as foam thin film component will block the drainage of the liquid from the film layer enhancing foam stability, elasticity and yield stress. Such biofoams as easy decomposable can be alternative to presently used foams. My job, as a leader, was i) project management, ii) collaboration with my co-workers and iii) intense experimental and iv) analytical work. Our primary task in the course of the project was to develop new, innovative formulation of mixtures of polysaccharides and non-toxic surface active substances (and/or solid particles) with foaming potential. The mixtures were physico-chemically tested using all available methods (surface tension, surface elasticity, foamability, foam stability, foam rheology - viscoelasticy, thin foam film layer stability and thickess in Scheludko-Exerowa cell, and others). During the study we also used the methods of mathematical CAD modeling, allowing us to develop prototypes and models of technological equipment for producing cosmetics basing on our results. The project results allow us to establish the cooperation with Polish SME "Luga - Cosmetic Centre". Show less

  • Pex-Pool Technologie Plus sp. z o.o. - SME company
    • Training and Development Intern
      • Dec 2014 - May 2015

      Practical internship in the Pex-Poll sp. z o.o. company, as a part of Malopolska Regional Development Agency project tilted “Knowledge, practice, experience - the key to success in business " (6th months). Practical internship in the Pex-Poll sp. z o.o. company, as a part of Malopolska Regional Development Agency project tilted “Knowledge, practice, experience - the key to success in business " (6th months).

  • AfiSen sp. z o.o. - SME company
    • Training and Development Intern
      • Dec 2014 - May 2015

      Practical internship in the AfiSen sp. z o.o. company, as a part of project tilted “Research and development - Innovations as the opportunity for the development of Malopolska enterprises" POKL.08.02.01-12-026/14 (6th months). Practical internship in the AfiSen sp. z o.o. company, as a part of project tilted “Research and development - Innovations as the opportunity for the development of Malopolska enterprises" POKL.08.02.01-12-026/14 (6th months).

  • Institute of Biocybernetics and Biomedical Engineering
    • Poland
    • Research
    • 1 - 100 Employee
    • 3-Day Bioentrepreneurship Crash Course
      • Apr 2015 - Apr 2015

      3-Day Bioentrepreneurship Crash Course - Developing Business Skills in Life Sciences 3-Day Bioentrepreneurship Crash Course - Developing Business Skills in Life Sciences

  • GRASP (Group for Research and Applications in Statistical Physics), University of Liege
    • Erasmus +, Higher Education Student and Staff Mobility
      • Mar 2015 - Mar 2015

      Research in the filed of polysaccharide solutions dynamic surface actifity (falling drop methods) - 1 week Research in the filed of polysaccharide solutions dynamic surface actifity (falling drop methods) - 1 week

  • Istituto per l’ Energetica e le Interfasi, Consiglio Nazionale delle Ricerche
    • COST “Smart and green interfaces MP1106” STSM Short Time Scientific Mission
      • Nov 2014 - Nov 2014

      Research in the filed of polysaccharide solutions dynamic surface elasticity (2 weeks) Research in the filed of polysaccharide solutions dynamic surface elasticity (2 weeks)

  • Interfaces and Colloids Institute of Physical Chemistry, Bulgarian Academy of Sciences
    • Polish - Bulgarian Joint Research Project
      • Oct 2014 - Oct 2014

      Research in the field of foam thin film stability in Scheludko-Exerova cell (1 week). The Polish - Bulgarian Joint Research Project “Nanostructures at liquid/gas interfaces and stability of thin liquid films under static and dynamic conditions”.

    • Erasmus +, Higher Education Student and Staff Mobility
      • Oct 2014 - Oct 2014

      Research in the field of foam thin film stability in Scheludko-Exerova cell (1 week)

  • Max-Planck Institute for Colloids and Surface Chemistry
    • COST “Colloidal Aspects of Nanoscience for Innovative Processes and Materials CM1101” STSM
      • Jan 2014 - Feb 2014

      Research in the field of polysaccharide solution surface viscoelasticity. (3 weeks) Research in the field of polysaccharide solution surface viscoelasticity. (3 weeks)

    • COST “Smart and green interfaces MP1106” STSM Short Time Scientific Mission
      • Jan 2013 - Jan 2013

      Research in the field of polysaccharide wet foam stability and rheology. (4 weeks) Research in the field of polysaccharide wet foam stability and rheology. (4 weeks)

    • Principal investigator in "Enzymes as nanotools. Development of a new enzymes based technology ..."
      • Sep 2007 - Sep 2010

      I was a Principal Inverstigator from "Dispersed systems" research group in the project titled: “Enzymes as nanotools. Development of a new, enzymes based technology for engineering selectively permeable, nano-structured membranes. Application as sensing”. Project was founded by Polish Ministry of Sciences and Higher Education (GDRE 1206/GR/2007/03). The aim of the project was developing new technology for preparing selectively permeable membranes. The molecular building blocks were used fro… Show more I was a Principal Inverstigator from "Dispersed systems" research group in the project titled: “Enzymes as nanotools. Development of a new, enzymes based technology for engineering selectively permeable, nano-structured membranes. Application as sensing”. Project was founded by Polish Ministry of Sciences and Higher Education (GDRE 1206/GR/2007/03). The aim of the project was developing new technology for preparing selectively permeable membranes. The molecular building blocks were used fro preparing lipid (or their analogues) membranes. Various techniques have been employed for preparing the initial membranes of defined organization. The permeability and selectivity of the membranes deposed on the electrodes were elaborated in the controlled way with lipolytic enzymes.

    • Principal investigator in project "Dynamic interaction of the moving micro objects ..."
      • Sep 2007 - Sep 2010

      I was a Principal Inverstigator from "Dispersed systems" research group in the project titled: "Dynamic interaction of the moving micro objects (bubbles, dropleds and/or particles) with various interfaces" (grant no. COST-Spub PBS 45/N-COST/2007/0). The project was implemented within the framework of the international program of the European Union COST P21 "Physics of droplets," During the project we examined the phenomena associated with the movement and interactions between micro-objects… Show more I was a Principal Inverstigator from "Dispersed systems" research group in the project titled: "Dynamic interaction of the moving micro objects (bubbles, dropleds and/or particles) with various interfaces" (grant no. COST-Spub PBS 45/N-COST/2007/0). The project was implemented within the framework of the international program of the European Union COST P21 "Physics of droplets," During the project we examined the phenomena associated with the movement and interactions between micro-objects (droplets, particles, bubbles) and between these objects and the various interfaces. The interface were modified in a controlled manner, the surface properties (electric charge, hydrophobicity, heterogeneity, roughness), and the role of thin layers of fluidized bed (liquid, gas) in the process of coalescence deposition, contact formation, etc. phase were carefully monitored.

    • Principal Investigator - research project "Dynamic structure of the adsorption ..."
      • Sep 2004 - Sep 2007

      I was a Principal Investigator in the research project titled :Dynamic structure of the adsorption - the influence of surface active substances on the mobility of the interfaces" (Polish Ministry of Scientific Research and Information Technology grant no. 3 T09A 164 27). The aim of the research project was to determine the mechanism and the most important parameters which determine the formation of the dynamic adsorption layer immobilizinginterface of the free rising bubble. We were studied… Show more I was a Principal Investigator in the research project titled :Dynamic structure of the adsorption - the influence of surface active substances on the mobility of the interfaces" (Polish Ministry of Scientific Research and Information Technology grant no. 3 T09A 164 27). The aim of the research project was to determine the mechanism and the most important parameters which determine the formation of the dynamic adsorption layer immobilizinginterface of the free rising bubble. We were studied kinetics and mechanism of dynamic adsorption layer formation. The minimum adsorption coverage necessary to immobilize the interface of the bubble were found for various studied surface active active compounds (surfactants and bio-surfactants).

  • GRASP (Group for Research and Applications in Statistical Physics)
    • COST “Physiscs of droplets” P-21 STSM Short Time Scientific Mission
      • Nov 2009 - Nov 2009

      Research in the field of wet foam stability and rheology (protein foams). (2 weeks) Research in the field of wet foam stability and rheology (protein foams). (2 weeks)

  • Group for Research and Applications in Statistical Physics, Department of Physics, Univ. Liege
    • Postdoctoral Fellow - principal investigator in "Hydrodynamic of the wet foams" ESA project
      • Feb 2007 - Dec 2007

      Research in the field of wet foam stability and rheology (protein foams), financed by the European Space Agency project "Hydrodynamic of wet foams" (10th months). Part of the european research project “Hydrodynamic of the wet foams” European Space Agency ESA MAP A099-108. The aim was to inject liquid in the foam in zero gravitation environments and to study the time variation of the liquid volume fraction, predicted to be quite different due to disappearance of the drainage process. The… Show more Research in the field of wet foam stability and rheology (protein foams), financed by the European Space Agency project "Hydrodynamic of wet foams" (10th months). Part of the european research project “Hydrodynamic of the wet foams” European Space Agency ESA MAP A099-108. The aim was to inject liquid in the foam in zero gravitation environments and to study the time variation of the liquid volume fraction, predicted to be quite different due to disappearance of the drainage process. The special equippment allow to study developmend and evolution of 2D protein bio-foams in Hele-Shaw cell. Show less Research in the field of wet foam stability and rheology (protein foams), financed by the European Space Agency project "Hydrodynamic of wet foams" (10th months). Part of the european research project “Hydrodynamic of the wet foams” European Space Agency ESA MAP A099-108. The aim was to inject liquid in the foam in zero gravitation environments and to study the time variation of the liquid volume fraction, predicted to be quite different due to disappearance of the drainage process. The… Show more Research in the field of wet foam stability and rheology (protein foams), financed by the European Space Agency project "Hydrodynamic of wet foams" (10th months). Part of the european research project “Hydrodynamic of the wet foams” European Space Agency ESA MAP A099-108. The aim was to inject liquid in the foam in zero gravitation environments and to study the time variation of the liquid volume fraction, predicted to be quite different due to disappearance of the drainage process. The special equippment allow to study developmend and evolution of 2D protein bio-foams in Hele-Shaw cell. Show less

  • CNRS Laboratoire de Physique des Matériaux Divisés et des Interfaces (LPDMI), Marne-la-Vallee Univ.
    • Visiting Researcher - principal investigator in "Hydrodynamic of the wet foams" ESA project
      • Jun 2006 - Nov 2006

      Research in the field of particle-laden foam rheology. The characterisation of the surface and rheological properties of wet foam with additional stabilisation effects from dispersed nanopartices. Part of the european research project “Hydrodynamic of the wet foams” European Space Agency ESA MAP A099-108. The aim was to inject liquid in the foam in zero gravitation environments and to study the time variation of the liquid volume fraction, predicted to be quite different due to disappearance… Show more Research in the field of particle-laden foam rheology. The characterisation of the surface and rheological properties of wet foam with additional stabilisation effects from dispersed nanopartices. Part of the european research project “Hydrodynamic of the wet foams” European Space Agency ESA MAP A099-108. The aim was to inject liquid in the foam in zero gravitation environments and to study the time variation of the liquid volume fraction, predicted to be quite different due to disappearance of the drainage process. The special instrument combines the electrical detection of the liquid with the multiple lights scattering on the foam film and allowed simultaneous tests of the liquid volume fraction and bubble size. Part of the financial support - my personal founding visiting researcher fellowship - were obtained form the France CNRS sources. Show less Research in the field of particle-laden foam rheology. The characterisation of the surface and rheological properties of wet foam with additional stabilisation effects from dispersed nanopartices. Part of the european research project “Hydrodynamic of the wet foams” European Space Agency ESA MAP A099-108. The aim was to inject liquid in the foam in zero gravitation environments and to study the time variation of the liquid volume fraction, predicted to be quite different due to disappearance… Show more Research in the field of particle-laden foam rheology. The characterisation of the surface and rheological properties of wet foam with additional stabilisation effects from dispersed nanopartices. Part of the european research project “Hydrodynamic of the wet foams” European Space Agency ESA MAP A099-108. The aim was to inject liquid in the foam in zero gravitation environments and to study the time variation of the liquid volume fraction, predicted to be quite different due to disappearance of the drainage process. The special instrument combines the electrical detection of the liquid with the multiple lights scattering on the foam film and allowed simultaneous tests of the liquid volume fraction and bubble size. Part of the financial support - my personal founding visiting researcher fellowship - were obtained form the France CNRS sources. Show less

  • Laboratoire de Physique des Matériaux Divisés et des Interfaces, Université de Marne-la-Vallée
    • Postdoctoral Researcher - principal investigator in "Hydrodynamic of the wet foams" ESA project
      • Oct 2004 - Jun 2006

      Research in the field of particle-laden foam rheology. The characterisation of the surface and rheological properties of wet foam with additional stabilisation effects from dispersed nanopartices. Part of the european research project “Hydrodynamic of the wet foams” European Space Agency ESA MAP A099-108. The aim was to inject liquid in the foam in zero gravitation environments and to study the time variation of the liquid volume fraction, predicted to be quite different due to disappearance… Show more Research in the field of particle-laden foam rheology. The characterisation of the surface and rheological properties of wet foam with additional stabilisation effects from dispersed nanopartices. Part of the european research project “Hydrodynamic of the wet foams” European Space Agency ESA MAP A099-108. The aim was to inject liquid in the foam in zero gravitation environments and to study the time variation of the liquid volume fraction, predicted to be quite different due to disappearance of the drainage process. The special instrument combines the electrical detection of the liquid with the multiple lights scattering on the foam film and allowed simultaneous tests of the liquid volume fraction and bubble size. Part of the financial support - my personal founding visiting researcher fellowship - were obtained form the France EGIDE foundation sources. Show less Research in the field of particle-laden foam rheology. The characterisation of the surface and rheological properties of wet foam with additional stabilisation effects from dispersed nanopartices. Part of the european research project “Hydrodynamic of the wet foams” European Space Agency ESA MAP A099-108. The aim was to inject liquid in the foam in zero gravitation environments and to study the time variation of the liquid volume fraction, predicted to be quite different due to disappearance… Show more Research in the field of particle-laden foam rheology. The characterisation of the surface and rheological properties of wet foam with additional stabilisation effects from dispersed nanopartices. Part of the european research project “Hydrodynamic of the wet foams” European Space Agency ESA MAP A099-108. The aim was to inject liquid in the foam in zero gravitation environments and to study the time variation of the liquid volume fraction, predicted to be quite different due to disappearance of the drainage process. The special instrument combines the electrical detection of the liquid with the multiple lights scattering on the foam film and allowed simultaneous tests of the liquid volume fraction and bubble size. Part of the financial support - my personal founding visiting researcher fellowship - were obtained form the France EGIDE foundation sources. Show less

  • J. Haber Institute of Catalysis and Surface Chemistry PAs
    • Leader and Principal Investigator in PhD research project "Bubble motion in surface active ..."
      • May 2002 - May 2004

      I was an Principal Investigator in my own special "PhD' project for the young researchers, gounded by the Polish Comitee for the Scientific research. The project was titled: "Bubble motion in the surface active agents solutions". During the project i found the basis relationship exisiting between the adsorption processes and the hydrodynamic drag in various surface active agents solutions. The research were conducted in cooperation with the Max-Plance Institute for Colloid and Interfaces in… Show more I was an Principal Investigator in my own special "PhD' project for the young researchers, gounded by the Polish Comitee for the Scientific research. The project was titled: "Bubble motion in the surface active agents solutions". During the project i found the basis relationship exisiting between the adsorption processes and the hydrodynamic drag in various surface active agents solutions. The research were conducted in cooperation with the Max-Plance Institute for Colloid and Interfaces in Potsdam/Golm.

    • PHD Student
      • Nov 1998 - Feb 2004

      PhD Studies in the International Postgraduate School of the J. Haber Institute of Catalysis and Surface Chemistry of the Polish Academy of Sciences and Faculty of Chemical Engineering and Technology of the Cracow University of Technology, Poland. Thesis title: 'Local velocities, shape and size of bubbles rising in solutions of surface active substances'.

  • Max-Planck Institute of Colloids and Interfaces
    • Germany
    • Research Services
    • 100 - 200 Employee
    • DAAD scholarship in Germany (German international scholarship program)
      • Nov 2002 - Aug 2003

      Research in the framework of the PhD studies about the influence of traces of surface active compounds in a solution on its surface tension as well as bubble motion in the solution. Research in the framework of the PhD studies about the influence of traces of surface active compounds in a solution on its surface tension as well as bubble motion in the solution.

  • Deutsch in Deutschland
    • German Language Courses in Germany
      • Sep 2002 - Oct 2002

      German Language Courses in Germany for adults German Language Courses in Germany for adults

  • Jagiellonian University, Chemistry Department
    • M.Sc. degree in the field of enviromental chemistry
      • Oct 1996 - Sep 1998

      Master of Science in the field of the Protection of the Environment, speciality chemistry of the environment, Chemistry Faculty, Jagiellonian University, Krakow, Poland. Thesis title: “Pt-Rh automotive monolith catalyst, physico-chemical characterisation and preliminary catalytically research to NOx reduction and hydrocarbon oxidation”. Master of Science in the field of the Protection of the Environment, speciality chemistry of the environment, Chemistry Faculty, Jagiellonian University, Krakow, Poland. Thesis title: “Pt-Rh automotive monolith catalyst, physico-chemical characterisation and preliminary catalytically research to NOx reduction and hydrocarbon oxidation”.

  • Center for Chemistry and the Environment, Gorlaeus Laboratories, Leiden Univ.
    • Scholarship, Tempus Project
      • Feb 1997 - Aug 1997

      Research topic: “Catalytical oxidation of chlorobenzene”. During the scholarship I worked over the catalytic oxidation of chlotrobenzene. I tested over twenty various catalyst consisting different noble metals. The results from the investigations were published in my first paper in Appl. Catalyst B -Enviroment. Research topic: “Catalytical oxidation of chlorobenzene”. During the scholarship I worked over the catalytic oxidation of chlotrobenzene. I tested over twenty various catalyst consisting different noble metals. The results from the investigations were published in my first paper in Appl. Catalyst B -Enviroment.

    • Bechelor degree in the field of Enviromental Protection
      • Oct 1993 - Jun 1996

      Bachelor of Science in the field of the Protection of the Environment, Chemistry Faculty, Jagiellonian University, Krakow, Poland. The B.Sc. thesis "The ethanol catalytical oxidation over the Nafion polymer". Bachelor of Science in the field of the Protection of the Environment, Chemistry Faculty, Jagiellonian University, Krakow, Poland. The B.Sc. thesis "The ethanol catalytical oxidation over the Nafion polymer".

Education

  • Jerzy Haber Institute of Catalysis and Surface Chemistry, Polish Academy of Sciences
    PhD, Chemistry
    1998 - 2004
  • Jagiellonian University
    Master of Science (M.Sc.), chemistry in the field of Environmental Protection
    1993 - 1998

Community

You need to have a working account to view this content. Click here to join now