Publications

[1] R.P. Putra, Y. Samejima, S. Nakabayashi, H. Horino, I.I. Rzeznicka, Copper-based electrocatalyst derived from a copper chelate polymer for oxygen reduction reaction in alkaline solutions, Catal. Today, (2020).

[2] R.P. Putra, H. Horino, I.I. Rzeznicka, An Efficient Electrocatalyst for Oxygen Evolution Reaction in Alkaline Solutions Derived from a Copper Chelate Polymer via In Situ Electrochemical Transformation, Catalysts, 10 (2020) 233.

[3] Y. Ikumura, Y. Habuka, S. Sakai, T. Shinohara, H. Yuge, I.I. Rzeznicka, A. Hori, Enhanced and Heteromolecular Guest Encapsulation in Nonporous Crystals of a Perfluorinated Triketonato Dinuclear Copper Complex, Chem. Eur. J., 26 (2020) 5051-5060.

[4] R.P. Putra, Y. Ikumura, H. Horino, A. Hori, I.I. Rzeznicka, Adsorption and Conformation of Bovine Serum Albumin with Blue-Emitting Gold Nanoclusters at the Air/Water and Lipid/Water Interfaces, Langmuir, 35 (2019) 16576-16582.

[5] T. Kusakawa, S. Sakai, K. Nakajima, H. Yuge, I.I. Rzeznicka, A. Hori, Synthesis, Structures and Co-Crystallizations of Perfluorophenyl Substituted β-Diketone and Triketone Compounds, Crystals, 9 (2019) 175.

[6] J. Grams, R. Ryczkowski, K. Chałupka, I. Sobczak, I. Rzeźnicka, K. Przybysz, Impact of Support (MCF, ZrO2, ZSM-5) on the Efficiency of Ni Catalyst in High-Temperature Conversion of Lignocellulosic Biomass to Hydrogen-Rich Gas, Materials 12 (2019) 3792.

[7] J. Grams, M. Kwapińska, M. Jędrzejczyk, I. Rzeźnicka, J.J. Leahy, A.M. Ruppert, Surface characterization of Miscanthus × giganteus and Willow subjected to torrefaction, J. Anal. Appl. Pyrolysis, 138 (2019) 231-241.

[8] R. Gonda, I.I. Rzeznicka, Y. Kinoshita, S. Uchida, A. Hori, Guest encapsulations in non-porous crystals of fully fluorinated dinuclear metal complexes with the M2O2 core (M = Fe3+, Co2+, Ni2+), Dalton Trans., 48 (2019) 9062-9066.

[9] E. Soszka, H.M. Reijneveld, M. Jędrzejczyk, I. Rzeźnicka, J. Grams, A.M. Ruppert, Chlorine Influence on Palladium Doped Nickel Catalysts in Levulinic Acid Hydrogenation with Formic Acid as Hydrogen Source, ACS Sustain. Chem. Eng., 6 (2018) 14607-14613.

[10] I. Rzeznicka, H. Horino, Nanoscale Insights into Enhanced Raman Spectroscopy, in: G.M.d. Nascimento (Ed.) Raman Spectroscopy, InTechOpen, 2018.

[11] H.A. Kindi, A. Mohamed, S. Kajimoto, N. Zhanpeisov, H. Horino, Y. Shibata, I.I. Rzeznicka, H. Fukumura, Single Bovine Serum Albumin Molecule Can Hold Plural Blue-emissive Gold Nanoclusters: A Quantitative Study with two-photon Excitation, J. Photochem. Photobiol., A, 357 (2018) 168-174.

[12] A. Hori, R. Gonda, I.I. Rzeznicka, Enhanced Adsorption of Small Gas Molecules in Metal (Cu2+, Pd2+, Pt2+) Complexes Induced by Ligand Fluorination, CrystEngComm, 19 (2017) 6263-6266.

[13] I.I. Rzeźnicka, H. Horino, K. Yagyu, T. Suzuki, S. Kajimoto, H. Fukumura, Chlorine Adlayer-templated Growth of a Hybrid Inorganic–organic Layered Structure on Au(111), Surf. Sci., 652 (2016) 46-50.

[14] S. Mauri, R. Pandey, I. Rzeznicka, H. Lu, M. Bonn, T. Weidner, Bovine and Human Insulin Adsorption at Lipid Monolayers: a Comparison, Front. Phys., 3 (2015).

[15] I.I. Rzeźnicka, R. Pandey, M. Schleeger, M. Bonn, T. Weidner, Formation of Lysozyme Oligomers at Model Cell Membranes Monitored with Sum Frequency Generation Spectroscopy, Langmuir, 30 (2014) 7736-7744.

[16] J. Grams, A. Ruppert, I. Rzeźnicka, M. Niewiadomski, M. Jędrzejczyk, Surface Characterization of Lignocellulosic Biomass Submitted to Pyrolysis, Surf. Interface Anal., 46 (2014) 837-841.

[17] H.M. Yusoff, I.I. Rzeźnicka, H. Hoshi, S. Kajimoto, N.N. Horimoto, K. Sogawa, H. Fukumura, Excitation Energy Migration in Yellow Fluorescent Protein (citrine) Layers Adsorbed on Modified Gold Surfaces, Appl. Surf. Sci., 280 (2013) 776-782.

[18] I.I. Rzeźnicka, H. Horino, N. Kikkawa, S. Sakaguchi, A. Morita, S. Takahashi, T. Komeda, H. Fukumura, T. Yamada, M. Kawai, Tip-enhanced Raman Spectroscopy of 4,4′-bipyridine and 4,4′-bipyridine N,N’-dioxide Adsorbed on Gold Thin Films, Surf. Sci., 617 (2013) 1-9.

[19] I.I. Rzeźnicka, T. Yamada, M. Kawai, Light Emission from PTCDA Bilayer on Au(111) Induced in Scanning Tunneling Microscopy, Surf. Sci., 605 (2011) 2032-2037.

[20] I.I. Rzeźnicka, M. Sovago, E.H.G. Backus, M. Bonn, T. Yamada, T. Kobayashi, M. Kawai, Duramycin-Induced Destabilization of a Phosphatidylethanolamine Monolayer at the Air−Water Interface Observed by Vibrational Sum-Frequency Generation Spectroscopy, Langmuir, 26 (2010) 16055-16062.

[21] I. Rzeźnicka, G. W.H. Wurpel, M. Bonn, M. A. van der Horst, K. Hellingwerf, S. Matsunaga, T. Yamada, M. Kawai, Observation of Photoactive Yellow Protein Anchored to a Modified Au(111) Surface by Scanning Tunneling Microscopy, Chem. Phys.  Lett., 472 (2009) 113-117.

[22] I.I. Rzeźnicka, J. Lee, J.T. Yates, Electron-Stimulated Desorption Study of Oxygen Adsorbed on Ag(110). Observation of Inclined Physisorbed Species, J. Phys. Chem. C, 111 (2007) 3705-3709.

[23] I.I. Rzeźnicka, J. Lee, J.T. Yates, Dynamics of NF3 in a Condensed film on Au(111) as Studied by Electron-stimulated Desorption, Surf. Sci., 600 (2006) 4492-4500.

[24] W. Kazuo, K. Anton, H. Hideyuki, I.R. Izabela, T. Kazutoshi, N. Nobuyuki, M. Tatsuo, Scanning-Tunneling Microscopy, Near-Edge X-ray-Absorption Fine Structure, and Density-Functional Theory Studies of N2O Orientation on Pd(110), Jpn. J. Appl.  Phys., 45 (2006) 2290.

[25] K. Watanabe, A. Kokalj, Y. Inokuchi, I. Rzeznicka, K. Ohshimo, N. Nishi, T. Matsushima, Orientation of Nitrous Oxide on Palladium(110) by STM, Chem. Phys. Lett., 406 (2005) 474-478.

[26] I.I. Rzeźnicka, J. Lee, P. Maksymovych, J.T. Yates, Nondissociative Chemisorption of Short Chain Alkanethiols on Au(111), J. Phys. Chem. B, 109 (2005) 15992-15996.

[27] T. Matsushima, I. Rzeznicka, Y. Ma, Spatial distributions of desorbing products in basic catalytic processes and surface nano-structures, The Chemical Record, 5 (2005) 81-93.

[28] T. Matsushima, K. Imamura, H. Horino, A. Hiratsuka, Y.S. Ma, I. Rzeźnicka, O. Nakagoe, Inclined N2 Desorption in N 2O Decomposition on Rh(1 1 0), Appl. Surf. Sci., 244 (2005) 141-144.

[29] Y.S. Ma, I.I. Rzeznicka, T. Matsushima, Separation of Nitrogen Removal Pathways in a Steady-state NO + CO Reaction on Pd(1 1 0): an Angle-resolved Desorption Study, Appl.Surf.Sci., 244 (2005) 558-562.

[30] Y.S. Ma, I.I. Rzeznicka, T. Matsushima, Branching of the Intermediate N2O Decomposition in a Steady-state NO + CO + O2 Reaction on Pd(110); an Angle-Resolved Desorption Study, Catal. Lett., 101 (2005) 109-116.

[31] I.I. Rzeźnicka, Y. Ma, G. Cao, T. Matsushima, Removal Pathways of Surface Nitrogen in a Steady-State NO + CO Reaction on Pd(110) and Rh(110):  Angular and Velocity Distribution Studies, J.Phys.Chem. B, 108 (2004) 14232-14243.

[32] Y. Ma, I. Rzeznicka, T. Matsushima, Nitrogen Removal Pathways in a Steady-state NO+CO Reaction on Pd(110), Chem.Phys. Lett., 388 (2004) 201-207.

[33] S. Liu, H. Horino, A. Kokalj, I. Rzeźnicka, K. Imamura, Y. Ma, I. Kobal, Y. Ohno, A. Hiratsuka, T. Matsushima, N2 Desorption in the Decomposition of Adsorbed N2O on Rh(110), J.Phys.Chem. B, 108 (2004) 3828-3834.

[34] K. Imamura, H. Horino, I. Rzeźnicka, I. Kobal, A. Kokalj, Y. Ohno, B.E. Nieuwenhuys, A. Hiratsuka, T. Matsushima, Multi-directional N2 Desorption in N2O Decomposition on Rh(1 1 0), Sur.Sci., 566-568 (2004) 1076-1081.

[35] I.I. Rzeźnicka, T. Matsushima, Bidirectional CO2 Desorption in Steady-State CO Oxidation on Rh(110), J.Phys.Chem. B, 107 (2003) 8479-8483.

[36] I. Rzeźnicka, T. Matsushima, Active Phase for Inclined CO2 Desorption on Rh(110) in Steady-state CO Oxidation, Chem.Phys.Lett., 377 (2003) 279-285.

[37] I. Rzeźnicka, M. Goula Moula, L. Morales de la Garza, Y. Ohno, T. Matsushima, CO2 desorption Dynamics on Specified Sites and Surface Phase Transitions of Pt(110) in Steady-state CO Oxidation, J.Chem.Phys., 119 (2003) 9829-9841.

[38] I. Rzeznicka, L. Morales de la Garza, T. Matsushima, Surface Phase Transitions of Pt(110) Studied by Desorption Dynamics of Product CO2 in Steady-state CO Oxidation, J.Vac.Sci.Tech.  A:, 20 (2002) 1475-1480.

[39] I. Kobal, I.I. Rzeznicka, T. Matsushima, Site identification and angle-resolved measurements of desorbing surface reaction products at steady-state conditions, in:  Recent Research Developments in Physical Chemistry, Transworld Research Netowork, 2002, pp. 391-424.

[40] H. Horino, I. Rzeźnicka, A. Kokalj, I. Kobal, Y. Ohno, A. Hiratsuka, T. Matsushima, Two-directional N2 Desorption in Thermal Dissociation of N2O on Rh(110), Ir(110), and Pd(110) at Low Temperatures, J.Vac. Sci.Tech.  A:, 20 (2002) 1592-1596.

[41] J. Góralski, J. Grams, T. Paryjczak, I. Rzeźnicka, Investigation of the Coke Deposit on Ni-Al2O3 and Co-Al2O3 Catalysts Carbon, 40 (2002) 2025-2028.

[42] I.I. Rzeznicka, J. Góralski, T. Paryjczak, Role of Support on the Reducibility of NiO, Chem. Environ. Res., 10 (2001) 47-53.

[43] Y. Ohno, I. Kobal, H. Horino, I. Rzeznicka, T. Matsushima, Desorption Dynamics in N2O Decomposition on Pd(110), App. Surf. Sci., 169-170 (2001) 273-276.

[44] M. Golam Moula, A.B.P. Mishra, I. Rzeźnicka, M.U. Kislyuk, S. Liu, Y. Ohno, T. Matsushima, Site-switching for CO2 Formation and Structural Transformation of (1×2) to (1×1) in Steady-state CO oxidation on Pt(110), Chem. Phys. Lett., 341 (2001) 225-231.

[45] I.I. Rzeznicka, Y. Ohno, H. Horino, I. Kobal, K. Kimura, T. Matsushima, Angular and velocity distributions of desorbing products in steady-state NO+CO reaction over palladium(110), in:  Proceedings of the Ninth International Symposium: Heterogeneous Catalysis Pensoft Publishers, Varna, Bulgaria, 2000, Sep 22-24, pp. 97-102.

[46] J. Góralski, J. Grams, T. Paryjczak, I.I. Rzeznicka, Characterisation of coke on Ni/Al2O3,Co/Al2O3 catalysts originating from propane cracking, in:  Proceedings of the Ninth International Symposium: Heterogeneous Catalysis 2000 Pensoft Publishers, Varna, Bulgaria, 2000, Sep 22-24, pp. 829-833.

[47] I. Kobal, K. Kimura, Y. Ohno, H. Horino, I. Rzeznicka, T. Matsushima, Nitrogen Emission Process in the Decomposition of Nitrogen Oxides on Pd(11O); an Angular and Velocity Distribution study, in: A. Corma, F.V. Melo, S. Mendioroz, J.L.G. Fierro (Eds.) Studies in Surface Science and Catalysis, Elsevier, 2000, pp. 1337-1342.

[48] J. Goralski, J. Grams, I. Ludomirska, T. Paryjczak, I. Rzeznicka, Catalyst’s Charring in Commercial Catalytic Processes. Prevention of Catalyst’s Deactivation and Removal of Deposits, Przem. Chem., 78 (1999) 172-174.

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