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Instytut Inżynierii Biomedycznej
home link Dr hab. Sebastian Stach, prof. UŚ

Dr hab. Sebastian Stach, prof. UŚ

dr hab., Sebastian Stach, prof. UŚ
 

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Profesor uczelni

badawczo-dydaktyczni

32 3689703

sebastian.stach@us.edu.pl

0000-0001-7054-700X
Sprawowane funkcje Sprawowane funkcje
  • (2019 – nadal) Dyrektor Instytutu Inżynierii Biomedycznej
  • (2019 – nadal) Przewodniczący Rady Naukowej Instytutu Inżynierii Biomedycznej
  • (2019 – nadal) Kierownik „Laboratorium ilościowej analizy i modelowania powierzchni biomateriałów”
  • (2020-2023) Członek Komitetu Biocybernetyki i Inżynierii Biomedycznej PAN
  • (2020-2024) Członek Senatu Uniwersytetu Śląskiego w Katowicach
Reprezentowana dziedzina i dyscyplina nauki Reprezentowana dziedzina i dyscyplina nauki
  • nauki inżynieryjno-techniczne – inżynieria biomedyczna
Dyscypliny w obszarze zainteresowań naukowych Dyscypliny w obszarze zainteresowań naukowych
  • inżynieria biomedyczna
  • nauki medyczne
  • nauki o zdrowiu
  • informatyka
  • inżynieria materiałowa
Wykształcenie Wykształcenie

(2016 – 2017)    doktor habilitowany nauk technicznych w dyscyplinie biocybernetyka i inżynieria biomedyczna, Instytut Biocybernetyki i Inżynierii Biomedycznej im. Macieja Nałęcza Polskiej Akademii Nauk

(1999 – 2005)    doktor nauk technicznych, studia doktoranckie na Wydziale Matematyki Fizyki i  Chemii Uniwersytetu Śląskiego w Katowicach

(1994 – 1999)    magister techniki, jednolite studia magisterskie na Wydziale Techniki Uniwersytetu Śląskiego w Katowicach, kierunek: Wychowanie Techniczne, specjalność: Technika i  Informatyka

Przebieg pracy zawodowej Przebieg pracy zawodowej

(2019 – nadal)    profesor uczelni, Instytut Inżynierii Biomedycznej, Wydział Nauk Ścisłych i Technicznych

(2018 – 2019)    profesor uczelni, Zakład Komputerowych Systemów Biomedycznych, Instytut Informatyki, Wydział Informatyki i Nauki o Materiałach

(2010 – 2018)    adiunkt, Zakład Komputerowych Systemów Biomedycznych, Instytut Informatyki, Wydział Informatyki i Nauki o Materiałach

(2006 – 2010)    adiunkt, Zakład Badań Warstwy Wierzchniej, Katedra Materiałoznawstwa, Wydział Informatyki i Nauki o Materiałach

(2000 – 2006)    asystent, Zakład Badań Warstwy Wierzchniej, Katedra Materiałoznawstwa, Wydział Informatyki i Nauki o Materiałach

Wskaźniki bibliometryczne Wskaźniki bibliometryczne
  • Publikacje: 90
  • Artykuły indeksowane w SCOPUS: 72
  • Sumaryczny współczynnik wpływu (IF): 123,673
  • Średni współczynnik wpływu (IF) na publikację: 2,096
  • Indeks Hirscha: 26
  • Suma cytowań: 1558
Recenzje prac w czasopismach naukowych Recenzje prac w czasopismach naukowych
  • Advances in Materials Science and Engineering
  • Applied Surface Science
  • Arabian Journal of Chemistry
  • Composites Part B
  • Computers & Geosciences
  • Journal of Advanced Research
  • Journal of Materials Science: Materials in Electronics
  • Materials Science & Engineering A
  • Mathematics and Computers in Simulation
  • Materials
  • Materials in Electronics
  • Materials Science & Engineering A
  • Surface Review and Letters
Redaktor gościnny Redaktor gościnny
  • Feature Papers in „Biomaterials” Section
  • Advanced Topographical and Morphological Characterizations of Materials for Biomedical Applications
  • Modeling of the Structure, Properties, Processes and Surface of Materials
  • Collection fo scientific Papers by Polish Scientists in the Field of Materials Research
Promotor prac doktorskich Promotor prac doktorskich
  • Garczyk-Mundała Ż. (w ramach Diamentowego Grantu – opiekun, praca obroniona z wyróżnieniem)
  • Kovalchuk P. (w trakcie)
Członkostwo w towarzystwach naukowych Członkostwo w towarzystwach naukowych
  • Polskie Towarzystwo Inżynierii Biomedycznej – PTIB
  • Towarzystwo Przetwarzania Obrazów – TPO
  • Polskie Towarzystwo Fizyki Medycznej – PTFM
Recenzent/ekspert Recenzent/ekspert
  • prac doktorskich, habilitacyjnych
  • Narodowe Centrum Badań i Rozwoju
Projekty badawcze Projekty badawcze
  • Wpływ czynników strukturalnych na właściwości ceramiki sialonowej w ujęciu metod materiałografii i fraktografii ilościowej, 2004-2006, 4T08D 01822, współwykonawca
  • Rozwój metod ilościowego opisu mikrostruktury i powierzchni materiałów, Podtemat: Komplementarne zastosowanie parametrów multifraktalnych, transformaty falkowej i perkolacji w opisie powierzchni przełomu materiału, 2009, BW-08-0500-017-09, kierownik projektu i wykonawca podtematu
  • Wyposażenie laboratorium ilościowej analizy i modelowania powierzchni biomateriałów w pomiarowy skaningowy laserowy mikroskop konfokalny, 2010-2012, 599/FNITP/160/2010, autor projektu, kierownik i główny wykonawca
  • Computational modelling of biomechanics in the musculoskeletal system: tissues, replacements and regeneration, Podtemat: Modelling fracture processes in orthopaedic implants, 2011-2014, Projekt międzynarodowy, wykonawca podtematu
  • Opracowanie nowych gatunków supergruboziarnistych węglików spiekanych z osnową zawierającą nikiel, 2012-2013, N507 222240, Politechnika Śląska, wykonawca badań
  • Characterization of surface roughness of Pt Schottky contacts on quaternary n Al0.08In0.08Ga0.84N thin film assessed by atomic force microscopy and fractal analysis, 2012-2014, Malaysia financial support under 1001/PFIZIK/843088 grant, współwykonawca
  • Multifractal characterization of single wall carbon nanotube thin films surface upon exposure to optical parametric oscillator laser irradiation, 2013-2014, Research was supported by the Ministry of Education, Science and Technological Development of Republic of Serbia (Project no. 172003), współwykonawca
  • Multifractal characterization of water soluble copper phthalocyanine based films surfaces, 2012-2014, Ministry of Education, Youth and Sports of the Czech Republic, Project CZ.1.07/2.3.00/30.0021 „Strengthening of Research and Development Teams at the University of Pardubice”, współwykonawca
  • Micromorphology characterization of SiO2-based composite thin films with immobilized terbium(III) complex, 2013-2014, The financial support of the BG Fund for Scientific Investigations, Project DO 02-129/08, współwykonawca
  • AFM imaging and fractal analysis of surface roughness of AlNepilayers on sapphire substrates, 2013-2014, Financially supported by the European Centre of Excellence CEITEC CZ.1.05/1.1.00/02.0068,by project Sensor, Information and Communication Systems SIX CZ.1.05/2.1.00/03.0072 as well as by grant FEKT-S-14-2240, współwykonawca
  • Morphology and optical properties of SiO2-based composite thin films with immobilized terbium(III) complex with a biscoumarin derivative, 2014-2015, The financial support of the BG Fund for Scientific Investigations, Project DO 02-129/08, współwykonawca
  • Surface roughness and morphology of dental nanocompositespolished by four different procedures evaluated by a multifractalapproach, 2014-2015, Research realized in the frameworks of the projects: TR 035020 and III-45006 financed bythe Ministry of Education, Science and Technological Developmentof Republic of Serbia, współwykonawca
  • Morphological features in aluminum nitride epilayers prepared by magnetron sputtering, 2014-2015, Research was financially supported by the European Centre of Excellence CEITEC CZ.1.05/1.1.00/02.0068, by project Sensor, Information and Communication Systems SIX CZ.1.05/2.1.00/03.0072 as well as by grant FEKT-S-14-2240, współwykonawca
  • Multifractal characterization of morphology of human red blood cells membrane skeleton, 2014-2015, This study was partially supported by the Grant of Polish Ministry of Science and Education N-N-402-471337, NCN (2011-2013) No 2011/01/N/NZ5/00919, współwykonawca
  • Epitaxy of silicon carbide on silicon: Micromorphological analysis of growth surface evolution, 2014-2015, Research was financially supported by the European Centre of Excellence CEITEC CZ.1.05/1.1.00/ 02.0068, by project Sensor, Information and Communication Systems SIX CZ.1.05/2.1.00/03.0072, Visegrad Fund. As well as State assignments no. 2560 and no. 16.1103.2014K, współwykonawca
Współpraca z ośrodkami naukowymi w kraju i zagranicą Współpraca z ośrodkami naukowymi w kraju i zagranicą
  1. „Iuliu Haţieganu” University of Medicine and Pharmacy, Faculty of Dentistry, Department of Periodontology, 8 Victor Babes St., 400012, Cluj-Napoca, Romania
  2. „Iuliu Haţieganu” University of Medicine and Pharmacy, Faculty of Medicine, Department of Surgical Specialties and Medical Imaging, Discipline of Ophthalmology, 8 Victor Babeş St., 400012, Cluj-Napoca, Romania
  3. AGH University of Science and Technology, Faculty of Energy and Fuels, Department of Nuclear Energy, al. Mickiewicza, Krakow, Poland
  4. AGH University of Science and Technology, Faculty of Physics and Applied Computer Science, Department of Medical Physics and Biophysics, al. Mickiewicza, Krakow, Poland
  5. Alzahra University, Department of Physics, Tehran, Iran
  6. Arak University of Technology, Department of Mechanical Engineering, Arak, Iran
  7. Brno University of Technology, Faculty of Electrical Engineering and Communication, Physics Department, Technická 8, 616 00 , Brno, Czech Republic
  8. Center of Research and Technological Development in Electrochemistry (CIDETEQ), Parque Tecnológico Sanfandila, Pedro Escobedo, 76703, Santiago de Querétaro, Mexico
  9. Ciudad Universitaria Puebla, Benemérita Universidad Autónoma de Puebla, Chemistry Center ICUAP, 72530, Puebla, Mexico
  10. Dagestan State University, Faculty of Physics, st. M. Gadjieva 43-a, 367015, Makhachkala, Dagestan Republic, Russia
  11. Dental Polyclinic, Perkovceva 3, 10 000 , Zagreb, Croatia
  12. Guru Nanak Dev University, Department of Physics, Material Science Research Laboratory, Amritsar, 143005, Punjab, India
  13. Institut „Rudjer Boskovic”, Bijenicka Cesta 54, 10000, Zagreb, Croatia
  14. Institut National de la Recherche Scientifique (INRS), 1650 Boulevard Lionel-Boulet, QC J3X 1P7, Varennes, Canada
  15. Islamic Azad University, Arak Branch, Young Researchers and Elite Club, Arak, Iran
  16. Islamic Azad University, Kermanshah Branch, Department of Physics, Kermanshah, Iran
  17. Islamic Azad University, Kermanshah Branch, Young Researchers and Elite Club, Kermanshah, Iran
  18. Islamic Azad University, Science and Research Branch, Department of Physics, Tehran, Iran
  19. Islamic Azad University, Science and Research Branch, Plasma Physics Research Center , P.O. Box 14665-678, Tehran, Iran
  20. Islamic Azad University, West Tehran Branch, Department of Physics, Tehran, Iran
  21. Islamic Azad University, West Tehran Branch, Young Researchers and Elite Club, Tehran, Iran
  22. Istituto Italiano di Tecnologia, Nanophysics Department, Scanning Probe Microscopy Lab, Via Morego 30, I-16163, Genova, Italy
  23. Jagiellonian University, Collegium Medicum, Department of Internal Medicine and Gerontology, ul. Sniadeckich, Krakow, Poland
  24. Malayer University, Faculty of Science, Department of Physics, Malayer, Iran
  25. Medical University, Faculty of Pharmacy, Department of Organic Chemistry, Sofia, Bulgaria
  26. Nano Mabna Iranian Inc., P O Box 1676664116, Tehran, Iran
  27. Nuclear Sciences and Technology Research Institute, Physics and Accelerators Research School, Tehran, Iran
  28. Payame Noor University (PNU), Department of Physics, Tehran, Iran
  29. Payame Noor University, Department of Physics, P.O. Box 19395-4697, Tehran, Iran
  30. Razi University, Faculty of Science, Department of Physics, Kermanshah, Iran
  31. Razi University, Nano Science and Technology Research Center, Kermanshah, Iran
  32. SICLAB Limited Liability Company, st. M. Yaragskogo 75, 367030, Makhachkala, Dagestan Republic, Russia
  33. Silesian University of Technology, Faculty of Materials Engineering and Metallurgy, Department of Materials Science, Krasińskiego 8, 40-019, Katowice, Poland
  34. Technical University of Cluj-Napoca, Faculty of Mechanical Engineering, Department of Automotive Engineering and Transportation, Discipline of Descriptive Geometry and Engineering Graphics, 103-105 B-dul Muncii St., 400641, Cluj-Napoca, Romania
  35. Technical University of Cluj-Napoca, The Directorate of Research, Development and Innovation Management (DMCDI), Constantin Daicoviviu Street, no. 15, 400020, Cluj-Napoca, Romania
  36. Univeristy of Silesia, Faculty of Computer Science and Materials Science, Department of Materials Science, Zakład Badań Warstwy Wierzchniej, Śnieżna 2, 41-200, Sosnowiec, Poland
  37. Univeristy of Silesia, Faculty of Computer Science and Materials Science, Institute of Informatics, Department of Biomedical Computer Systems, Będzińska 39, 41-200, Sosnowiec, Poland
  38. „Universidad Aut´onoma de Nuevo Le´on (UANL), Facultad de Ciencias F´ısico Matem´aticas (FCFM), Av. Universidad s/n, San
  39. Nicol´as de los Garza, Nuevo Le´on, Mexico”
  40. Universidad Autonoma de Nuevo Leon, Facultad de Ciencias Fı´sico Matematicas, Av. Pedro de Alba s/n, San Nicola´s de los Garza, , 66455, Nuevo Leo´n, Mexico
  41. Universiti Sains Malaysia, School of Physics, Nano-Optoelectronics Research and Technology Laboratory, 11800, Penang, Malaysia
  42. University of Belgrade, Vinča Institute of Nuclear Sciences, Mike Alasa 12-14, 11001, Belgrade, Serbia
  43. University of Bu Ali Sina, Department of Physics, P.O. Box 65174, Hamedan, Iran
  44. University of Craiova, Faculty of Mechanical Engineering, Department of Applied Mechanics, Calea Bucureşti St., no. 165, 200585, Craiova, Dolj, Romania
  45. University of Hradec Kralove, Department of Physics, Rokitansk eho 62, 500-03, Hradec Kralove, Czech Republic
  46. University of Miami, College of Engineering, Biomedical Atomic Force Microscopy Laboratory, McArthur Annex Room 170A, 1251 Memorial Drive, FL 33146, Coral Gables, USA
  47. University of Milano Bicocca, Department of Materials Science and COMiB Research Center, Milano, Italy
  48. University of Milano Bicocca, Department of Materials Science, Piazza dell’Ateneo Nuovo, 20125, Milano, Italy
  49. University of Namur, Research Centre in Physics of Matter and Radiation (PMR), LISE Laboratory, B-5000, Namur, Belgium
  50. University of Novi Sad, Faculty of Medicine, Department of Restorative Dentistry and Endodontics, Clinic of Dentistry of Vojvodina, Hajduk Veljkova 3, 21000, Novi Sad, Serbia
  51. University of Novi Sad, Faculty of Medicine, Department of Restorative Dentistry and Endodontics, Clinic of Dentistry of Vojvodina, School of Dentistry, Novi Sad, Serbia
  52. University of Novi Sad, Faculty of Medicine, School of Dentistry, Hajduk Veljkova 3, 21000, Novi Sad, Serbia
  53. University of Novi Sad, Faculty of Technical Sciences, Department for Production Engineering, Trg Dositeja Obradovi´ca 6, 21000, Novi Sad, Serbia
  54. University of Pardubice, Faculty of Chemical Technology and Centre for Material Science, Department of General and Inorganic Chemistry, Studentská 573, 532 10, Pardubice II, Czech Republic
  55. University of Raparin, Department of Physics, College of Science, Iraq
  56. University of Silesia in Katowice, Faculty of Science and Technology, August Chełkowski Institute of Physics, 75 Pułku Piechoty 1A, 41-500, Chorzów, Poland
  57. University of Silesia in Katowice, Faculty of Science and Technology, Institute of Biomedical Engineering, Będzińska 39, 41-200, Sosnowiec, Poland
  58. University of Silesia in Katowice, Faculty of Science and Technology, Institute of Materials Engineering, 75 Pułku Piechoty 1A, 41-500, Chorzów, Poland
  59. University of Silesia, Faculty of Computer Science and Materials Science, Institute of Materials Science, 75 Pułku Piechoty 1a, 41-500, Chorzów, Poland
  60. University of Sofia, Faculty of Chemistry and Pharmacy, Department of Inorganic Chemistry, Sofia, Bulgaria
  61. University of Sofia, Faculty of Chemistry, Department of Inorganic Chemistry, Sofia, Bulgaria
  62. University of Thi-Qar, Physics Department, Science College, Nassiriya Nanotechnology Research Laboratory (NNRL), 00964, Nassiriya, Iraq
  63. University of Zagreb, Faculty of Metallurgy, Aleja narodnih heroja 3, 44000 , Sisak, Croatia
  64. University of Zagreb, School of Dental Medicine, Gunduliceva 5, 10000 , Zagreb, Croatia
  65. Vacuum Technology Group, ACECR – Sharif Branch, Tehran, Iran
  66. Wroclaw University of Technology, Faculty of Civil Engineering, Wrocław, Poland
  67. Wroclaw University of Technology, Faculty of Mechanical Engineering, Wrocław, Poland
Publikacje Publikacje
  1. Stach S, Cybo J, Chmiela J (2001) Fracture surface – fractal or multifractal?, Materials Characterization, 46(2-3):163-167, ISSN 1044-5803, DOI: 10.1016/S1044-5803(01)00119-X
  2. Stach S, Cybo J (2003) Multifractal description of fracture morphology: Theoretical basis, Materials Characterization, 51(1):79-86, ISSN 1044-5803, DOI: 10.1016/j.matchar.2003.10.002
  3. Stach S, Roskosz S, Cybo J, Cwajna J (2003) Multifractal description of fracture morphology: investigation of the fractures of sintered carbides, Materials Characterization, 51(1):87-93, ISSN 1044-5803, DOI: 10.1016/j.matchar.2003.10.003
  4. Stach S, Cwajna J, Roskosz S, Cybo J (2005) Multifractal description of fracture morphology: Quasi 3D analysis of fracture surfaces, Materials Science-Poland, 23(2):567-575, ISSN 2083-1331
  5. Stach S, Cybo J, Cwajna J, Roskosz S (2005) Multifractal description of fracture morphology: Full 3D analysis of fracture surfaces, Materials Science-Poland, 23(2):577-584, ISSN 2083-1331
  6. Stach S, Roskosz S, Cwajna J, Cybo J (2006) Multifractal detection of overlaps based on a stereometric analysis of fracture surfaces: application to fractures of sintered carbides, Materials Characterization, 56(4-5):429-435, ISSN 1044-5803, DOI: 10.1016/j.matchar.2006.01.007
  7. Stach S, Cybo J (2006) Multifractal detection of overlaps based on a stereometric analysis of fracture surface: assumptions, Materials Characterization, 56(4-5):449-453, ISSN 1044-5803, DOI: 10.1016/j.matchar.2006.01.009
  8. Stach S, Roskosz S, Cybo J, Cwajna J (2009) Properties of sialon ceramics evaluated by means of multifractal, surface stereometry and quantitative fractography techniques, Materials Characterization, 60(10):1151-1157, ISSN 1044-5803, DOI: 10.1016/j.matchar.2009.02.01
  9. Stach S, Roskosz S, Cybo J, Cwajna J (2009) Fracture surface development coefficient and sialon ceramics’ bending strength, Key Engineering Materials, 409:279-282, ISSN 1662-9795, DOI: 10.4028/www.scientific.net/KEM.409.2794
  10. Stach S, Roskosz S, Cybo J, Cwajna J (2009) Quantitative description of overlaps on sialon ceramics fractures by the multifractal method, Key Engineering Materials, 409:394-401, ISSN 1662-9795, DOI: 10.4028/www.scientific.net/KEM.409.3944
  11. Stach S (2011) The simulation and modelling of the crack path of biomaterials, Key Engineering Materials, 465:141-144, ISSN 1662-9795, DOI: 10.4028/www.scientific.net/KEM.465.141
  12. Stach S (2011) Comparative studies of fracture surfaces of a biomaterial with the use of a profilographometer and confocal microscope, Key Engineering Materials, 465:271-275, ISSN 1662-9795, DOI: 10.4028/www.scientific.net/KEM.465.2715
  13. Stach S (2011) New methods of EDC and 3DMST fractal analysis in the examination of biomaterial surface fractures, Key Engineering Materials, 465:276-281, ISSN 1662-9795, DOI: 10.4028/www.scientific.net/KEM.465.2765
  14. Ţălu Ş, Stach S, Méndez A, Trejo G, Ţălu M (2014) Multifractal characterization of nanostructure surfaces of electrodeposited Ni-P coatings, Journal of The Electrochemical Society, 161(1):D44-D47, ISSN 0013-4651, DOI: 10.1149/2.039401jes
  15. Ţălu Ş, Ghazai A J, Stach S, Hassan A, Hassan Z, Ţălu M (2014) Characterization of surface roughness of Pt Schottky contacts on quaternary n-Al0.08In0.08Ga0.84N thin film assessed by atomic force microscopy and fractal analysis, Journal of Materials Science-Materials in Electronics, 25(1):466-477, ISSN 0957-4522, DOI: 10.1007/s10854-013-1611-6
  16. Ţălu Ş, Marković Z, Stach S, Marković B T, Ţălu M (2014) Multifractal characterization of single wall carbon nanotube thin films surface upon exposure to optical parametric oscillator laser irradiation, Applied Surface Science, 289:97-106, ISSN 0169-4332, DOI: 10.1016/j.apsusc.2013.10.114
  17. Ţălu Ş, Stach S, Mahajan A, Pathak D, Wagner T, Kumar A, Bedi R K (2014) Multifractal analysis of drop?casted copper (II) tetrasulfophthalocyanine film surfaces on the indium tin oxide substrates, Surface and Interface Analysis, 46(6):393-398, ISSN 0142-2421, DOI: 10.1002/sia.5492
  18. Ţălu Ş, Stach S (2014) Multifractal characterization of unworn hydrogel contact lens surfaces, Polymer Engineering and Science, 54(5):1066-1080, ISSN 0032-3888, DOI: 10.1002/pen.23650
  19. Stach S, Lamża A, Wróbel Z (2014) 3D image multifractal analysis and pore detection on a stereometric measurement file of a ceramic coating, Journal of the European Ceramic Society, 34(14):3427-3432, ISSN 0955-2219, DOI: 10.1016/j.jeurceramsoc.2014.04.008
  20. Ţălu Ş, Stach S, Mahajan A, Pathak D, Wagner T, Kumar A, Bedi R K, Ţălu M (2014) Multifractal characterization of water soluble copper phthalocyanine based films surfaces, Electronic Materials Letters, 10(4):719-730, ISSN 1738-8090, DOI: 10.1007/s13391-013-3270-4
  21. Ţălu Ş, Stach S, Zaharieva J, Milanova M, Todorovsky D, Giovanzana S (2014) Surface roughness characterization of poly (methylmethacrylate) films with immobilized Eu (III) ?-diketonates by fractal analysis, International Journal of Polymer Analysis and Characterization, 19(5):404-421, ISSN 1023-666X, DOI: 10.1080/1023666X.2014.904149
  22. Ţălu Ş, Stach S, Zaharieva J, Getsova M, Elenkova D, Milanova M (2014) Micromorphology Characterization of SiO2-Based Composite Thin Films with Immobilized Terbium (III) Complex, International Journal of Polymer Analysis and Characterization, 19(7):648-660, ISSN 1023-666X, DOI: 10.1080/1023666X.2014.953749
  23. Dallaeva D, Ţălu Ş, Stach S, Škarvada P, Tománek P, Grmela L (2014) AFM imaging and fractal analysis of surface roughness of AlN epilayers on sapphire substrates, Applied Surface Science, 312:81-86, ISSN 0169-4332, DOI: 10.1016/j.apsusc.2014.05.086
  24. Ţălu Ş, Stach S, Alb S F, Salerno M (2015) Multifractal characterization of a dental restorative composite after air-polishing, Chaos Solitons & Fractals, 71:7-13, ISSN 0960-0779, DOI: 10.1016/j.chaos.2014.11.009
  25. Elenkova D, Zaharieva J, Getsova M, Manolov I, Milanova M, Stach S, Ţălu Ş (2015) Morphology and Optical Properties of SiO2-Based Composite Thin Films with Immobilized Terbium (III) Complex with a Biscoumarin Derivative, International Journal of Polymer Analysis and Characterization, 20(1):42-56, ISSN 1023-666X, DOI: 10.1080/1023666X.2014.955400
  26. Ţălu Ş, Stach S, Lainović T, Vilotić M, Blažić L, Alb S F, Kakaš D (2015) Surface roughness and morphology of dental nanocomposites polished by four different procedures evaluated by a multifractal approach, Applied Surface Science, 330:20-29, ISSN 0169-4332, DOI: 10.1016/j.apsusc.2014.12.120
  27. Ţălu Ş, Stach S, Valedbagi S, Elahi S M, Bavadi R (2015) Surface morphology of titanium nitride thin films synthesized by DC reactive magnetron sputtering, Materials Science-Poland, 33(1):137-143, ISSN 2083-1331, DOI: 10.1515/msp-2015-0010
  28. Stach S, Dallaeva D, Ţălu Ş, Kaspar P, Tománek P, Giovanzana S, Grmela L (2015) Morphological features in aluminum nitride epilayers prepared by magnetron sputtering, Materials Science-Poland, 33(1):175-184, ISSN 2083-1331, DOI: 10.1515/msp-2015-0036
  29. Hoła J, Sadowski Ł, Reiner J, Stach S (2015) Usefulness of 3D surface roughness parameters for nondestructive evaluation of pull-off adhesion of concrete layers, Construction and Building Materials, 84:111-120, ISSN 0950-0618, DOI: 10.1016/j.conbuildmat.2015.03.014
  30. Ţălu Ş, Stach S, Sueiras V, Ziebarth N M (2015) Fractal Analysis of AFM Images of the Surface of Bowman’s Membrane of the Human Cornea, Annals of biomedical engineering, 43(4):906-916, ISSN 0090-6964, DOI: 10.1007/s10439-014-1140-3
  31. Ţălu Ş, Stach S, Ghodselahi T, Ghaderi A, Solaymani S, Boochani A, Garczyk Ż (2015) Topographic Characterization of Cu-Ni NPs@ aC: H Films by AFM and Multifractal Analysis, Journal of Physical Chemistry B, 119(17):5662-5670, ISSN 1520-6106, DOI: 10.1021/acs.jpcb.5b00042
  32. Ţălu Ş, Stach S, Solaymani S, Moradian R, Ghaderi A, Hantehzadeh M R, Elahi S M, Garczyk Ż, Izadyar S (2015) Multifractal spectra of atomic force microscope images of Cu/Fe nanoparticles based films thickness, Journal of Electroanalytical Chemistry, 749:31-41, ISSN 1572-6657, DOI: 10.1016/j.jelechem.2015.04.009
  33. Stach S, Garczyk Ż, Ţălu Ş, Solaymani S, Ghaderi A, Moradian R, Nezafat NB, Elahi SM, Gholamali H (2015) Stereometric parameters of the Cu/Fe NPs thin films, Journal of Physical Chemistry C, 119(31):17887-17898, ISSN 1932-7447, DOI: 10.1021/acs.jpcc.5b04676
  34. Ţălu Ş, Stach S, Raoufi D, Hosseinpanahi F (2015) Film thickness effect on fractality of tin-doped In2O3 thin films, Electronic Materials Letters, 11(5):749-757, ISSN 1738-8090, DOI: 10.1007/s13391-015-4280-1
  35. Ţălu Ş, Stach S, Valedbagi S, Bavadi R, Elahi SM, Tălu M (2015) Multifractal characteristics of titanium nitride thin films, Materials Science-Poland, 33(3):541-548, ISSN 2083-1331, DOI: 10.1515/msp-2015-0086
  36. Ţălu Ş, Stach S, Klaić B, Mišić T, Malina J, Čelebić A (2015) Morphology of Co-Cr-Mo dental alloy surfaces polished by three different mechanical procedures, Microscopy Research and Technique, 78(9):831-839, ISSN 1059-910X, DOI: 10.1002/jemt.22547
  37. Ramazanov S, Ţălu Ş, Sobola D, Stach S, Ramazanov G (2015) Epitaxy of silicon carbide on silicon: Micromorphological analysis of growth surface evolution, Superlattices and Microstructures, 86:395-402, ISSN 0749-6036, DOI: 10.1016/j.spmi.2015.08.007
  38. Ţălu Ş, Stach S, Kaczmarska M, Fornal M, Grodzicki T, Pohorecki W, Burda K (2015) Multifractal characterization of morphology of human red blood cells membrane skeleton, Journal of Microscopy, 261(1):59-72, ISSN 0022-2720, DOI: 10.1111/jmi.12342
  39. Stach S, Sapota W, Wróbel Z, Ţălu Ş (2016) Assessment of possibilities of ceramic biomaterial fracture surface reconstruction using laser confocal microscopy and long working distance objective lenses, Microscopy Research and Technique, 79(5):385-392, ISSN 1059-910X, DOI: 10.1002/jemt.22641
  40. Ţălu Ş, Luna C, Ahmadpourian A, Achour A, Arman A, Naderi S, Ghobadi N, Stach S, Safibonab B (2016) Micromorphology and fractal analysis of nickel-carbon composite thin films, Journal of Materials Science-Materials in Electronics, 27(11):11425-11431, ISSN 0957-4522, DOI: 10.1007/s10854-016-5268-9
  41. Stach S, Ţălu Ş, Trabattoni S, Travazzi S, Głuchaczka A, Siek P, Zając J, Giovanzana S (2017) Morphological properties of siloxane-hydrogel contact lens surfaces, Current Eye Research, 42(4):498-505, ISSN 0271-3683, DOI: 10.1080/02713683.2016.1217546
  42. Stach S, Sapota W, Ţălu Ş, Ahmadpourian A, Luna C, Ghobadi N, Arman A, Ganji M (2017) 3D Surface stereometry studies of sputtered TiN thin films obtained at different substrate temperatures, Journal of Materials Science-Materials in Electronics, 28(2):2113-2122, ISSN 0957-4522, DOI: 10.1007/s10854-016-5774-9
  43. Ţălu Ş, Stach S, Călugăru DM, Lupaşcu CA, Nicoară SD (2017) Analysis of normal human retinal vascular network architecture using multifractal geometry, International Journal of Ophthalmology, 10(3):434-438, ISSN 2222-3959, DOI: 10.18240/ijo.2017.03.17
  44. Solaymani S, Ghaderi A, Dejam L, Garczyk Ż, Sapota W, Stach S, Dalouji V, Luna C, Elahi SM, Elahi SH (2017) Correlation between the multifractal structure, crystalline and photoluminescence properties of engineered CZO thin films, International Journal of Hydrogen Energy, 42:14205-14219, ISSN 0360-3199, DOI: 10.1016/j.ijhydene.2017.04.045
  45. Ţălu Ş, Stach S, Ramazanov S, Sobola D, Ramazanov G (2017) Multifractal characterization of epitaxial silicon carbide on silicon, Materials Science-Poland, 35(3):539-547, ISSN 2083-1331, DOI: 10.1515/msp-2017-0049
  46. Smagoń K, Stach S, Ţălu Ş, Arman A, Achour A, Luna C, Ghobadi N, Mardani M, Hafezi F, Ahmadpourian A, Ganji M, Korpi AG (2017) Studies of the micromorphology of sputtered TiN thin films by autocorrelation techniques, European Physical Journal Plus, 132(520):2190-5444, ISSN 2190-5444, DOI: 10.1140/epjp/i2017-11801-5
  47. Stach S, Kędzia O, Garczyk Ż, Wróbel Z (2018) Modelling the degree of porosity of the ceramic surface intended for implants, Biomedical Engineering-Biomedizinische Technik, , ISSN 0013-5585, DOI: 10.1515/bmt-2017-0169
  48. Kubisztal J, Kubisztal M, Stach S, Haneczok G (2018) Corrosion resistance of anodic coatings studied by scanning microscopy and electrochemical methods, Surface & Coatings Technology, 350:419-427, ISSN 0257-8972, DOI: 10.1016/j.surfcoat.2018.07.032
  49. Konsek D, Stach S, Ţălu Ş, Naderi S, Arman A (2018) Correlation Between 3-D Surface Topography and Different Deposition Times of Engineered Ni@a-C:H Thin Films, Silicon, , ISSN 1876-990X, DOI: 10.1007/s12633-017-9743-6
  50. Ţălu Ş, Stach S, Abdolghaderi S (2019) The effects of deposition time on the nanoscale patterns of Ag/DLC nanocomposite synthesized by RF‐PECVD, Microscopy Research and Technique, 82:572-579, ISSN 1059-910X, DOI: 10.1002/jemt.23203
  51. Dejam L, Solaymani S, Achour A, Stach S, Ţălu Ş, Nezafat NB, Dalouji V, Shokri AA, Ghaderi A (2019) Correlation between Surface topography, optical band gaps and crystalline properties of engineered AZO and CAZO thin films, Chemical Physics Letters, 719:78-90, ISSN 0009-2614, DOI: 10.1016/j.cplett.2019.01.042
  52. Stach S, Ţălu Ş, Głuchaczka A, Siek P, Zając J, Tavazzi S (2019) Microscopic investigations of surface texture of siloxane-hydrogel contact lenses, Polymer Engineering and Science, 59(s2):E442-E451, ISSN 0032-3888, DOI: 10.1002/pen.25080
  53. Ţălu Ş, Stach S, Lainović T, Blažić L (2019) Characterization of spatial patterns of dental restorative nanocomposites, Microscopy Research and Technique, 82(7):1215-1223, ISSN 1059-910X, DOI: 10.1002/jemt.23270
  54. Dercz G, Matuła I, Maszybrocka J, Zubko M, Barczyk J, Pająk L, Stach S (2019) Effect of milling time and presence of Sn on the microstructure and porosity of sintered Ti-10Ta-8Mo and Ti-10Ta-8Mo-3Sn alloys , Journal of Alloys and Compounds, 791:232-247, ISSN 0925-8388, DOI: 10.1016/j.jallcom.2019.03.287
  55. Rashid D, Stach S, Ţălu Ş, Sobola D, Méndez-Albores A, Trejo Córdova G, Grmela L (2019) Stereometric Analysis of Effects of Heat Stressing on Micromorphology of Si Single Crystals, Silicon, 11(6):2945-2959, ISSN 1876-990X, DOI: 10.1007/s12633-019-0085-4
  56. Ţălu Ş, Stach S, Klaić B, Čelebić A (2019) Evaluation of topographical Co-Cr-Mo alloy surface changes after various finishing treatments, Acta Stomatologica Croatica, 53(3):264-273, ISSN 0001-7019, DOI: 10.15644/asc53/3/8
  57. Stach S, Ţălu Ş, Abdolghaderic S, Shafiekhani A, Bahmanie J (2019) 3_D surface stereometry of Ag/DLC nanocomposite prepared by RF-PECVD, Results in Physics, 15(102731):1-8, ISSN 2211-3797, DOI: 10.1016/j.rinp.2019.102731
  58. Szklarska M, Łosiewicz B, Dercz G, Maszybrocka J, Rams-Baron M, Stach S (2020) Electrophoretic deposition of chitosan coatings on the Ti15Mo biomedical alloy from a citric acid solution, RSC Advances, 23:13386-13393, ISSN 2046-2069, DOI: 10.1039/d0ra01481h
  59. Łosiewicz N, Osak P, Maszybrocka J, Kubisztal J, Stach S (2020) Effect of Autoclaving Time on Corrosion Resistance of Sandblasted Ti G4 in Artificial Saliva, Materials, 13(18):1-26, ISSN 1996-1944, DOI: 10.3390/ma13184154
  60. Stach S, Ţălu Ş, Dallaev R, Arman A, Sobola D, Salerno M (2020) Evaluation of the Topographical Surface Changes of Silicon Wafersafter Annealing and Plasma Cleaning, Silicon, 12:2563-2570, ISSN 1876-990X, DOI: 10.1007/s12633-019-00351-x
  61. Sapota W, Szczepanik P, Stach S, Wróbel Z (2020) Fractal and multifractal analyses of the porosity degree of ceramics used in biomedicine, Advanced Science, Engineering and Medicine, 12(4):450-456(7), ISSN 2164-6627, DOI: 10.1166/asem.2020.2546
  62. Garczyk Ż, Jaegermann Z, Duda P, Swinarew A, Stach S (2021) Ceramic biomaterial pores stereology analysis by the use of microtomography, Materials, 14(9):1-11, ISSN 1996-1944, DOI: 10.3390/ma14092207
  63. Dercz G, Barczyk J, Matuła I, Kubaszek T, Góral M, Maszybrocka J, Bochenek D, Stach S, Szklarska M, Ryszawy D, Pudełek M (2021) Characterization of YSZ Coatings Deposited on cp-Ti Using the PS-PVD Method for Medical Applications, Coatings, 11(11):1-16, ISSN 2079-6412, DOI: 10.3390/coatings11111348
  64. Swinarew A, Flak T, Jarosińska A, Garczyk Ż, Gabor J, Skoczyński S, Brożek G, Paluch J, Popczyk M, Stanula A, Stach S (2022) Polyurethane-Based Porous Carbons Suitable for Medical Application, Materials, 15(9):1-19, ISSN 1996-1944, DOI: 10.3390/ma15093313
  65. Niedbała J, Popczyk M, Hawełek Ł, Orda S, Okła H, Gabor J, Stach S, Swinarew A (2022) Production of Electrolytic Composite Powder by Nickel Plating of Shredded Polyurethane Foam, Materials, 15(11):1-15, ISSN 1996-1944, DOI: 10.3390/ma15113895
  66. Gabor J, Mikrut G, Flak T, Cebo P, Roczniok R, Swinarew B, Langer E, Popczyk M, Stanula A, Stach S, Swinarew A (2023) Influence of Surface Structure on Ball Properties during a Professional Water Polo Game, Materials, 16:1-10, ISSN 1996-1944, DOI: 10.3390/ma16083048
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