Dr. Mateusz JANETA

assistant professor

mateusz.janeta at chem.uni.wroc.pl

MSc 2013, PhD 2017

Phones:
+48 71 375 7191 (office 304)
ORCID: 0000-0003-2197-7913

Mateusz Janeta received his PhD degree (summa cum laude) in Professor Szafert research group with a dissertation entitled, "Functionalized polyhedral oligomeric silsesquioxanes: synthesis, characterization and applications". After that, he initiated his research career as the assistant professor at University of Wrocław. His recent awards and distinctions include START scholarship for the best young researchers in Poland (Foundation for Polish Science, 2019) and Polish Minister’s of Education and Science scholarships for outstanding young scientists (2021-2024). He is a co-author of several scientific papers, US and PL patents. His main research concerns synthesis, structure and reactivity of functionalized polyhedral oligomeric silsesquioxanes and porous organic-inorganic hybrid materials as well as catalysis. He was a post doctoral fellow at University of Houston in prof Maurice Brookhart and prof Olafs Daugulis research group (2019-2021).

Research grants

  • Research grant under the ‘The Excellence Initiative - Research University’ programme, BPIDUB.12.2024
    "Multicent complexes of functionalized silsesquioxanes. Structural and catalytic properties studies" 
  • Preludium from National Science Centre (NCN), 2016/21/N/ST5/03293
    "Imine Cage-like Silsesquioxane as New Multifunctional Ligands in Supramolecular Chemistry"
  • Research grant from the subsidy of the Ministry of Science and Higher Education, 2016-2017.
    "Functionalized polyhedral silsesquioxanes as heavy metals nanosensor"
  • Research grant from the subsidy of the Ministry of Science and Higher Education, 2014-2015.
    "Octameric and open cage silsesquioxanes - synthesis and reactivity" 

Awards

2021-2024 Minister's of Education and Science scholarship for outstanding young scientists (Three-year scholarships are awarded to young scientists who conduct high-quality research and have an impressive scientific achievements)
2019-2020 Award of the Foundation for Polish Science - START Programme (stipends for young, talented researchers)
2019 Rector's Award for Academic Achievements (University of Wrocław)
2018 Rector's Award for Academic Achievements (University of Wrocław)
2016 Piotr Ludwik Sosabowski Scientific Scholarship
2015 Scholarship for the Best Doctoral Students awarded by the University of Wrocław as part of the project entitled “Development of the potential and educational offer of the University of Wrocław – the Chance to enhance the competitiveness of the University”
2014-2015 Subsidy from the Ministry of Science and Higher Education (Poland) for increasing innovations for Ph.D. students.
2013-2017 Ph.D. Scholarship (Faculty of Chemistry, University of Wroclaw)
2013-2015 Scholarship for the the best PhD students (Faculty of Chemistry, University of Wroclaw)
2013-2015 Rector scholarship for the best PhD students
2014 Third place in the category for the best poster during the doctoral students poster session (Faculty of Chemistry, University of Wroclaw).
2012 Award of the Academic Society of Chemistry Students for first place in the category for the best poster (Gdańsk).
2012 Award of the Academic Society of Chemistry Students for first place in the category for the best oral presentation (Warszawa).

Publications

15. Eftekhari-Sis, B.; Amirpour, N.; Naderahmadian, A.; Zirak, M.; Janeta, M.; Mahmoudi, G. ChemPlusChem, 2023,  , 1-5  

Amphiphilic Azo-Functionalized Polyhedral Oligomeric Silsesquioxane; Synthesis and Photo-Switched Efficient Phase Transfer via Host–Guest Encapsulation

15. Janeta, M.; Heidlas, J. X.; Daugulis, O.; Brookhart, M. Angew. Chem. Int. Ed., 2021, 60, 4566-4569 (hot paper) 

2,4,6-Triphenylpyridinium: A Bulky, Highly Electron-Withdrawing Substituent Which Enhances Properties of Nickel(II) Ethylene Polymerization Catalysts

14. Pander, M.; Janeta, M.; Bury, W. ACS Appl. Mater. Interfaces 2021, 13, 8344–8352

Quest for an Efficient 2-in-1 MOF-Based Catalytic System for Cycloaddition of CO2 to Epoxides under Mild Conditions

13. Szczepkowska, A. M.; Janeta, M.; Siczek, M.; Tylus, W.; Trzeciak, A. M.; Bury, W. Dalton Trans. 2021

Immobilization of Rh(I) Precursor in a Porphyrin Metal–Organic Framework – Turning on the Catalytic Activity

12. Janeta, M.*;  Lis, T.; Szafert, S. Chemistry - A European Journal, 2020, 26, 13686-13697.

Zinc Imine Polyhedral Oligomeric Silsesquioxane as a Quattro‐Site Catalyst for the Synthesis of Cyclic Carbonates from Epoxides and Low Pressure CO2

11. Janeta, M.; Bury, W.; Szafert, S. ACS Appl. Mater. Interfaces2018, 23, 19964-19973.

Porous Silsesquioxane–Imine Frameworks as Highly Efficient Adsorbents for Cooperative Iodine Capture

10. Woźniak, M. J.; Chlanda, A.; Oberbek, P.; Heljak, M.; Czarnecka, K.; Janeta, M.; John, Ł. Micron, 2019, 119, 64-71.

Binary bioactive glass composite scaffolds for bone tissue engineering: structure and mechanical properties in micro and nano scale: a preliminary study

9. Chlanda, A.; Oberbek, P.; Heljak, M.; Kijeńska-Gawrońska, E.; Bolek, T.; Gloc, M.; John, Ł.; Janeta, M.; Woźniak, M. J. Materials Science and Engineering C-Materials for Biological Applications, 2019, 94, 516-523.

Fabrication, multi-scale characterization and in-vitro evaluation of porous hybrid bioactive glass polymer-coated scaffolds for bone tissue engineering

8. John, Ł.; Janeta, M.; Szafert, S. New Journal of Chemistry, 2018, 42, 39-47.

Synthesis of Cubic Spherosilicates for Self-Assembled Organic-Inorganic Biohybrids Based on Functionalized Methacrylates

7. Janeta, M.; Szafert, S. Journal of Organometallic Chemistry, 2017, 847, 173-183.

Synthesis, characterization and thermal properties of T8 type amido-POSS with p-halophenyl end-group

6. John, Ł.; Janeta, M.; Szafert, S. Materials Science and Engineering C, 2017, 78, 901-911.

Designing of Macroporous Magnetic Bioscaffold Based on Functionalized Methacrylate Network Covered by Hydroxyapatites and Doped with Nano-MgFe2O4 for Potential Cancer Hyperthermia Therapy

5. John, Ł.; Malik, M.; Janeta, M.; Szafert, S. RSC Advances, 2017, 7, 8394-8401.

First Step Towards a Model System of the Drug Delivery Network Based on Amide-POSS Nanocarriers

4. John, Ł.; Janeta, M.; Rajczakowska, M.; Ejfler, J.; Łydżba, D.; Szafert, S. RSC Advances, 20166, 66037-66047.

 Synthesis and Microstructural Properties of the Scaffold Based on a 3-(Trimethoxysilyl)propyl Methacrylate-POSS Hybrid Towards Potential Tissue Engineering Applications

  3. Janeta, M.; John, Ł.; Ejfler, J.; Lis, T.; Szafert, S. Dalton Transactions, 201645, 12312-12321. (inside front cover)
Multifunctional Imine-POSS as Uncommon 3D Nanobuilding Blocks for Supramolecular Hybrid Materials: Synthesis, Structural Characterization and Properties

 2. Janeta, M.; John, Ł.; Ejfler, J.; Szafert, S. RSC Advances, 20155, 72340-72351.

'Novel Organic-Inorganic Hybrids Based on T8 and T10 Silsesquioxanes: Synthesis, Cage-Rearrangement and Properties'

 1. Janeta, M.; John, Ł.; Ejfler, J.; Szafert, S. Chemistry - A European Journal, 2014, 20, 15966-15974.

High-Yield Synthesis of Amido-Functionalized Polyoctahedral Oligomeric Silsesquioxanes using Acyl Chlorides  

Patents

1. Szafert Sławomir, Janeta Mateusz, John Łukasz, S. US Patent 2016, 9,365,595 B1.

 Method of converting Polyhedral Oligomeric Silsesquioxane (POSS) type T8 into 10

2. Szafert Sławomir, Janeta Mateusz, John Łukasz, S. Zgł. pat., 2015, PL 413463 A1.

 "Sposób przekształcania Poliedrycznych Oligomerycznych Silseskwioksanów (POSS) typu T8 w związki typu T10”

 Blog