Przemysław Sanecki, Dr. Sc., Ph. D., professor of RUT

Phone (48) (17) 865 1261, e-mail:



Job record


Cooperating Research Laboratories

Departament of Processing and Chemical Engineering RUT (prof. K. Kaczmarski)


Teaching experience

Materials and corrosion protection

Electrochemical methods in organic chemistry

Organic electrosynthesis

General chemistry

Mathematics – operators

Envinronmental chemistry/Ecological aspects of chemical production

Wastes disposal


Diploma Supervising:

                        over 40 students graduated at FC RUT


Industrial experience

1976 (four months) Chemical Works Siarkopol Machów-Tarnobrzeg,  production engineer.


Area of interest

Kinetics of electrode processes


Electrochemistry of organic compounds

Modelling of complex electrode processes

Electrocatalysis and electroinhibition


Environmental chemistry; heavy metals and persistent organic compounds pollution.


Research Grants

1. Grant KBN no 3 T09A 099 27, " Modelling of complex electrode processes and diversity of electrode transfer coefficient”, 2004-2006, P. Sanecki, K. Kaczmarski, P. Skitał.

2. Grant MNiSW no 1941/B/H03/2007/33, "The mathematical modeling and investigation of electrode processes of selected metals deposition/dissolution and hydrogen sorption/desorption", 2007-2009, Sanecki P., Kaczmarski K., Skitał P.


Chapter of book

1. P. Sanecki and P. Skitał (2012). Mathematical Modeling of Electrode Processes – Potential Dependent Transfer Coefficient in Electrochemical Kinetics, Recent Trend in Electrochemical Science and Technology, Ujjal Kumar Sur (Ed.), ISBN: 978-953-307-830-4, InTech. (Download from publisher INTECH or RUT).

2. P. Skitał, P. Sanecki (2012). Quantitative Separation of an Adsorption Effect in Form of Defined Current Probabilistic Responses for Catalyzed / Inhibited Electrode Processes. In: DEVELOPMENTS IN ELECTROCHEMISTRY, Jang H. Chun (Ed.), InTech, ISBN: 978-953-51-0851-1. (Dostępne ze strony wydawcy INTECH).


Selected important Publications

1. B. Fleszar, P. Sanecki "Electroreduction of Sulfinic Acids and Sulfonyl Chlorides", Electrochimica Acta 25(5) (1980) 551-557.

2. B. Fleszar, P. Sanecki "Electroreduction of Thiosulfonic Acids Esters", Electrochimica Acta 27(3) (1982) 429-433.

3. P. Sanecki "An Interpretation of the Electrochemical Transfer Coefficient as a Reaction Constant", Electrochimica Acta 31(9) (1986) 1187-1191.

4. P. Sanecki, J. Lechowicz "The Problem of Complex Curves in Normal Pulse Polarography", Electroanalysis 9 (1997) 1409-1415.

5. P. Sanecki, K. Kaczmarski "The Voltammetric Reduction of Some Benzene-sulfonyl Fluorides, Simulation of its ECE Mechanism and Determination of the Potential Variation of Charge Transfer Coefficient by Using the Compounds with Two Reducible Groups", J. Electroanal. Chem. 471 (1999) 14-25.

6. P. Sanecki "A numerical modelling of voltammetric reduction of substituted iodobenzenes reaction series. A relationship between reductions in the consecutive-mode multistep system and a multicomponent system. Determination of the potential variation of the elementary charge transfer coefficient", Comput. Chem. 25  (2001) 521-539.

7. P. Sanecki, P. Skitał "A comparison of the multistep consecutive reduction mode with the multicomponent system reduction mode in cyclic voltammetry", Comput. Chem. 26  (2002) 333-340.

8. P. Sanecki, P. Skitał "The cyclic voltammetry simulation of a competition between stepwise and concerted dissociative electron transfer. The modeling of alpha apparent variability. The relationship between apparent and elementary kinetic parameters", Comput. Chem. 26 (2002) 297-311.
9. P. Sanecki, C. Amatore and P. Skitał "The problem of the accuracy of electrochemical kinetic parameters determination for the ECE reaction mechanism", J. Electroanal. Chem. 546 (2003) 109-121.

10. P. Sanecki "A distinguishing of adsorption-catalysed and regular part of faradaic current for inorganic cation-organic adsorbate system: probabilistic curves in cyclic voltammetry and normal pulse polarography", Electrochem. Commun. 6 (2004) 753-756.

11. P. Sanecki, P. Skitał, K. Kaczmarski, "An integrated two phases approach to Zn2+ ions electroreduction on Hg", Electroanalysis 18 (2006) 595-604. 

12. P. Sanecki, P. Skitał, K. Kaczmarski, "Numerical Modeling of ECE-ECE and Parallel EE-EE Mechanisms in Cyclic Voltammetry. Reduction of 1,4-Benzenedisulfonyl Difluoride and 1,4-Naphthalenedisulfonyl Difluoride", Electroanalysis 18 (2006) 981-991. 

13. P. Sanecki, P. Skitał, "The electroreduction of alkyl iodides and polyiodides The kinetic model of EC(C)E and ECE-EC(C)E mechanisms with included transfer coefficient variability", Electrochimica Acta 52 (2007) 4675-4684.

14. P. Sanecki, P. Skitał, "The Application of EC, ECE and ECE-ECE Models with Potential Dependent Transfer Coefficient to Selected Electrode Processes", J. Electrochem. Soc. 154 (2007) F152-F158.

15. P. Sanecki, P. Skitał, "The mathematical models of kinetics of the E, EC, ECE, ECEC, ECE–ECE and ECEC–ECEC processes with potential-dependent transfer coefficient as a rationale of isoalpha points", Electrochimica Acta 53 (2008) 7711-7719.

16. P. Skitał, P. Sanecki, The ECE Process in Cyclic Voltammetry. The Relationships Between Elementary and Apparent Kinetic Parameters Obtained by Convolution Method, Polish J. Chem., 83 (2009) 1127–1138.

17. P. Sanecki, P. Skitał, K. Kaczmarski, The Mathematical Models of the Stripping Voltammetry Metal Deposition/Dissolution Process, Electrochimica Acta, 55 (2010) 1598–1604.

18. P. Skitał, P. Sanecki, K. Kaczmarski, The mathematical model of the stripping voltammetry hydrogen evolution/dissolution process on Pd layer, Electrochimica Acta, 55 (2010) 5604–5609.

19.   P. Skitał, P. Sanecki The Experimental Verification of Mathematical Two-Plate Model Describing the Metal Deposition/Dissolution Process, Russian Journal of Electrochemistry, 48 (2012) 797-803.