Correlation between spectroscopic and chemical results, Applied Physics: A 89 (2007) 883–887 (IF2007 1.857) Ccongiu Castellano, Carbonyl groups development on degraded cellulose. Łojewska, Badania nad optymalizacją reakcji utleniania metylalu do formaldehydu, Przemysł Chemiczny (2007) (IF2007 0.196) Żak: Cobalt oxide catalyst on metallic structured reactor filling for VOC combustion as an alternative to noble metal catalysts. Kleszcz: Structured catalytic reactor for VOC combustion. Łojewska, Thin cobalt oxide films for catalysis deposited by plasma enhanced metal-organic chemical vapor deposition, Thin Solid Films 15/16 (2007) 6590-6595 (IF2008 1.884) Łojewska, Prospect of compact afterburners based on metallic microstructures. Łojewska Microstructured Catalytic Reactor for VOC Combustion: Design, Evaluation and Examination, Chem. Jaroszyński, Reaktory strukturalne dla procesów dopalania katalitycznego, Structured reactors for catalytic combustion, Przemysł Chemiczny 85 (2006) 1117-1121 (IF2007 0.196) Proniewicz, FTIR in situ transmission studies on the kinetics of paper degradation via hydrolytic and oxidative reaction paths, Applied Physics: A 83 (2006) 597-603 (IF2007 1.857) Kołodziej, Preparation, characterization and deposition of Langmuir-Blodgett Co, Al organic films for the catalytic applications, Thin Solid Films 495 (2006) 299-307. Preparation of active catalyst on metallic carrier, Catal. Stoch, Pd/Pt promoted Co3O4 catalysts for VOCs combustion. Łojewska, Optimization of structured catalyst carriers for VOC combustion, Catal. Preparation of active catalytic surface, Polish J. Wesełucha-Birczyńska, Microstructured cobalt catalyst for VOC combustion. Wesełucha-Birczyńska, Engineering and chemical aspects of the preparation of microstructured cobalt catalyst for VOC combustion, Catal. Homogenous additives impact on formaldehyde yield on vanadia catalyst., Catal. Dziembaj, Promoting methane partial oxidation. Łojewski, Kinetic studies of hydrolytic and oxidative degradation of paper by in situ FTIR transmission spectroscopy, Materiały 7th International Symposium on Transitional Metals in Paper (Projekt UE EVK4), Rzym (2005). Proniewicz, Cellulose Oxidative and Hydrolytic Degradation: In Situ FTIR Approach, Polym. Dziembaj, Pecularities of transition metals dispersed on oxide support in catalysis phenomena. In Situ FTIR Transmission Studies on Hydrolysis and Oxidation, e-Preservation Science 2 (2005) 1-11. Proniewicz, Kinetic Approach to Degradation of Paper. Currently we conduct a postgraduate course of studies in Modern Analytical Techniques in Conservation Science. Part of this research has been carried out within Long-Term National Project "Acidic Paper". In this area we cooperate with a great many institutions of cultural heritage in Poland and in Europe, notable among them being the Jagiellonian Library, the National Museum and the Academy of Fine Arts in Kraków. In conservation chemistry the focus is on degradation processes (paper, pigments, dyes) and also on analytical methods for investigating historical objects. This research is done in cooperation with the Technical Universities of Silesia and Łódź and with the Institute of Chemical Engineering of the Polish Academy of Sciences. Of particular interest is the development of catalyst preparation methods and the search for nanocomposite metal oxide catalysts that could replace precious metal-containing ceramic monoliths. In catalysis the effort is targeted at designing the metallic structured reactors for combustion processes. The detailed information on the research in Heterogeneous Reactions Kinetics Group can be found here. The interest of the research team spreads over catalysis, conservation chemistry and molecular spectroscopy.