Dr. Gajda Tamás publikációs és hivatkozási listája (2012. január)

 

2 könyv, 2 könyvfejezet, 64 folyóirat cikk

S Impakt faktor: 133.707

S Független hivatkozás: 849

 

 

Books:

 

(1) H. Gamsjäger, J. Bugajski, T. Gajda, R.J. Lemire, W. Preis, Chemical Thermodynamics Vol. 6.: Chemical Thermodynamics of Nickel, (617 pp). Elsevier, Amsterdam, 2005.

 

1.         Grambow B, Fattahi M, Montavon G, et al.
Source: RADIOCHIMICA ACTA   Volume: 94   Issue: 9-11   Pages: 627-636   Published: 2006

2.         Hummel W, Puigdomenech I, Rao LF, et al., Source: COMPTES RENDUS CHIMIE   Volume: 10   Issue: 10-11   Pages: 948-958   Published: OCT-NOV 2007

3.         Kirishima A, Onishi Y, Sato N, et al., Source: JOURNAL OF CHEMICAL THERMODYNAMICS   Volume: 39   Issue: 11   Pages: 1432-1438   Published: NOV 2007

4.         Wanner H. Source: PURE AND APPLIED CHEMISTRY   Volume: 79   Issue: 5   Pages: 875-882   Published: MAY 2007

5.         Baik MH, Lee SY, Lee JK, et al., Source: NUCLEAR ENGINEERING AND TECHNOLOGY   Volume: 40   Issue: 7   Pages: 593-606   Published: DEC 2008

6.         Furia E, Porto R, Source: JOURNAL OF CHEMICAL AND ENGINEERING DATA   Volume: 53   Issue: 12   Pages: 2739-2745   Published: DEC 2008

7.         Kirishima A, Onishi Y, Sato N, et al.., Source: RADIOCHIMICA ACTA   Volume: 96   Issue: 9-11   Pages: 581-589   Published: 2008

8.         P. Sipos, JOURNAL OF MOLECULAR LIQUIDS   Volume: 143   Issue: 1   Special Issue: Sp. Iss. SI   Pages: 13-16   Published: SEP 15 2008

9.         Hummel W., Source: MONATSHEFTE FUR CHEMIE   Volume: 139   Issue: 5   Pages: 459-480   Published: MAY 2008

10.       Iuliano M, De Tommaso G., Source: JOURNAL OF CHEMICAL AND ENGINEERING DATA   Volume: 53   Issue: 3   Pages: 654-658   Published: MAR 2008

11.       Curti E, Dahn R, Farges F, et al., GEOCHIMICA ET COSMOCHIMICA ACTA   Volume: 73   Issue: 8   Pages: 2283-2298   Published: APR 15 2009

12.       Alliot I, Alliot C, Vitorge P, et al., Source: ENVIRONMENTAL SCIENCE & TECHNOLOGY   Volume: 43   Issue: 24   Pages: 9174-9182   Published: DEC 15 2009

13.       Rudan-Tasic D, Ulrih NP, Klofutar, Source: MONATSHEFTE FUR CHEMIE   Volume: 141   Issue: 2   Pages: 149-155   Published: FEB 2010

14.       Martinez A, Gerdes K, Gemmen R, et al. Source: JOURNAL OF POWER SOURCES   Volume: 195   Issue: 16   Special Issue: Sp. Iss. SI   Pages: 5206-5212   Published: AUG 15 2010

15.       Cigala RM, Crea F, De Stefano C, et al., Source: JOURNAL OF CHEMICAL AND ENGINEERING DATA   Volume: 55   Issue: 11   Pages: 4757-4767   Published: NOV 2010

16.  Bester-Rogac M, Klofutar C, Rudan-Tasic D
Source: ACTA CHIMICA SLOVENICA   Volume: 57   Issue: 4   Pages: 849-854   Published: 2010

17. Palmer DA, Benezeth P, Xiao CB, et al.
Source: JOURNAL OF SOLUTION CHEMISTRY   Volume: 40   Issue: 4   Pages: 680-702   Published: APR 2011

18. Frenkel M, Diky V, Chirico RD, et al.
Source: JOURNAL OF CHEMICAL AND ENGINEERING DATA   Volume: 56   Issue: 2   Pages: 307-316, 2011

19.  Grevel Klaus-Dieter; Majzlan Juraj, CHEMICAL GEOLOGY  Volume: 286   Issue: 3-4   Pages: 301-306,2011

20. Stockdale Anthony; Bryan Nick D.; Lofts Stephen
Source: JOURNAL OF ENVIRONMENTAL MONITORING  Volume: 13   Issue: 10   Pages: 2946-2950   DOI: 10.1039/c1em10407a   Published: OCT 2011

 

 

(2) Kiss T., Gajda T., Gyurcsik B., Bevezetés a Bioszervetlen kémiába, Nemzeti Tankönyvkiadó, 2007

 

Book chapter:

 

(1) R. Krämer and T. Gajda, (1999) "Functional Model Complexes for Dinuclear Phosphoesterase Enzymes", in Perspectives on Bioinorganic  Chemistry, Vol. 4 (Ed.:R.W. Hay, J.R. Dilwoth, K. Nolan), JAI Press  Inc., 1999, pp. 207-240.

 

1.              Kimura E.                                               Curr. Opin. Chem. Biol., 4, 207 (2000)

2.              Knofel T.                                                J. Mol. Biol., 309, 239 (2001)

3.              Kondo S.                                                 Chem. Lett., 830 (2001)

4.              Kovbasyuk L.                                         Eur. J. Inorg. Chem, 5, 1353 (2001)

5.              Iranzo O.                                                J. Am. Chem. Soc., 125, 1988-1993 (2003)

6.              Parkin G.                                                Chem. Rev., 104(2), 699-767 (2004)

7.              Wang Q, Mikkola S, Lonnberg H,          CHEMISTRY & BIODIVERSITY , 1, 1316-1326 (2004)

8.              Bernhardt, P. V.                                      Cobalt. Comprehensive Coord. Chem. II  (2004),6,1-145. 

9.              Butcher RJ, Gultneh Y, Allwar              ACTA CRYST.  SECTION E-STRUCTURE REPORTS ONLINE                61,  M818-M821, Part 5, 2005

10.           Wu, Xiang-Xia; Lin                                Transition Met. Chem. 2007,  32(8),  1018-1024.

11.           Meyer, Franc                                          Eur. J. Inorg. Chem,  (2006),   (19),  3789-3800. 

12.           Buchholz RR, Etienne ME, Dorgelo A, et al., Source: DALTON TRANSACTIONS   Issue: 43   Pages: 6045-6054   Published: 2008

13.       Gahan LR, Smith SJ, Neves A, et al., Source: EUROPEAN JOURNAL OF INORGANIC CHEMISTRY   Issue: 19, Pages: 2745-2758   Published: JUL 2009

14.       Franzel B, Fischer F, Trotschel C, et al., Source: PROTEOMICS   Volume: 9   Issue: 8   Pages: 2263-2272   Published: APR 2009

15.       Romero, Maria J.; Pedrido, Rosa; Gonzalez-Noya, Ana M.; Martinez-Calvo, Miguel; Zaragoza, Guillermo; Bermejo, Manuel R. From Chemical Communications (Cambridge, United Kingdom) (2010), 46(28), 5115-5117.

 

2. T. Gajda, A. Jancsó, ’Organotins: Formation, use, speciation and toxicology’, in Metal Ions in Life Sciences vol. 7 pp. 111-152  (Eds. A. Sigel, H. Sigel, R.K.O. Sigel), RSC Publishing Thomas Graham Hause, 2010.

 

1.        Gianguzza Antonio; Giuffre Ottavia; Piazzese Daniela; Coord. Chem. Rev. 256, 222-239, 2012.   

2.        Environmental Bioindication, Biomonitoring, and Bioremediation of Organometal(loid)s
Author(s): Thayer John S.
Editor(s): Sigel A; Sigel H; Sigel RKO
Source: ORGANOMETALLICS IN ENVIRONMENT AND TOXICOLOGY  Book Series: Metal Ions in Life Sciences   Volume: 7   Pages: 435-463   DOI: 10.1039/9781849730822-00435   Published: 2010

 

Papers:

 

(1)  Nagy L., Horváth I., Gajda T. and Burger K., "Electrochemical study of lactobionic acid complexes of manganese in different oxidation states" (in hungarian), Magyar Kémiai Folyóirat, 1985, 91, 393-398. Impact factor: 0,26

 

1.             Veres S.                                  Magy.  Kém. Foly., 93, 199-204 (1987)

2.             Alekseev Y.E.                          Uspekhi Khim., 67, 723 (1998)                      

 

 

(2)  Nagy L., Gajda T., Pali T. and Burger K. (1986), "Saccharose complexes of manganese in different oxidations states", Inorg. Chim. Acta, 123, 35-40. Impact factor: 1,26   

 

1.               Khomutov G.B.                                     Sov. Plant P., 36, 542 (1989)

2.               Rao Ch.P.                                               Inorg. Chim. Acta, 186, 11 (1991)

3.               Pethö G.                                                 A gyógysz. tud. akt. kérd., 8, 99 (1991)

4.               Simándi L.I.                                            Cat. Act. of O2 Kluver Ac. Publ. (1992)

5.               Kaiwar S.P.                                            Carbohydr. Res., 237, 203 (1992)

6.               Hausherr-Primo L.                                 J. Chem. Soc. Dalton Trans., 1689 (1994)

7.               Bandwar R.P.                                         Curr. Sci. India, 72, 788 (1997)

8.               Ciesielski W, Krystyjan M                   E-POLYMERS Article Number: 137   Published: DEC 10 2009

9.               STUDY OF POLYSACCHARIDES THERMAL STABILITY IN THE ASPECT OF THEIR FUTURE APPLICATIONS Author(s): Ciesielski Wojciech, Editor(s): Fitzpatrick DW; Ulrich HJ
Source: MACROCYCLIC CHEMISTRY: NEW RESEARCH DEVELOPMENTS  Book Series: Chemistry Research and Applications   Pages: 213-231   Published: 2010

 

 

(3)  Nagy L., Gajda T., Pali T. and Burger K. (1988), "Electrochemical and spectroscopic study of the maltitol complexes of manganese in different oxidation states",

Acta Chim. Hung., 125, 403-414. Impact factor: 0,30

 

1.               Newbery J.E.                                         Annual Reports, 85, 180 (1988)

2.               Simándi L.I.                                            Catalytic Activation of O2 by metal complexes

                                                                            Kluver Ac. Publ., p. 316 (1992)

3.               Jáky M.                                                 Polyhedron, 12, 1271 (1993)

4.               Jáky M.                                                 Polyhedron, 13, 445 (1994)

5.          Kabir-ud-Din et. Al                               Coll. And polymer Sci. 284 (3): 276-283 DEC 2005

 

(4)  Gajda T., Nagy L. and Burger K. (1990), "Proton and zinc(II)-complexes of 2-(polyhydroxy-alkyl)thiazolidine-4-carboxylic acid derivatives",

J. Chem. Soc., Dalton Trans., 3155-3160. Impact factor: 1,834

 

1.               Sipos P.                                                  Int. J. Peptide Protein Res., 39, 207 (1992)

2.               Whitfield D.M.                                      Coord. Chem. Rev., 12, 171 (1993)

3.               Koch K.R.                                              Coord. Chem. Rev., 132, 99 (1994)

4.               Györgydeák Z.                                      Monatshefte für Chem., 125, 189 (1994)

5.               Hausherr-Primo L.                                 J. Chem. Soc., Dalton Trans., 1689 (1994)

6.               Gyurcsik N.                                           Acta Pharm. Hung., 70, 146 (2000)

7.               Zhdanov Y. A., Alekseev Y.E.              Usp. Khim., 71 (11): 1090-1102 (2002)

8.         Ferrari E, Grandi R,                                POLYHEDRON, 26, 4045-4052, 2007

 

 

 (5)  Gajda T., Nagy L., Rozlosnik N., Korecz L. and Burger K. (1992), "Equilibrium and spectroscopic studies of transition-metal complexes of sugar-containing thiazolidine derivatives", J. Chem. Soc., Dalton Trans., 475-479. Impact factor: 1,834

 

1.               Wadouchi A.                                          Carbohydr. Res., 262, 147 (1994)

2.               Hausherr-Primo L.                                 J. Chem. Soc., Dalton Trans., 1689 (1994)

3.               Györgydeák Z.                                      Monatshefte für Chem., 125, 189 (1994)

4.               Sohár P.                                                  Magyar Kém. Foly., 100, 469 (1995)

5.              Kozlowski H.                                         Handbook of Metal-Ligand Interaction in Biology and          Medicine, Eds.

                                                                            G. Berthon, Marcel Dekker, 1995, p. 683

6.               Bandwar R .P.                                        Curr. Sci. India, 72, 788 (1997)

7.               Gyurcsik B.                                           Acta Pharm. Hung., 70, 146 (2000)

8.               Osanai S.                                                Top. Curr. Chem., 215, 43 (2001)

9.               Kozlowski C.A.                                     Miner Eng., 15 (9): 677-682 sep. (2002)

10.            Zhdanov Y.A., Alekseev Y.E.               Usp. Khim., 71 (11): 1090-1102 (2002)

 

 

(6)  Gajda T., Henry B. and J.-J. Delpuech (1992), "Transition-metal complexes of carcinine, a peptide-type derivative of histamine", J. Chem. Soc., Dalton Trans., 2313-2319. Impact factor: 1,834

 

1.          Ward M.D.                                            Annual Reports in Inorg. Chem., (Sect A) p.277 (1993)

2.          Babuzhayev M.A.                                 Biochem. J., 304, 504 (1994)

3.          Gyurcsik B.                                           Acta Chem. Scand, 51, 59 (1997)

4.          Sharp R.R.                                             "NMR of Paramagnetic Species" in Nuclear Magnetic           Resonance, ed. G.A. Webb, 24, 479 (1997)

5.          Mlynarz P.                                            J. Chem. Soc., Dalton Trans., 3673 (1999)

6.          Kopinos L.E.                                         Eur. J. Inorg. Chem., 1781 (1999)

7.          Cosgun S.                                               J. Fluorine Chem., 107, 375 (2001)

8.          Pessoa J.C                                              J. Inorg. Biochem., 84, 259, (2001)                                                                                                       

9.          Revina A.A.                                           Russ. J. Phys. Chem., 77 (2): 307-313 (2001)

10.       Hamdoune F.                                         Progress in Colloid & Polymer Science, 118 (Trends in         Colloid and Interface Science XV), 107-109 (2001) 

11.       Selve C.                                                  Surfactant Science Series  (2001),  101 (Protein-Based           Surfactants),  169-195.

12.       Torreggiani A.,                                       J. Mol. Struct. 834, 294-301, 2007

13.       Gheibi N.; Saboury A. A.; Sarreshtehdari M.
Source: BULLETIN OF THE KOREAN CHEMICAL SOCIETY  Volume: 32   Issue: 5   Pages: 1500-1506 , 2011

 

 

(7)  Gyurcsik B., Gajda T., Nagy L. and Burger K. (1992), "Equilibrium and structural studies on proton and copper(II) complexes of N-D-gluconyl-glycine",

J. Chem. Soc., Dalton Trans., 2787-2792. Impact factor: 1,834

 

1.               Escandar G.M.                                       Polyhedron, 13, 143 (1994)

2.               Hausherr-Primo L.                                 J. Chem. Soc., Dalton Trans., 1689 (1994)

3.               Escandar G.M.                                       J. Chem. Soc., Dalton Trans., 1189 (1994)

4.               Jezowska-Bojczuk M.                           J. Chem. Soc., Dalton Trans., 2657 (1995)

5.               Jezowska-Bojczuk M.                           J. Chem. Soc., Dalton Trans., 3849 (1995)

6.               R.R. Sharp                                             "NMR of Paramagnetic Species" in Nuclear Magnetic           Resonance, ed. G.A. Webb, 24, 479 (1997)

7.               A.A. Frutos                                           Can. J. Chem., 75, 405 (1997)

8.               Bandwar R.P.                                         Curr. Sci. India, 72, 788 (1997)

9.               Landesma G.N.                                      Polyhedron, 17, 1517 (1998)

10.            J. Frelek                                                 Tetrahedron Asymmetry, 10, 863 (1999)

11.            Fridgen J. at. al.                                      J. Organomet. Chem. 689 (17): 2752-2761, 2004

 

 

(8)  Gajda T., Buzas N., Nagy L. and Burger K. (1992) "Manganese(II) and nickel(II) complexes of  some 2-(polyhydroxyalkyl)thiazolidine-4-carboxylic acid derivatives",

Polyhedron, 11, 2237-2243. Impact factor: 1,287

 

1.               Hausherr-Primo L.                                 J. Chem. Soc., Dalton Trans., 1689 (1994)

2.               Foulds G.A.                                           Coord. Chem. Rev., 146, 1 (1995)

3.               Gyurcsik B.                                           Acta Pharm. Hung., 70, 146 (2000)

 

 

(9)  Gajda T., Henry B. and Delpuech J.-J. (1993), "Complexes of copper(II) ion with histamine containing dipeptides: Formation constants and structure", 

J. Chem. Soc. Dalton Trans 1301-1306. Impact factor: 1,966

 

1.          Bonomo R.P.                                         J. Chem. Soc., Dalton Trans., 3093 (1996)

2.          Gyurcsik B.                                           Acta Chem. Scand., 51, 59 (1997)

3.          Tsiveriatis P.                                          J. Chem. Soc., Dalton Trans., 4267 (1997)

4.          Nolan K.B.                                             „Metal complexes of amino acids and peptides” in Amino    Acids, Peptides and Proteines, Vol 27 (1996) pp. 282-332

5.          Kozlowski H.                                        Coord. Chem. Rev., 184, 319 (1999)

6.          Mlynarz P.                                            J. Chem. Soc., Dalton Trans., 3673 (1999)

7.          Prenesti E.                                              Ann. Chim. Rome, 89, 1 (1999)

8.          Prenesti E.                                              Polyhedron, 18, 3233 (1999)

9.          Szabó-Planka T.                                     Polyhedron, 19, 2049 (2000)

10.       Bruni S.                                                  Spectrochim. Acta, A56, 815 (2000)

11.       Conato C.                                               BBA-Gen Subjects, 1526, 199 (2001)

12.       Masciocchi N.                                        Inorg. Chem., 40, 5897 (2001)

13.       Prenesti E.                                              Anal. Chim. Acta, 459, 323 (2002)

14.       Selve C.                                                  Surfactant Science Series  (2001), 101 (Protein-Based Surfactants), 169-195.

15.       Qi ZP, Yuan Q, Cai K, et al.                  Source: ZEITSCHRIFT FUR ANORGANISCHE UND ALLGEMEINE

                                                                         CHEMIE   Volume: 636   Issue: 11   Pages: 2009-2015   Published: 2010

16. Gheibi N.; Saboury A. A.; Sarreshtehdari M.
Source: BULLETIN OF THE KOREAN CHEMICAL SOCIETY  Volume: 32   Issue: 5   Pages: 1500-1506, 2011

17. Lakatos Andrea; Gyurcsik Bela; Nagy Nora V.; et al. DALTON TRANSACTIONS  Volume: 41   Issue: 6   Pages: 1713-1726   DOI: 10.1039/c1dt10989h   Published: 2012

 

 

(10) B. Gyurcsik, T. Gajda, L. Nagy, K. Burger, A. Rockenbauer and L. Korecz Jr. (1993)  "Proton, copper(II) and nickel(II) complexes of some Amadori Rearrangement product of D-glucose and amino acids", Inorg. Chim. Acta, 214, 57-66. Impact factor: 1,34

 

1.               Zhou Y. L.                                             Z. Naturforsch., 49B, 1193 (1994).

2.               Hong K. H.                                            Bull. Korean Chem. Soc., 16, 406 (1995)

3.               Higgins S. J.                                           Coord. Chem. Rev., 146, Part 1-2, 115 (1995)

4.               Bandwar R.P.                                         Carbohydrate Res., 287, 157 (1996)

5.               Bandwar R.P.                                         Carbohydrate Res., 297, 333 (1997)

6.               Bandwar R.P.                                         Curr. Sci. India, 72, 788 (1997)

7.               Tonkovic M.                                          Biometals, 10, 55 (1997)

8.               Bandwar R.P.                                         J. Inorg. Biochem., 66, 37 (1997)

9.               Krawielitzki S.                                       Z. Naturforsch., B. 56, 62 (2001)

10.            Dumas C. et al.                                      Bioconjugate Chem. 16 (2): 421-428 MAR-APR 2005

11.            Millicevic A.                                          CROAT. CHEM. ACTA, 80, 557-563, 2007

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                                                                            262   Published: SEP-OCT 2007

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14.            Ciesielski W, Krystyjan M                   E-POLYMERS Article Number: 137   Published: DEC 10 2009

15.            Mossine VV, Mawhinney TP,              ADVANCES IN CARBOHYDRATE CHEMISTRY AND

                                                                            BIOCHEMISTRY, VOL 64  Book Series: Volume: 64   Pages: 291-402                            Published: 2010

 

(11) Gajda T., Henry B. and Delpuech J.-J. (1994), "Multinuclear NMR and potentiometric

study on tautomerism during protonation and Zn(II) complex formation of some imidazole-containing peptide derivatives", J. Chem. Soc. Perkin Transaction II., 89,157-164. Impact factor: 1,536

 

1.          Várnagy K.                                             J. Chem. Soc., Dalton Trans., 3093 (1994)

2.          Nolan K.                                                "Metal Complexes of amino acids and peptides" in Amino   Acids, Peptides

                                                                          and Proteines, Vol. 27, 282-332 (1996)

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14.       Ivanov I.                                                 J. Am. Chem. Soc., 124, 13380 (2002)

15.       Revina A.A.                                           Russ. J. Phys. Chem., 77 (2): 307-313 (2003)

16.       Szakacs Z. et al.                                     Anal. Bioanal. Chem.  378 (6): 1428-1448 (2004)

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(12) B. Gyurcsik, N. Buzás, T. Gajda, L. Nagy, E. Kuzmann, A. Vértes and K. Burger (1995), "The stability and structure of complex species formed in equilibrium reaction of diethyltin(IV) with N-D-gluconylamino acids in aqueous solution",   

Z. Naturforsch., 50B, 515-523. Impact factor: 0,96

 

1.          E. Farkas and I. Sóvágó                          "Metal Complexes of amino acids and peptides" in Amino                   Acids,

                                                                         Peptides and Proteines, Vol. 29, p. 379 (1998)

2.          Kolb L.                                                   Mössbauer Effect Data, 5, 18 (1995)

3.          Casas J.S.                                               Polyhedron, 19, 813-819 (2000)

4.          Abd-Alla E.M.                                       J. Coord. Chem., 56,: 691-700, (2003)

5.          Mohamed M.M.A.                                J. Coord. Chem., 56 (9): 745-759 (2003)

6.           Samanta B .                                           STRUCT. CHEM. 18,  287-293, 2007

7. Dey Dilip Kumar; Dey Sankar Prasad; Lycka Antonin; et al.
Source: POLYHEDRON  Volume: 30   Issue: 15   Pages: 2544-2549   DOI: 10.1016/j.poly.2011.06.036   Published: SEP 21 2011

 

 

(13) N. Buzás, T. Gajda, E. Kuzmann, L. Nagy, A. Vértes and K. Burger (1995), "Coordination properties of L-cysteine and its derivatives towards diethyltin(IV) in aqueous solution" Main Group Met. Chem. 18, 641-649. Impact factor: 0,64

 

1.         Casas J.S.                                                J. Chem. Soc., Dalton Trans, 4421(1997)

2.         Farkas E. and Sóvágó I.                          "Metal Complexes of amino acids and peptides" in Amino                   Acids,

                                                                               Peptides and Proteines, 29, p. 379 (1998)

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Compounds, 30, 380-453(1997).

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22. INSULIN-ENHANCING VANADIUM PHARMACEUTICALS: THE ROLE OF ELECTRON PARAMAGNETIC RESONANCE METHODS IN THE EVALUATION OF ANTIDIABETIC POTENTIAL
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(40)   A. Jancsó, I. Török, L. Korecz, A. Rockenbauer, T. Gajda (2002) "Metal ion co-ordination of a tripodal imidazole-derivative and its tridentate constituent: equilibrium and structural studies", J. Chem. Soc., Dalton Trans., 2601-2607. Impact factor: 3,023

 

1.               Parkin G.                                                Chem. Rev., 104(2), 6919-767 (2004)

2.               He H.S. at al.                                          Inorg. Chem. 43,  2392-2401 ( 2004)

3.               Blackman, A. G.                                    Polyhedron  (2005),  24(1),  1-39.

4.               Chiu TY, James AE                               COLL. SURFACES A, 280, 58-65, 2006

5.               Correia I, Dornyei A,                             EUR. J. INORG. CHEM. 2819-2830, 2006

6.               Kong LY, Zhu HF,                                J. INORG. BIOCHEM. 100, 1272-1279, 2006

7.               7. Szilagyi, O.; Osz, K.;                         Polyhedron  (2006),  25(16),  3173-3182. 

8.               Nomkoko T. E. Jackson G.E.                Dalton Transactions  (2006),   (33),  4029-4038.

9.               Sarma R, Kalita D, Baruah JB,              DALTON TRANSACTIONS   Issue: 36   Pages: 7428-7436,  2009

 

(41)     A. Jancsó, S. Mikkola, H. Lönnberg, K. Hegetschweiler, T. Gajda, (2003) "Phosphodiester Cleavage of Ribonucleoside Monophosphates and Polyribonucleotides by Homo- and heterodinuclear Metal Complexes of a Cyclohexane-Based Polyamino-Polyol Ligand", Chem. Eur. J., 2003, 9, 5404-5415. Impact factor: 4,353

 

1.         Morrow J.R. et al.                                  Curr. Opinion Chem. Biol. 8, 192-200 (2004)                       

2.         Bazzicalupi C, et al.                               Inorg. Chem. 43, 6255-6265, 2004

3.         Yashiro M, Kawahara R                         J. Biol. Inorg. Chem. 2004, 9, 914-921.

4.         Williams, N. H.                                       Bioinspired organic chemistry. Ann.Rep. Prog. Chem.

Section B: Organic Chemistry  (2004),  100  407-434.

5.         Jagoda M., et al.                                     J. Am. Chem. Soc. 127 (43): 15061-15070,  2005

6.         Liu CT, Neverov AA,                            INORG. CHEM. 46, 1778-1788, 2007

7.         Neverov AA, Lu ZL,                              J. AM. CHEM. SOC. 128, 16398-16405, 2006

8.         Brown RS, Neverov AA                        ADV. PHYS.  ORG. CHEM. 42, 271-331. 2008

9.         Cacciapaglia R, Casnati A,                     J. AM. CHEM. SOC. 129, 12512-12520, 2007

10.       Bazzicalupi C, Bencini A,                      INORG. CHEM. 47, 5473-5484, 2008

11.       Bazzicalupi c., Bencini A.                      Open Inorganic Chemistry Journal  (2008),  2  80-89.

12.       Rossiter CS, Mathews RA,                    J. INORG. BIOCHEM. 103, 64-71,2009  

13.       Brown RS, Lu ZL, Liu CT, et al.           JOURNAL OF PHYSICAL ORGANIC CHEMISTRY   Volume: 23   Issue: 1   Pages: 1-15   Published: JAN 2010

14. Striegler S, Dunaway NA, Gichinga MG, et al., INORGANIC CHEMISTRY   Volume: 49   Issue: 6   Pages: 2639-2648   Published: MAR 15 2010

15. Stachelska-Wierzchowska A, Wieczorek ZJ, NUCLEOSIDES NUCLEOTIDES & NUCLEIC ACIDS   Volume: 30   Issue: 2   Pages: 135-148   Published: 2011

16. Mohamed Mark F.; Sanchez-Lombardo Irma; Neverov Alexei A.; et al., ORGANIC & BIOMOLECULAR CHEMISTRY , 10, 631-639, 2012, DOI: 10.1039/c1ob06482g.

 

(42) K. Gajda-Schrantz, A. Jancsó, C. Pettinari, T. Gajda (2003), "Thiolate anchore in organotin(IV) induced amide deprotonation: equilibrium and NMR spectroscopic studies on dimethyltin(IV) complexes formed with N-(2-mercapto-propionyl)glycine and L-alanyl-glycine", J. Chem. Soc. Dalton, 2003, 2912-2916. Impact factor: 2.908

 

1. Bresson C. et al.                                                               NEW JOURNAL OF CHEMISTRY 30 (3): 416-424, 2006

2. Sovago I, Osz K.                                               DALTON TRANSACTIONS (32): 3841-3854 2006

3. Nath M, Sulaxna                                                NEW JOURNAL OF CHEMISTRY 31 (3): 418-428 2007

4. Farrokh Gharib                                                 Appl. Organometal. Chem. 2008; 22: 215–220

5. Azadmehr, A.; Jabbari, M. Gharib,                   Canadian J. Chemistry  (2008),  86(8),  751-756.

6. Farkas, E.; Sovago, I.                                        Amino Acids, Peptides, and Proteins  (2007),  36  287-345.

7. Gimeno, M. Concepcion.                                  Handbook of Chalcogen Chemistry  (2007),     33-80. 

8. Dey DK, Dey SP, Karan NK, et al.                  JOURNAL OF ORGANOMETALLIC CHEMISTRY   Volume: 694

Issue: 15   Pages: 2434-2441   Published: JUL 1 2009

9. Gianguzza Antonio; Giuffre Ottavia; Piazzese Daniela; Coord. Chem. Rev. 256, 222-239, 2012.   

 

 (43) K.J. Powell, P.L. Brown, L.H. Byrne, T. Gajda, G. Hefter, S. Sjöberg, H. Wanner, “Chemical Specition of Hg(II) with environmental inorganic ligands”, Aust. J. Chem. 2004, 57, 993-1000. Impact factor: 1,434

 

1.         Bebout DC, Berry SM,                          STRUCTURE AND BONDING 120: 81-105 2006

2.         Moussavi M, Javidnejad M                   J. HAZARD. MAT. 144,  187-193,  2007

3.         Yantasee W, Warner CL                         ENVIRON.  SCI.  TECHN. 41, 5114-5119,  2007

4.         Tipping E                                               APPLIED GEOCHEM. 22, 1624-1635, 2007 

5.         Jeffree RA, Oberhansli F,                       ARCHIV. ENVIRON. CONT.  TOXICOL. 55, 451- 461, 2008   

6. Lin Yan; Larssen Thorjorn; Vogt Rolf D.; et al.
Source: JOURNAL OF ENVIRONMENTAL SCIENCES-CHINA  Volume: 23   Issue: 5   Pages: 757-764   DOI: 10.1016/S1001-0742(10)60473-1   Published: 2011

 

(44) Zs. Árkosi, Z. Paksi, L. Korecz, T. Gajda*, B. Henry* and A. Rockenbauer*, “Reinvestigation of the copper(II) - carcinine equilibrium system:  “two-dimensional” epr simulation and NMR relaxation studIES for determining the formation constants and coordination modes”, J. Inorg. Biochem. 2004, 98, 1995-2005. Impact factor: 2,225

 

1.         Torreggiani A, Reggiani M,                    J. MOL. STRUCT. 834, 294-301, 2007

2.         Bonomo RP, D'Alessandro F                 INORG. CHIM. ACTA, 361, 1705-1714, 2008

3.         Farkas, E.; Sovago, I.                              Amino Acids, Peptides, and Proteins  (2007),  36  287-345.

4.         Palivan CG, Balasubramanian V, Goodman BA, EUROPEAN JOURNAL OF INORGANIC CHEMISTRY   Issue: 31   Pages: 4634-4639   Published: NOV 2009

 

 

(45) K.J. Powell, P.L. Brown, L.H. Byrne, T. Gajda, G. Hefter, S. Sjöberg, H. Wanner, " Chemical Specition of Hg(II) with environmental inorganic ligands. Part 1: The Hg2+– Cl, OH, CO32–, SO42– and PO43– aqueous systems (IUPAC Technical Report), Pure Appl. Chem., 2005, 77, 739–800. Impact factor: 1,679

 

1. Silveira ML, Alleoni LRF                               CHEMOSPHERE 64 (11): 1929-1938 SEP 2006

2. Khairiah J, Lim KH,                                       BULL.  ENVIRON. CONT. TOXICOL. , 77, 608-615, 2006

3. Goulet RR, Holmes J,                                    GEOCHIM. COSMOCHIM. ACTA 71, 3393-3406, 2007

4. Khalid N, Ali S, Iqbal A                                 RADIOCHIMICA ACTA 95 (5): 281-287 2007

5. Gonzalez-Davila M,                                       AQUATIC GEOCHEMISTRY,  13,  339-355, 2007

6. Nabais JMV, Carrott PJM,                            ADSORP. SCI.  TECH.  25, 199-215, 2007

7. Kornev VI, Kardapol'tsev AA                       RUSS. J. COORD. CHEM.  34, 564-569, 2008

8. Pyreu DF, Kozlovskii EV                              RUSS. J. COORD. CHEM 35, 47-51,  2009

9. Muresan B, Cossa D,                                     GEOCHIM. COSMOCHIM. ACTA, 72, 5416-5430, 2008

10. Schrodle, S., Rudolph, W.W                         GEOCHIM. COSMOCHIM. ACTA 2007,  71,  5287-5300.

11. Foti C, Giuffre O, Lando G, et al.                JOURNAL OF CHEMICAL AND ENGINEERING DATA   Volume: 54   Issue: 3   Pages: 893-903   Published: MAR 2009

12. Aydinalp C,                                                  BULGARIAN JOURNAL OF AGRICULTURAL SCIENCE   Volume: 15   Issue: 2   Pages: 129-134   Published: APR 2009

13. Pyreu DF, Kozlovskii EV                            RUSSIAN JOURNAL OF COORDINATION CHEMISTRY   Volume: 35   Issue: 1   Pages: 47-51   Published: JAN 2009

14. Kim Y, Km J, Kim KN, et al.                       ANALYTICAL SCIENCES   Volume: 25   Issue: 4   Pages: 567-570   Published: APR 2009

15. Faridullah, Irshad M, Yamamoto S, et al.     WASTE MANAGEMENT   Volume: 29   Issue: 1   Pages: 265-271   Published: JAN 2009

16. Dong WM, Liang LY, Brooks S, et al.         ENVIRONMENTAL CHEMISTRY   Volume: 7   Issue: 1   Pages: 94-102   Published: 2009

17. Millero FJ, Santana-Casiano JM, Gonzalez-Davila M, JOURNAL OF SOLUTION CHEMISTRY   Volume: 39   Issue: 4   Pages: 543-558   Published: APR 2010

18. May PM, Rowland D, Konigsberger E, et al. TALANTA   Volume: 81   Issue: 1-2   Pages: 142-148   Published: APR 15 2010

19. Feyte S, Tessier A, Gobeil C, et al.              APPLIED GEOCHEMISTRY   Volume: 25   Issue: 7   Pages: 984-995   Published: JUL 2010

20. Wiederhold JG, Cramer CJ, Daniel K, et al. ENVIRONMENTAL SCIENCE & TECHNOLOGY   Volume: 44   Issue: 11   Pages: 4191-4197   Published: JUN 1 2010

21. Gonzalez B, Lorenzo-Luis P, Serrano-Ruiz M, et al., JOURNAL OF MOLECULAR CATALYSIS A-CHEMICAL   Volume: 326   Issue: 1-2   Pages: 15-20   Published: JUL 1 2010

22. Ryzhakov AM, Gruzdev MS, Pyreu DF, et al., RUSSIAN JOURNAL OF COORDINATION CHEMISTRY   Volume: 36   Issue: 8   Pages: 565-571   Published: AUG 2010

23. Berkovic AM, Gonzalez MC, Russo N, et al., JOURNAL OF PHYSICAL CHEMISTRY A   Volume: 114   Issue: 49   Pages: 12845-12850   Published: DEC 16 2010

24.  Rudolph WW, DALTON TRANSACTIONS   Volume: 39   Issue: 40   Pages: 9642-9653   Published: 2010

25. Velea S, Manolache M, Ilie L, et al., REVISTA DE CHIMIE   Volume: 61   Issue: 8   Pages: 809-814, AUG 2010

26. Bartels-Rausch T, Krysztofiak G, Bernhard A, et al., CHEMOSPHERE   Volume: 82   Issue: 2   Pages: 199-203   Published: JAN 2011

27. Masoud MS, Said TO, El Zokm G, et al., CHEMICAL SPECIATION AND BIOAVAILABILITY   Volume: 22   Issue: 4   Pages: 257-269   Published: 2010

28. May PM, Filella M., Source: ACCREDITATION AND QUALITY ASSURANCE   Volume: 16   Issue: 4-5   Pages: 179-184   Published: APR 2011

29. Dong WM, Bian YR, Liang LY, et al., ENVIRONMENTAL SCIENCE & TECHNOLOGY   Volume: 45   Issue: 8   Pages: 3576-3583   Published: APR 15 2011

30. Kyle JH, Breuer PL, Bunney KG, et al., HYDROMETALLURGY   Volume: 107   Issue: 3-4   Pages: 91-100   Published: MAY 2011

31. Cardiano Paola; Cucinotta Daniela; Foti Claudia; et al.
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32. Orlov Yu F.; Belkina E. I.
Source: RUSSIAN JOURNAL OF INORGANIC CHEMISTRY  Volume: 56   Issue: 6   Pages: 975-980   DOI: 10.1134/S0036023611060192   Published: JUN 2011

33. Cardiano Paola; Cucinotta Daniela; Foti Claudia; JOURNAL OF CHEMICAL AND ENGINEERING DATA  Volume: 56   Issue: 5   Pages: 1995-2004,2011

34. Le Faucheur Severine; Tremblay Yvan; Fortin Claude; et al.
Source: ENVIRONMENTAL CHEMISTRY  Volume: 8   Issue: 6   Pages: 612-622   DOI: 10.1071/EN11006   Published: 2011

35. Tselepidou A.; Drosos M.; Stathi P.; et al. Source: JOURNAL OF MATERIALS SCIENCE  Volume: 47   Issue: 7   Pages: 3140-3149   DOI: 10.1007/s10853-011-6148-6   Published: APR 2012

36. Luetzenkirchen Johannes  Source: APPLIED GEOCHEMISTRY  Volume: 27   Issue: 2   Pages: 427-443   DOI: 10.1016/j.apgeochem.2011.09.012   Published: FEB 2012

37. Muresan Bogdan; Pernet-Coudrier Benoit; Cossa Daniel; et al.  Source: APPLIED GEOCHEMISTRY  Volume: 26   Issue: 12   Pages: 2057-2063   DOI: 10.1016/j.apgeochem.2011.07.003   Published: DEC 2011

38. Jamil Habibah; Theng Lee Pei; Jusoh Khairiah; et al.   Source: AFRICAN JOURNAL OF BIOTECHNOLOGY  Volume: 10   Issue: 62   Pages: 13505-13513   Published: OCT 12 2011

 

(46) A. Jancsó, S. Mikkola, H. Lönnberg, K. Hegetschweiler, T. Gajda „Hydrolysis of a mRNA 5′-cap model substrate, 5′,5′-ApppA by di- and trinuclear zinc(II) complexes of a polyamino-polyol ligand”, J. Inorg. Biochem., 2005, 99, 1283-11293. Impact factor: 2,423

 

1. Xie J, Chen Y, Yan H,                                    PROG. REACT. KIN. MECH. 31,  29-44 2006

2. Jun L, Sang XM, Min W,                               PROG. REACT. KIN. MECH. 31 (4): 189-204 2006

4. Zhang SL, Li MJ,                                           CHINESE J. CHEM. 25 (6): 736-742 JUN 2007

4. Xie, Jia-qing; Feng, Fa-mei                             J- DISPERSION SCI. TECHNO. 29, 1311-1318, 2008

 

(47)  A. Jancsó, Z. Paksi, S. Mikkola, A. Rockenbauer, T. Gajda „Iron(III)- and copper(II) complexes of an asymmetric, pentadentate salen-like ligand bearing a pendant carboxylate group”, J. Inorg. Biochem., 2005, 99, 1480-1489. Impact factor: 2,423

 

1. Balazs N, Sipos P                                           CARBOHYDRATE RES. 342, 124-130, 2007

2. Baleizao C, Garcia H                                      CHEMICAL REVIEWS 106, 3987-4043,  2006

3. Pessoa JC, Marcao S,                                     EUR. J.  INORG. CHEM. 3595-3606, 2006

 

 

(48)  A. Jancsó, Z. Paksi, N. Jakab, B. Gyurcsik, A. Rockenbauer, T. Gajda, „Solution chemical properties and catecholase-like activity of the copper(II)-Ac-His-His-Gly-His-OH system, a relevant functional model for copper containing oxidases”, Dalton Trans., 2005, 3187-3194. Impakt Faktor: 3.003

 

1. Sovago I, Osz K.                                            DALTON TRANSACTIONS (32): 3841-3854 2006

2. Kallay C, Varnagy K,                                     DALTON TRANSACTIONS (38): 4545-4552 2006

3  Smith, D. W.,                                     Copper. Annual Reports Section "A" (Inorganic Chemistry) 2006, 102, 253-273.

4. Matera, A.; Brasun, J.; Orfei, M.; Ginnaneschi, M.; Messori, L.; Swiatek-Kozlowska, J., Short-chain oligopeptides with favourable copper(II) binding properties. The impact of cyclization on coordination abilities towards transition metal ions. Abstract book of the 2nd European Conference on Chemistry for Life Sciences 2007, 1.

5. Stanczak P, Kozlowski H                              BIOCHEM. BIOPHYS. RES. COMMUN. 352, 198-202, 2007

6. Osz K, Nagy Z,                                              CHEM.  EUR. J. 13,  7129-7143 2007

7. Kallay C, Nagy Z,                                          BIOINORG. CHEM. APPL. Article Number: 30394, 2007

8. Matera, A.; Brasun, J.; Cebrat, M.; Swiatek-Kozowska, J., The role of the histidine residue in the coordination abilities of peptides with a multi-histidine sequence towards copper(II) ions. Polyhedron 2008, 27, (6), 1539-1555.

9. La Mendola D, Bonomo RP,                          J. INORG. BIOCHEM.  103,  195-204, 2009

10. Kallay C, Varnagy K,                                   INORG. CHIM. ACTA, 362, 935-945, 2009

11.  Kowalik-Jankowska T,                               J. INORG. BIOCHEM.  103, 135-142, 2009

12. Rajkovic S, Kallay C,                                   DALTON TRANS. 5059-5071, 2008

13. Jackson, S.K.; Hancock JT,                          Electron Paramagnetic Resonance  (2007),  20  192-244.

14. Zoroddu MA,                                               PROCEEDINGS OF THE 9TH EUROBIC Pages: 167-172   Published: 2008, ISBN: 978-88-7587-463-6

15. Timari S, Kallay C, Osz K, et al.                 DALTON TRANSACTIONS   Issue: 11   Pages: 1962-1971   Published: 2009

16. Zoroddu, M. A.; Medici, S.; Peana, M.,      Journal of Inorganic Biochemistry 2009, 103, (9), 1214-1220.

17. Zoroddu, M. A.; Kowalik-Jankowska, T.; Medici, S.; Peana, M.; Kozlowski, H., Dalton Transactions 2008, (44), 6127-

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18. Baghel GS, Mobin SM, Rao CP                   Source: INORGANICA CHIMICA ACTA   Volume: 362   Issue: 8   Pages: 2770-2775   Published: JUN 2009

19. Valensin D, Szyrwiel L, Camponeschi F, et al., INORGANIC CHEMISTRY   Volume: 48   Issue: 15   Pages: 7330-7340   Published: AUG 3 2009

20. Palivan CG, Balasubramanian V, Goodman BA, EUROPEAN JOURNAL OF INORGANIC CHEMISTRY   Issue: 31   Pages: 4634-4639   Published: NOV 2009

21. Kowalik-Jankowska T, Jezierska J, Kuczer M. DALTON TRANSACTIONS   Volume: 39   Issue: 17   Pages: 4117-4125   Published: 2010

22. Allam A, Dechamps-Olivier I, Behr JB, et al., INORGANICA CHIMICA ACTA   Volume: 366   Issue: 1   Pages: 310-319   Published: JAN 30 2011

23. Timari Sarolta; Cerea Riccardo; Varnagy Katalin
Source: JOURNAL OF INORGANIC BIOCHEMISTRY  Volume: 105   Issue: 8   Pages: 1009-1017   , 2011

24. La Mendola Diego; Farkas Daniel; Bellia Francesco; et al. Source: INORGANIC CHEMISTRY  Volume: 51   Issue: 1   Pages: 128-141   DOI: 10.1021/ic201300e   Published: JAN 2 2012

 

 

(49) Chemical speciation of environmentally significant metals with inorganic ligands - Part 2: The Cu2+-OH-, Cl-, CO32-, SO42-, and PO43- systems - (IUPAC technical report),

Powell KJ, Brown PL, Byrne RH, Gajda T, Hefter G, Sjoberg S, Wanner H,

Pure Appl. Chem. 79, 895-950, 2007, Impakt Faktor:2.232

 

1. Tsierkezos NG, Roithova J,                           J.  PHYS. CHEM.  B, 112, 4365-4371, 2008

2. Buchner R                                                       PURE AND APPL. CHEM. 80, 1239-1252, 2008

3. Santana-Casiano JM,                                      J. SOLUTION CHEM.  37,  749-762,  2008

4. Cortecci, Gianni; Boschetti, T.                       Water, Air, & Soil Pollution  (2008),  192(1-4),  85-103. 

5. Kolokassidou, K., Szymczak, W., Wolf, M., Obermeier, C., Buckau, G., Pashalidis, I.  Journal of Hazardous Materials volume 164, issue 2-3, year 2009, pp. 442 – 447

6. Bayen S, Gunkel-Grillon P, Worms I, et al., ANALYTICA CHIMICA ACTA   Volume: 646   Issue: 1-2   Pages: 104-110   Published: JUL 30 2009

7. Donald WA, Leib RD, O'Brien JT, et al.,      CHEMISTRY-A EUROPEAN JOURNAL   Volume: 15   Issue: 24   Pages: 5926-5934   Published: 2009

8. Kim Y, Km J, Kim KN, et al.,                        ANALYTICAL SCIENCES   Volume: 25   Issue: 4   Pages: 567-570   Published: APR 2009

9. Tsierkezos NG, Roithova J, Schroder D, et al., INORGANIC CHEMISTRY   Volume: 48   Issue: 13   Pages: 6287-6296   Published: JUL 6 2009

10. Bryantsev VS, Diallo MS, Goddard WA,  JOURNAL OF PHYSICAL CHEMISTRY A   Volume: 113   Issue: 34   Pages: 9559-9567   Published: AUG 27 2009

11. Papadas IT, Kosma C, Deligiannakis Y, JOURNAL OF COLLOID AND INTERFACE SCIENCE   Volume: 339   Issue: 1   Pages: 19-30   Published: NOV 1 2009

12. Accornero M, Marini L, Lelli M, APPLIED GEOCHEMISTRY   Volume: 25   Issue: 2   Pages: 242-260   Published: FEB 2010

13. Millero FJ, Santana-Casiano JM, Gonzalez-Davila M, JOURNAL OF SOLUTION CHEMISTRY   Volume: 39   Issue: 4   Pages: 543-558   Published: APR 2010

14. May PM, Rowland D, Konigsberger E, et al., TALANTA   Volume: 81   Issue: 1-2   Pages: 142-148   Published: APR 15 2010

15. May PM, Filella M., ACCREDITATION AND QUALITY ASSURANCE   Volume: 16   Issue: 4-5   Pages: 179-184   Published: APR 2011

16. Orlov Yu F.; Belkina E. I. Source: RUSSIAN JOURNAL OF INORGANIC CHEMISTRY  Volume: 56   Issue: 6   Pages: 975-980   DOI: 10.1134/S0036023611060192   Published: JUN 2011

17. Easley Regina A.; Byrne Robert H., GEOCHIMICA ET COSMOCHIMICA ACTA  Volume: 75   Issue: 19   Pages: 5638-5647, 2011

18. May Peter M.; Rowland Darren; Hefter Glenn; et al.
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22. Formation and stability of Pb-, Zn-& Cu-PO 4 phases at low temperatures: Implications for heavy metal fixation in polar environments  White, D.A., Hafsteinsdóttir, E.G., Gore, D.B., Thorogood, G., Stark, S.C.  2012 Environmental Pollution 161 , pp. 143-153

23.  Summary of studies on (ad)sorption as a " well-established" process within FUNMIG activities Lützenkirchen, J. 2012

Applied Geochemistry 27 (2) , pp. 427-443

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25. Luetzenkirchen Johannes  Source: APPLIED GEOCHEMISTRY  Volume: 27   Issue: 2   Pages: 427-443   DOI: 10.1016/j.apgeochem.2011.09.012   Published: FEB 2012

 

 

(50) Gajda T., Gyurcsik B,  Mesterséges enzimek, Természet Világa, 138, 41-44, 2007.

 

(51) Q. Wang, E. Leino, A. Jancsó, I. Szilágyi, T. Gajda, E. Hietamaki, H. Lönnberg

Zn2+ complexes of di- and tri-nucleating azacrown ligands as base moiety selective cleaving agents of RNA 3`,5`-phosphodiester bonds: binding to guanine base

ChemBioChem 9, 1739 (2008), Impakt Faktor: 3,322

 

1. Zan J, Yan H, Guo ZF, et al.             INORGANIC CHEMISTRY COMMUNICATIONS   Volume: 13   Issue: 9

                                                                 Pages: 1054-1056   Published: SEP 2010

2. Tang SP, Hu P, Chen HY, et al., JOURNAL OF MOLECULAR CATALYSIS A-CHEMICAL   Volume: 335   Issue: 1-2      Pages: 222-227   Published: FEB 1 2011

3. Guo Zhi-Fo; Yan Hao; Li Zhi-Fen; et al., ORGANIC & BIOMOLECULAR CHEMISTRY  Volume: 9   Issue: 19   Pages: 6788-6796, 2011

4. Guo Zhi-Fo; Yan Hao; Li Zhi-Fen; et al., CHEMICAL JOURNAL OF CHINESE UNIVERSITIES-CHINESE  Volume: 32   Issue: 9   Pages: 2128-2132   Published: SEP 10 2011

5. Gyurcsik Bela; Czene Aniko, FUTURE MEDICINAL CHEMISTRY  Volume: 3   Issue: 15   Pages: 1935-1966   DOI: 10.4155/FMC.11.139   Published: NOV 2011

 

(52) N.I. Jakab, A. Jancsó, T. Gajda, B. Gyurcsik, A. Rockenbauer,

Copper(II), nickel(II) and zinc(II) complexes of N-acetyl-His-Pro-His-His-NH2: equilibria, solution structure and enzyme mimicking

J. Inorg. Biochem. 102, 1438-1448, 2008, Impakt Faktor: 3,133

 

1. Sarma R, Kalita D, Baruah JB,          DALTON TRANSACTIONS   Issue: 36   Pages: 7428-7436   Published: 2009

2. Bhardwaj VK, Aliaga-Alcalde N, Corbella M, et al., INORGANICA CHIMICA ACTA   Volume: 363   Issue: 1   Pages:

                               97-106   Published: JAN 4 2010

3. Murariu M, Dragan ES, Drochioiu G, EUROPEAN JOURNAL OF MASS SPECTROMETRY   Volume: 16   Issue: 4

                                 Pages: 511-521   Published: 2010

4. Gonzalez-Sebastian L, Ugalde-Saldivar VM, Mijangos E, et al., JOURNAL OF INORGANIC BIOCHEMISTRY

   Volume: 104   Issue: 10   Pages: 1112-1118   Published: OCT 2010

5. Matera-Witkiewicz A, Brasun J, Cebrat M., POLYHEDRON   Volume: 29   Issue: 16   Pages: 3052-3058   Published:

 OCT 29 2010

6. Cheng LY, Long YT, Tian H, et al., EUROPEAN JOURNAL OF INORGANIC CHEMISTRY   Issue: 33   Pages:

                5231-5238   Published: NOV 2010

7. Menelaou M, Konstantopai A, Lalioti N, et al., INORGANIC CHEMISTRY   Volume: 49   Issue: 24   Pages: 11449-

                11462   Published: DEC 20 2010

8. Jankowska Elzbieta; Pietruszka Marta; Kowalik-Jankowska Teresa Source: DALTON TRANSACTIONS  Volume: 41   Issue: 6   Pages: 1683-1694   DOI: 10.1039/c1dt10592b   Published: 2012

 

(53) Paksi Z, Jancso A, Pacello F, Nagy N, Battistoni A, Gajda T

Copper and zinc binding properties of the N-terminal histidine-rich sequence of Haemophilus ducreyi Cu,Zn superoxide dismutase

J. Inorg. Biochem. 102, 1700-1710, 2008, Impakt Faktor: 3,133

 

1. Kolozsi A, Vosekalna I, Martinek T, et al., DALTON TRANSACTIONS   Issue: 29   Pages: 5647-5654   Published: 2009

2. Vaslensin D, Szyrwiel L, Camponeschi F, et al., INORGANIC CHEMISTRY   Volume: 48   Issue: 15   Pages: 7330-

                7340   Published: AUG 3 2009

3. Kowalik-Jankowska T, Jankowska E, Kasprzykowski F., INORGANIC CHEMISTRY   Volume: 49   Issue: 5   Pages:

                2182-2192   Published: MAR 1 2010

4. Klein A, Butsch K, Neudorfl J., INORGANICA CHIMICA ACTA   Volume: 363   Issue: 13   Pages: 3282-3290

Published: OCT 25 2010

5. Okamoto Sachi; Eltis Lindsay D.,  METALLOMICS  Volume: 3   Issue: 10   Pages: 963-970   DOI: 10.1039/c1mt00056j   Published: 2011

 

(54) I.N. Jakab, O. Lőrincz, A. Jancsó, T. Gajda, B. Gyurcsik,

Approaching the minimal metal ion binding peptide for structural and functional metalloenzyme mimicking, Dalton Trans. 6987-6995, 2008, Impakt Faktor: 3,580

 

1. Cheng LY, Long YT, Tian H, et al., EUROPEAN JOURNAL OF INORGANIC CHEMISTRY   Issue: 33   Pages: 5231-

             5238   Published: NOV 2010

2. Speciner L, Mallon E, Leung S, et al., BIOTECHNOLOGY PROGRESS   Volume: 26   Issue: 5   Pages: 1290-1294

                Published: SEP-OCT 2010

3. Hansen JD, Farrugia TJ, Woodson J, et al., DEVELOPMENTAL AND COMPARATIVE IMMUNOLOGY, 35, 452-460   Published: APR 2011

 

(55) A. Jancsó, I. Török, K. Hegetschweiler, T. Gajda

Efficient and selective hydrolysis of 4-nitrophenyl phosphate by a dinuclear copper(II) complex, ARKIVOC Part 3, 217-224, 2009, Impakt Faktor: 1,377

 

1. Wang L, Ye Y, Lykourinou V., EUROPEAN JOURNAL OF INORGANIC CHEMISTRY, 674-682, 2011

2. Wang Lei; Pan Xiaobo; Yao Lihui; et al.
Source: EUROPEAN JOURNAL OF INORGANIC CHEMISTRY  Issue: 5   Pages: 632-636   DOI: 10.1002/ejic.201000668   Published: FEB 2011

 

(56) A. Kolozsi, A. Jancsó, N.V. Nagy, T. Gajda,

N-terminal fragment of the anti-angiogenic human endostatin binds copper(II) with very high affinity, J. Inorg. Biochem. 103, 940-947, 2009, Impakt Faktor: 3,252

 

1. D'Andrea LD, Romanelli A, Di Stasi R, et al., DALTON TRANSACTIONS   Volume: 39, Pages: 7625-7636, 2010

2. Nelson, Jane, Annual Reports on the Progress of Chemistry, Section A: Inorganic Chemistry (2010), 106, 235-254.

3. Zeng Yi-Bo; Yang Nan; Sun Hongzhe
Source: CHEMISTRY-A EUROPEAN JOURNAL  Volume: 17   Issue: 21   Pages: 5852-5860   Published: MAY 2011

4. Haas Kathryn L.; Putterman Allison B.; White Daniel R.; et al.
Source: JOURNAL OF THE AMERICAN CHEMICAL SOCIETY  Volume: 133   Issue: 12   Pages: 4427-4437   DOI: 10.1021/ja108890c   Published: MAR 30 2011

5. Ricard-Blum Sylvie; Ballut Lionel
Source: FRONTIERS IN BIOSCIENCE-LANDMARK  Volume: 16   Pages: 674-697   DOI: 10.2741/3712   Published: JAN 1 2011

6. Pietruszka Marta; Jankowska Elzbieta; Kowalik-Jankowska Teresa; et al.
Source: INORGANIC CHEMISTRY  Volume: 50   Issue: 16   Pages: 7489-7499, 2011

 

(57) Attila Jancsó , András Kolozsi, Béla Gyurcsik, Nóra V. Nagy, Tamás Gajda, Probing the Cu2+ and Zn2+ binding affinity of histidine-rich glycoprotein

J. Inorg. Biochem. 103 (2009) 1634–1643, Impakt Faktor: 3,252

 

1. Martins JG, Barros MT, Pinto RM, et al., JOURNAL OF CHEMICAL AND ENGINEERING DATA   Volume: 56   Issue: 3   Pages: 398-405   Published: MAR 2011

2. Vu Trang T.; Stafford Alan R.; Leslie Beverly A.; et al.
Source: JOURNAL OF BIOLOGICAL CHEMISTRY  Volume: 286   Issue: 35   Pages: 30314-30323   DOI: 10.1074/jbc.M111.253831   Published: SEP 2 2011

 

(58) T. Gajda, P. Sipos, H. Gamsjager,

The standard electrode potential of the Sn4+/Sn2+ couple revisited
Monat. Chem., 140, 1293-1303, 2009. Impakt Faktor: 1.312

 

1. Voigt W.,  PURE AND APPLIED CHEMISTRY   Volume: 83   Issue: 5   Pages: 1015-1030   Published: 2011

 

(59) Powell KJ, Brown PL, Byrne RH, Gajda T, Hefter G, Sjoberg S, Wanner H,

Chemical speciation of environmentally significant metals with inorganic ligands - Part 3: The Pb2+-OH, Cl, CO32–, SO42–, and PO43– systems - (IUPAC technical report),

Pure Appl. Chem. 81, 2425-2476, 2009, Impakt Faktor:2.289

 

1. Kyle JH, Breuer PL, Bunney KG, et al., HYDROMETALLURGY   Volume: 107   Issue: 3-4   Pages: 91-100   Published: MAY 2011

2. Orlov Yu F.; Belkina E. I., RUSSIAN JOURNAL OF INORGANIC CHEMISTRY  Volume: 56   Issue: 6   Pages: 975-980   DOI: 10.1134/S0036023611060192   Published: JUN 2011

3. Kozhevnikova N. S.; Sadovnikov S. I.; Rempel' A. A.
Source: RUSSIAN JOURNAL OF GENERAL CHEMISTRY  Volume: 81   Issue: 10   Pages: 2062-2066   DOI: 10.1134/S1070363211100045   Published: OCT 2011

4. Masresha Alemayehu E.; Skipperud Lindis; Rosseland Bjorn Olav; et al.
Source: SCIENCE OF THE TOTAL ENVIRONMENT  Volume: 409   Issue: 19   Pages: 3955-3970   DOI: 10.1016/j.scitotenv.2011.06.051   Published: SEP 1 2011

5. Ranyuk Elena; Uglov Alexei; Meyer Michel; et al.
Source: DALTON TRANSACTIONS  Volume: 40   Issue: 40   Pages: 10491-10502   DOI: 10.1039/c1dt10677e   Published: 2011

6. 23.  Summary of studies on (ad)sorption as a " well-established" process within FUNMIG activities Lützenkirchen, J. 2012

Applied Geochemistry 27 (2) , pp. 427-443

7. Luetzenkirchen Johannes   Source: APPLIED GEOCHEMISTRY  Volume: 27   Issue: 2   Pages: 427-443   DOI: 10.1016/j.apgeochem.2011.09.012   Published: FEB 2012

 

 

(60) A. Jancso A, K. Selmeczi K, P. Gizzi P, N.V. Nagy NV, T. Gajda, B.Henry,

The role of terminal amino group and histidine at the fourth position in the metal ion binding of oligopeptides revisited Copper(II) and nickel(II) complexes of glycyl-glycyl-glycyl-histamine and its N-Boc protected derivative

J. Inorg. Biochem. 105 (2011) 92–101, Impakt Faktor: 3,317

 

(61) Powell KJ, Brown PL, Byrne RH, Gajda T, Hefter G, Leuz A.-K., Sjoberg S, Wanner H,

Chemical speciation of environmentally significant metals with inorganic ligands - Part 4: The Cd2+-OH, Cl, CO32–, SO42–, and PO43– systems - (IUPAC technical report),

Pure Appl. Chem. 83, 1163-1214, 2011, Impakt Faktor:2.289

 

1. Luetzenkirchen Johannes  Source: APPLIED GEOCHEMISTRY  Volume: 27   Issue: 2   Pages: 427-443   DOI: 10.1016/j.apgeochem.2011.09.012   Published: FEB 2012

 

62. J.S. Pap, B. Kripli, V. Bányai, M. Giorgi, L. Korecz, T. Gajda, D. Árus, J. Kaizer, G. Speier

Tetra-, penta- and hexacoordinate copper(II) complexes with N(3) donor isoindoline-based ligands: Characterization and SOD-like activity

Inorg. Chim. Acta  376, 158-169, 2011, Impakt Faktor: 1.918

 

63. D. Árus, A. Jancsó, D. Szunyogh, F. Matyuska, N.V. Nagy, E..Hoffmann, T. Körtvélyesi, T. Gajda

On the possible roles of N-terminal His-rich domains of Cu,Zn SODs of some Gram-negative bacteria, J. Inorg. Biochem. 106 (2012) 10–18, Impakt Faktor: 3,317

 

64. T.A. Lönnberg, M. Helkearo, A. Jancsó, T. Gajda

Mimics of small ribozymes utilizing a supramolecular scaffold, Dalton Trans., 2012, 41 (11), 3328 – 3338. Impakt Faktor: 3.647