10/2014 – 02/2018

1st degree MA Studies- full-time studies – graduated with honors
Tadeusz Kościuszko Cracow University of Technology
Faculty of Chemical Engineering and Technology
Date of the degree: 5th February 2018
Field of study: Chemical and Process Engineering Specialization:
Technological Process Engineering Title of engineering thesis: ” Study of the effect of pressure on emission characteristics of luminescent sensors in polymeric coating materials”

10/2015 – 01/2019

1st degree MA Studies- full-time studies
Tadeusz Kościuszko Cracow University of Technology
Faculty of Chemical Engineering and Technology
Date of the degree: 31th January 2019
Field of study: Chemical Technology
Specialization: Polymer technology
Title of engineering thesis: ” Kinetic studies on the influence of temperature on the speed of photopolymerization processes using fluorescence spectroscopy and thermal analysis”

02/2018 – 07/2019

2nd degree MA Studies – full-time studies
Tadeusz Kościuszko Cracow University of Technology
Faculty of Chemical Engineering and Technology
Date of the degree: 3th July 2019
Field of study: Chemical and Process Engineering
Specialization: Technological Process Engineering
Title of master thesis: ” Modeling of pressure distribution on surfaces of selected geometric objects using
PSP (ang. pressure sensitive paints)”

10/2019 – currently

3nd degree PhD Studies – full-time studies
POLIDOCTUS program – interdisciplinary education in two scientific disciplines – chemical engineering & civil engineering and transport
Tadeusz Kościuszko Cracow University of Technology

Cracow University of Technology Doctoral School
Faculty of Chemical Engineering and Technology,
Chair of Biotechnology and Physical Chemistry
Field of researches: Pressure Sensitive Paints, Temperature Sensitive Paints, polymer coatings, luminescent sensors, lanthanide complexes, aerodynamic tests

• Photochemistry;
• Electrochemistry;
• Physical chemistry;
• Additive manufacturing;
• 3D modeling;
• Photocurable resins;
• Luminescent sensors;
• Molecular modeling;
• Wind engineering. 

Projects:

LIDER (2022 – 2025) – National Center for Research and Development – project manager

Multi-material 3D printer dedicated to production of solid metal and galvanic alloys parts, as well as metal-polymer hybrid elements using developed coupled technology of metal electrodeposition and photopolymerization of polymer resins.

Diamond Grant (2019 – 2023) – Ministry of Science and Higher Education  – project manager

Design, preparation and testing of the application properties of a new type of PSP and TSP coatings as part of the construction of innovative systems for mapping the distribution of thermodynamic state parameters on the surfaces of real objects, for the needs of the high technology industry.

PRELUDIUM 20 (2022 – 2025) – National Science Center – project manager

Kinetic-calorimetric studies of photopolymerization in thin porous layers using new two-component luminescent sensory systems.

TRL 4.0 – Innovation Incubator (2021 – 2022) – project group supervisor

Luminescent-labeled Solvent Quenching Pressure Sensitive Paints (SQ-PSP) dedicated to tests in wind tunnels.

FutureLab 2021/2022 – project group supervisor

Innovative UV-FPT chamber for post-processing of photocurable resin 3D prints for the 3D bio-printing sector. 

TEAM-TECH (2018-2019) Foundation for Polish Science Contract number TEAM TECH / 2016-2 / 15 – contractor

SONATA (2018) Contract number UMO-2012/07/D/ST5/02300 – contractor

POWROTY (2016 – 2018) of the Foundation for Polish Science Contract number POWRTOTY / 2016-1 / 4 – contractor

LIDER (2016 – 2017) – National Center for Research and Development Contract number LIDER 471 / L-4/2012 – contractor

IMPULS SKILLS (2015 – 2016) Foundation for Polish Science Contract number IMPULS 138 / UD / SKILLS / 2015 – contractor

Patent applications: 

PATENT APPLICATION P.418196

Date of application: 2016-08-03

Authors of the patent: Joanna Ortyl, Mariusz Galek, Maciej Pilch, Filip Petko

Title of the patent: New photoinizing systems for photoinitiated cationic, radical, thiol-hybrid and hybrid polymerization processes, new aniline derivatives, new fluorescent molecular probes for monitoring photoinitiated cationic, radical, thiol-hybrid and hybrid polymerization processes and the use of aniline derivatives.

Territorial scope of patent protection: Poland

Name UP: Urząd Patentowy Rzeczpospolitej Polski

PATENT APPLICATION P.421683

Date of application: 2017-05-23

Authors of the patent: Joanna Ortyl, Anna Chachaj-Brekiesz, Monika Topa, Maciej Pilch, Iwona KamińskaBorek
Title of the patent: New derivatives of samarium (III) complexes, new photoinitiation systems for photoinitiated polymerization processes, new luminescent molecular sensors for monitoring photopolymerization processes and the use of derivatives of samarium (III) complexes for the role of luminescent molecular probes in the study of coating materials
Territorial scope of patent protection: Poland
Name UP: Urząd Patentowy Rzeczpospolitej Polski

PATENT APPLICATION P. 422434
Date of application: 2017-08-02
Authors of the patent: Joanna Ortyl, Anna Chachaj-Brekiesz, Katarzyna Kukuła, Maciej Pilch, Iwona Kamińska-Borek
Title of the patent: New derivatives of terbium (III) complexes coordinated with 2-hydroxybenzoic acid derivatives, new photoinitiation systems for photoinitiated polymerization processes, new luminescent molecular sensors for monitoring photopolymerization processes and the use of terbium (III) complexes derivatives for the role of luminescent molecular probes in the study of coating materials. Territorial scope of patent protection: Poland
Name UP: Urząd Patentowy Rzeczpospolitej Polski

PATENT APPLICATION P.421951
Date of application: 2017-06-20
Authors of the patent: Joanna Ortyl, Anna Chachaj-Brekiesz, Karolina Dzięciołowska, Maciej Pilch, Iwona Kamińska-Borek
Title of the patent: New derivatives of europium (III) complexes coordinated with phosphine oxygen derivatives, new photoinitiation systems for photo-initiated polymerization processes, new luminescent molecular sensors for monitoring photopolymerization processes and the use of derivatives of europium (III) complexes for the role of luminescent molecular probes in the study of coating materials. Territorial scope of patent protection: Poland
Name UP: Urząd Patentowy Rzeczpospolitej Polski

PATENT APPLICATION P.426019
Date of application: 2018-06-22
Authors of the patent: Maciej Pilch, Joanna Ortyl, Mariusz Galek, Roman Popielarz
Title of the patent: A method for mapping the pressure distribution on the surfaces of coating materials using luminescent sensors and a system for mapping the pressure distribution on the surfaces of coating materials using luminescent sensors.
Territorial scope of patent protection: Poland
Name UP: Urząd Patentowy Rzeczpospolitej Polski

PATENT APPLICATION P. 426896
Date of application: 2018-09-04
Authors of the patent: Maciej Pilch, Joanna Ortyl, Wiktoria Świątek, Anna Chachaj-Brekiesz
Title of the patent: New derivatives of 2-amino-4-phenyl-6-methylbenzene-1,3-dicarbonitrile, methods of their preparation, new photoinitiation systems for photoinitiated cationic, radical, thiol-ene and hybrid photopolymerization processes and the use of new 2-amino-4-phenyl-6-methylbenzene-1,3-dicarbonitrile derivatives.
Territorial scope of patent protection: Poland
Name UP: Urząd Patentowy Rzeczpospolitej Polski

PATENT APPLICATION P.429090
Date of application:  2019-02-27
Authors of the patent: Joanna Ortyl, Anna Chachaj-Brekiesz, Paweł Fiedor, Maciej Pilch, Patryk Szymaszek, Mariusz Galek
Title of the patent: New 4,6-diphenyl-pyridine-3-carbonitrile derivatives, methods for preparing 4,6-diphenyl pyridine-3-carbonitrile derivatives, new photoinitiation systems for the processes of photoinitiated cationic, radical, thiol-ene and hybrid polymerization and the use of 4,6-diphenyl-pyridine-3-carbonitrile derivatives
Territorial scope of patent protection: Poland
Name UP: Urząd Patentowy Rzeczpospolitej Polski

Patents:

NATIONAL PATENT GRANTED PL 231272 dated 2018-10-08 Formerly PATENT APPLICATION P.418196
with priority date 03-08-2016
Date of application: 03-08-2016
Authors of the patent: J. Ortyl, M. Galek, M. Pilch, F. Petko
Title of the patent: New photoinizing systems for photoinitiated cationic, radical, thiol-hybrid and hybrid polymerization processes, new aniline derivatives, new fluorescent molecular probes for monitoring photoinitiated cationic, radical, thiol-hybrid and hybrid polymerization processes and the use of aniline derivatives.
Territorial scope of patent protection: Poland
Name UP: Urząd Patentowy Rzeczpospolitej Polskiej

NATIONAL PATENT GRANTED PL 236486 dated 2020-09-25 Formerly PATENT APPLICATION P.426019
with priority date 2018-06-22
Date of application: 2018-06-22
Authors of the patent: Maciej Pilch, Joanna Ortyl, Mariusz Galek, Roman Popielarz
Title of the patent: A method for mapping the pressure distribution on the surfaces of coating materials using luminescent sensors and a system for mapping the pressure distribution on the surfaces of coating materials using luminescent sensors.
Territorial scope of patent protection: Poland
Name UP: Urząd Patentowy Rzeczpospolitej Polski

Awards:

1. Winner of the competition for the best Bachelor’s / Engineer’s Thesis “Gold Medal of Chemistry 2018” made in the academic year 2017/2018 awarded with a bronze medal for the Engineer’s Thesis “Study of the effect of pressure on emission characteristics of luminescent sensors in polymeric coating materials”
Type of award: individual Range of the competition: nationwide
Sponsor of the award: Institute of Physical Chemistry of the Polish Academy of Sciences in Warsaw, DuPont company

2. Winner of the I place in the competition for the best Engineer’s Thesis “Young Innovative 2019” for the Engineer’s Thesis “Study of the effect of pressure on emission characteristics of luminescent sensors in polymeric coating materials”
ype of award: individual Range of the competition: nationwide S
ponsor of the award: Industrial Research Institute for Automation and Measurements (PIAP)

3. First degree award granted by the Foundation for the Promotion of Young Talents in 2019 for lifetime achievements during the first and second cycle studies at the Faculty of Chemical Engineering and Technology of the Cracow University of Technology, authorship of articles published in journals from the A list – Ministry of Science and Higher Education, post-conference publications, patent applications, awards in national and international competitions, the Ministry of Science and Higher Education Diamond Grant, participation in research projects and numerous lectures at national and international conferences.
Type of reward: individual
The scope of the competition: national
Sponsor of the prize: Founder of the Foundation for the Support of Young Talents prof. Janusz Magiera at the Cracow University of Technology

4. Winner of the first step of the competition for the ABB award in the academic year 2018/2019
Type of award: individual
Range of the competition: nationwide
Sponsor of the award: ABB

5. Finalist of the competition for the best bachelor’s / engineering thesis “Gold medal of chemistry” 2018
Date and place of obtaining: 06.12.2018, Warszawa
Type of reward: individual Range of the competition: nationwide
The name of the competition organizer: Institute of Physical Chemistry of the Polish Academy of Sciences in Warsaw and the DuPont company

6. Finalist of the competition for the best bachelor’s / engineering thesis “Gold medal of chemistry” 2019
Date and place of obtaining: 19.11.2019, Warszawa
Type of reward: individual
Range of the competition: nationwide
The name of the competition organizer:
Institute of Physical Chemistry of the Polish Academy of Sciences in Warsaw and the DuPont company

7. First place for the best present during the University Student Science Session 2018 at the Cracow University of Technology in Cracow for the paper ” Applications of luminescent sensors for mapping pressure distribution on surfaces “

8. Third place for the best present during the University Student Science Session 2017 at the Cracow University of Technology in Cracow for the paper ” Electrochemical and spectroscopic studies of derivatives of [tris(4,4,4-trifluoro-1- (2-thienyl)-butane-1,3-dione)] europium(III)  as potential new luminescent molecular sensors for applications in Fluorescence Probe Technology”

9. Third place in the competition in chemical and process engineering for student science clubs “Students Science Clubs Contest” for the project entitled “Study of the effect of pressure on the emission characteristics of luminescent sensors in polymeric coating materials”
Type of reward: team (Maciej Pilch, Alicja Gruchała, Patryk Szymaszek, Karolina Dzięciołowska, Magdalena Jankowska, Wiktoria Świątek, Dominika Krok)
Range of the competition: nationwide The name of the competition organizer: PW, PAN, EFCE

10. First place in the 12th national competition for an innovative solution developed by young inventors “Young Inventor 2017”, for the project “New high-performance luminescent lanthanide complexes and their application to the role of organic-inorganic luminescent molecular chemosensors in on-line testing of polymeric coating materials and in initiating photopolymerization processes ” Type of award: team (Monika Topa, Katarzyna Kukuła, Maciej Pilch, Karolina Dzięciołowska)
The name of the competition organizer: Haller Pro Inventio Foundation and Eurobusiness-Haller company

11. First Award for the Young Inventor at the International Fair of Inventions and Innovation INTARG 2017 for the project „New high-performance luminescent lanthanide complexes and their application to the role of organic-inorganic luminescent molecular chemosensors in on-line testing of polymeric coating materials and in initiating photopolymerization processes” Type of award: team (Monika Topa, Katarzyna Kukuła, Maciej Pilch, Karolina Dzięciołowska)
Name of the competition organizer: Polonia International Foundation
Date and place of obtaining: 2017-06-22 Katowice (Poland)

12. Laureate of the “Diamond Grant 2019” project: ” Designing, obtaining and testing the application properties of a new type of PSP and TSP coatings as part of the construction of innovative systems for mapping the distribution of thermodynamic state parameters on surfaces of real objects, for the needs of the high technology industry”
Date of decision: 30.07.2019

Medals at exhibitions:

2017-12-06 –2017-12-08 Hong-Kong (China)
SILVER MEDAL at the II International Invention and Design Competition and exhibition for the invention of „New highly efficient photoluminescent molecular sensors based on lanthanide complexes for monitoring of polymerization processes and for highly sensitive detection of the properties of polymer coatings”
Type of award: team (Joanna Ortyl, Anna Chachaj-Brekiesz, Iwona Kamińska-Borek, Katarzyna Kukuła, Magda Bilut, Monika Topa, Maciej Pilch, Karolina Dzięciołowska)

2017-12-06 –2017-12-08 Hong-Kong (China)
SPECIAL AWARD naII International Invention and Design Competition and exhibition for the invention of „New highly efficient photoluminescent molecular sensors based on lanthanide complexes for monitoring of polymerization processes and for highly sensitive detection of the properties of polymer coatings” granted by Malaysian Research and Innovation Society
Type of award: team (Joanna Ortyl, Anna Chachaj-Brekiesz, Iwona Kamińska-Borek, Katarzyna Kukuła, Magda Bilut, Monika Topa, Maciej Pilch, Karolina Dzięciołowska )

2017-11-02 – 2017-11-05 Nuremberg (Germany)
GOLD MEDAL at the International Fair „Ideas Inventions New Products” IENA in the Nuremberg for the invention of “New highly efficient photoluminescent molecular sensors based on lanthanide complexes for monitoring of polymerization processes and for highly sensitive detection of the properties of polymer coatings”
Type of award: team (Joanna Ortyl, Monika Topa, Maciej Pilch, Anna Chachaj-Brekiesz, Iwona KamińskaBorek, Katarzyna Kukuła, Karolina Dzięciołowska, Magda Bilut )

2017-10-09 – 2017-10-11 Warsaw (Poland)
GOLD MEDAL at the International Warsaw Invention Show 2017, for the invention of “New highly efficient photoluminescent molecular sensors based on lanthanide complexes for monitoring of polymerization processes and for highly sensitive detection of the properties of polymer coatings”
Type of award: team (Joanna Ortyl, Monika Topa, Maciej Pilch, Anna Chachaj-Brekiesz, Iwona KamińskaBorek, Katarzyna Kukuła, Karolina Dzięciołowska, Magda Bilut )

2017-09-28 – 2017-09-30 Taipei (Taiwan)
HONORARY MEDAL of the Jury 2017 TAIPEI INT’L INVENTION SHOW & TECHNOMART (TAIPEI INST)–INST for the invention of „New highly efficient photoluminescent molecular sensors based on lanthanide complexes for monitoring of polymerization processes and for highly sensitive detection of the properties of polymer coatings”
ype of award: team (Joanna Ortyl, Anna Chachaj-Brekiesz, Iwona Kamińska-Borek, Katarzyna Kukuła, Magda Bilut, Monika Topa, Maciej Pilch, Karolina Dzięciołowska)

2017-09-09 – 2017-09-11 Bangalore (India)
GOLD MEDAL at the INDIA INTERNATIONAL INNOVATION FAIR IIIF 2017 for the invention of „New highly efficient photoluminescent molecular sensors based on lanthanide complexes for monitoring of polymerization processes and for highly sensitive detection of the properties of polymer coatings”
Type of award: team (Joanna Ortyl, Anna Chachaj-Brekiesz, Iwona Kamińska-Borek, Katarzyna Kukuła, Magda Bilut, Monika Topa, Maciej Pilch, Karolina Dzięciołowska )

2017-05-25 –2017-05-27 Romania
SILVER MEDAL at the 9. edition of the European Exhibition of Creativity and Innovation EUROINVENT 2017 for the invention of “New highly luminescent europium (III), terbium (III) and samarium (III) complexes and their use for the role of organic-inorganic luminescent molecular chemosensors for monitoring of polymerization processes and monitoring of the properties of polymer coatings and films”
Type of award: team (Joanna Ortyl, Anna Chachaj-Brekiesz, Iwona Kamińska-Borek, Katarzyna Kukuła, Magda Bilut, Monika Topa, Maciej Pilch, Karolina Dzięciołowska)

09.12.2018, Seul (Korea)
BRONZE MEDAL at the International Exhibition Seol International Invention Fair 2018 for the invention “New Fluorescent Probes/Sensitizers for Monitoring and Acceleration of Cationic, Free Radical and Thiolene Photopolymerization Processes under UV-LED and Vis-LED Sources of Light”
Type of award: team (Joanna Ortyl, Anna Chachaj-Brekiesz, Emilia Hola, Monika Topa, Wiktoria Tomal, Magdalena Jankowska, Maciej Pilch)

09.12.2018, Seul (Korea)
AWARD for the best invention awarded at the International Exhibition Seol International Invention Fair 2018 by the National Research Council of Thailand
ype of award: team (Joanna Ortyl, Anna Chachaj-Brekiesz, Emilia Hola, Monika Topa, Wiktoria Tomal, Magdalena Jankowska, Maciej Pilch)

17.11.2018, Zagreb (Croatia)
SILVER MEDAL at the 43th International Invention Show INOVA 2018 by Croatian Inventors Association
Type of award: team

20.10.2018, Zagreb (Croatia)
SILVER MEDAL at the 16th International Innovation Exhibition ARCA 2018 by National and University Library in Zagreb
Type of award: team (Joanna Ortyl, Anna Chachaj-Brekiesz, Wktoria Świątek,  Emilia Hola, Magdalena Jankowska, Maciej Pilch)

2018-10-15 – 2018-10-17 Warsaw (Poland)
GOLD MEDAL at the International Warsaw Invention Show 2018, for the invention of “Novel Photochemical lnitiating Sysfems for Cationic, Free-radical and Hybrid Photopotymerization Processes of Coatings under near-UV and Visible Light using LED Sources of Light”
Type of award: team (Joanna Ortyl, Anna Chachaj-Brekiesz, Wktoria Świątek,  Emilia Hola, Magdalena Jankowska, Maciej Pilch)

2018-11-01 – 2018-11-04 Nuremberg (Germany)
GOLD MEDAL at the International Fair „Ideas Inventions New Products” IENA in the Nuremberg for the invention of “Novel Photochemical lnitiating Sysfems for Cationic, Free-radical and Hybrid Photopotymerization Processes of Coatings under near-UV and Visible Light using LED Sources of Light”
Type of award: team (Joanna Ortyl, Anna Chachaj-Brekiesz, Wktoria Świątek,  Emilia Hola, Magdalena Jankowska, Maciej Pilch)

1. Tomal W.; Pilch M.; Chachaj-Brekiesz A.; Ortyl J. Development of New High-Performance Biphenyl Derivatives as Versatile Photoredox Photoinitiating Systems and their Applications in 3D printing Photopolymerization Processes, Catalysts, 2019, vol. 9(10), p. 827. Impact Factor: 3.520
2. Fiedor P.; Pilch M.; Szymaszek P.; Chachaj-Brekiesz A.; Galek M.; Ortyl J. Photochemical study of a new bimolecular photoinitiating system for vat photopolymerization 3D printing techniques under visible light, Catalysts, 2020, vol.10(3) Impact Factor: 3.520
3. Hola E.; Pilch M.; Galek M.; Ortyl J. New versatile bimolecular photoinitiating systems based on aminom-terphenyl derivatives for cationic, free-radical and thiol–ene photopolymerization under low intensity UV-A and visible light sources, Polym.Chem., 2020, vol. 11(2). Impact Factor:  5.582
4. Hola E.; Ortyl J.; Jankowska M.; Pilch M.; Galek M.; Morlet-Savary F.; Graff B.; Dietlin C.; Lalevée J. New bimolecular photoinitiating systems based on terphenyl derivatives as highly efficient photosensitizers for 3D printing application, Polym. Chem., 2020, vol. 11(4). Impact Factor: 5.582
5. Hola E.; Topa M.; Chachaj-Brekiesz A.; Pilch M.; Fiedor P.; Galek M., Ortyl J., New, highly versatile bimolecular photoinitiating systems for free-radical, cationic and thiol-ene photopolymerization processes under low light intensity UV and visible LEDs for 3D printing application, RSC Advances, 2020, vol. 10(13). Impact Factor:3.361
6. Pilch M.; Ortyl J.; Chachaj-Brekiesz A.; Galek M.; Popielarz R. Europium-based luminescent sensors for mapping pressure distribution on surfaces, Sensors and Actuators, B: Chemical, 2020, vol. 305. Impact Factor:7.460
7. Pilch M.; Ortyl J.; Popielarz R.; Quantitative interpretation of the response of Solvent-Quenched Pressure Sensitive Paints (SQ-PSPs) to pressure, Measurement, v. 177, 109233. Impact Factor: 3.927
8. Topa M.; Ortyl J.; Chachaj-Brekiesz A.; Kamińska-Borek I.; Pilch M.; Popielarz R. Applicability of samarium(III) complexes for the role of luminescent molecular sensors for monitoring progress of photopolymerization processes and control of the thickness of polymer coatings, Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy, 199, 430-440. Impact Factor:4.098
9. Ortyl J.; Fiedor P.; Chachaj-Brekiesz A.; Pilch M.; Hola E.; Galek M. The applicability of 2-amino-4,6-diphenyl-pyridine-3-carbonitrile sensors for monitoring different types of photopolymerization processes and acceleration of cationic and free-radical photopolymerization under near UV light, Sensors, 19, 1668. Impact Factor:3.275
10. Pilch M.; Dzięciołowska K.; Chachaj‐Brekiesz A.; Topa M.; Kamińska‐Borek I.; Ortyl J. Luminescent Molecular Chemosensors for Rapid and Nondestructive Detection of Thickness of Polymer Coatings, Proceedings, 1, 850. 
11. Topa M.; Petko F.; Galek M.; Chachaj-Brekiesz A.; Pilch M.; Kamińska-Borek I.; Ortyl J. New Fluorescent Molecular Probes for Monitoring of Very Fast Photopolymerization Processes of Monomers, Proceedings, 1, 851. 
12. Topa M.; Hola E.; Galek M.; Petko F.; Pilch M.; Popielarz R.; Morlet-Savary F.; Graff B.; Lalevee J.; Ortyl J. One-component cationic photoinitiators based on coumarin scaffold iodonium salts as highly sensitive photoacid generators for 3D printing IPN photopolymers under visible LED sources, Polym. Chem., 2020,11, 5261-5278. Impact Factor: 5.582
13. Hola E.; Pilch M.; Ortyl J. Thioxanthone derivatives as a new class of organic photocatalysts for photopolymerisation processes and the 3D printing of photocurable resins under visible light, Catalysts 2020, 10(8), 903. Impact Factor: 3.520
14. Tomal W.; Pilch M.; Chachaj-Brekiesz A.; Galek M.; Morlet-Savary F.; B.Graff B.; Dietlin C.; Lalevée J.; Ortyl J.  Photoinitiator-catalyst systems based on meta-terphenyl derivatives as photosensitisers of iodonium and thianthrenium salts for visible photopolymerization in 3D printing processes, Polym. Chem., 2020,11, 4604-4621. Impact Factor: 5.582
15. Topa M.; Petko F.; Galek M.; Machowski K.; Pilch M.; Szymaszek P.; Ortyl J. Applicability of 1,6-diphenylquinolin-2-one derivatives as fluorescent sensors for monitoring the progress of photopolymerisation processes and as photosensitisers for bimolecular photoinitiating systems, Polymers 2019, 11(11), 1756. Impact Factor:4.329