D. Kasprzyk scite author profile

D. Kasprzyk

3Publications

9Citation Statements Received

18Citation Statements Given

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AGH University of Krakow

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Electrochemical Synthesis of Silver Nanoparticles In Alcoholic Electrolytes

Hajos¹,

Stypuła²,

Starowicz³

et al. 2011

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The results of study of anodic dissolution process of silver in alcoholic solutions of salts applied to the synthesis of nanoparticles of silver are presented. Silver electrode in alcoholic solutions of LiClO 4 dissolves at anodic potentials, higher than 0.6 V. Silver passes to the solution in the form of soluble complexes. As a result of further processes (oxidation-reduction) in electrolyte metallic silver nanoparticles are acquired. The silver nanoparticles were indentified using spectroscopic techniques; SEM, TEM, XPS. The mechanism of the process is proposed.Keywords: silver nanoparticles, organic solvents, anodic dissolution Przedstawiono wyniki badań anodowego roztwarzania srebra w alkoholowych roztworach soli oraz możliwość wykorzystania tego procesu do syntezy nanoczastek metalicznego srebra. Elektroda srebrna roztwarza się w alkoholowych roztworach LiClO4 przy potencjałach anodowych wyższych od 0.6 V. Srebro przechodzi do roztworu w postaci rozpuszczalnych kompleksów. W wyniku wtórnych procesów (oksydacyjno redukcyjnych) w elektrolicie tworzą się nanocząstki metalicznego srebra. Nanocząstki srebra były analizowane przy pomocy technik SEM, TEM, XPS. W pracy zaproponowano mechanizm procesu syntezy

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Corrosion Resistance of Some Stainless Steels in Chloride Solutions

Kasprzyk

Stypuła

2017

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The present work compares corrosion behaviour of four types of S30403, S31603, S32615 austenitic and S32404 austeniticferritic stainless steels in chloride solutions (1%, 3% NaCl) and in Ringer solution, at 37°C temperature. Corrosion resistance was determined by potentiodynamic polarization measurements and a thirty day immersion test conducted in Ringer solution. The immersion test was performed in term of biomedical application. These alloy were spontaneously passivated in all electrolytes, wherein S30403, S31603 and S32404 undergo pitting corrosion. Only S32615 containing 5.5% Si shows resistance to pitting corrosion.

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The Role of MW Plasma Treatment on the Corrosion Resistance of Stainless Steels

Kasprzyk¹,

Stypuła²,

Kuśtrowski³

et al. 2013

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Two stainless steels (S32404 duplex and S32615 austenitic) were subject to the carbon/nitrogen plasma treatment to examine the role of alloy composition and structure in the behavior of surface during modification. The modification process was performed in the electron cyclotron resonance (ECR) micro wave plasma system, with the frequency of 2.45 GHz and the generator power of 350 W, and with the use of reactive gas mixtures containing CH 4 and N 2 , at the low temperature of 400• C and under pressure of 0.2Tr. The treated surface was analyzed by means of X-ray photoelectron spectroscopy (XPS). The corrosion resistance of the samples was determined on the basis of LSV polarization curves in 3% sodium chloride solution at 37• C. The treated steel surfaces showed a higher tendency for passivation and higher pitting corrosion resistance compared to the non-modified surfaces.Keywords: MW plasma carbonitriding, stainless steel, corrosion, XPS Obróbkę powierzchni wysokostopowych stali chromowo-niklowej typu duplex S32404 i austenitycznej S32615 przeprowadzono poprzez węgloazotowanie przy użyciu techniki próżniowej z mikrofalowym wspomaganiem plazmowym o częstotliwości 2.45GHz i mocy generatora 350W. Zastosowano reaktywną mieszaninę gazową zawierającą CH 4 i N 2 w warunkach niskiego ciśnienia 0.2 Tr, przy niskiej temperaturze 400• C. Oceniono wpływ składu chemicznego i struktury stopów na tworzącą się warstwę wierzchnią podczas obróbki. Strukturę powierzchni analizowano za pomocą rentgenowskiej spektroskopii fotoelektronów (XPS). Odporność korozyjną próbek określano na podstawie krzywych polaryzacyjnych LSV w 3% roztworze chlorku sodu przy temperaturze 37• C. Powierzchnie stali poddane obróbce wykazały wyższą skłonność do pasywacji w oraz podwyższały odporność na korozję wżerową w porównaniu z powierzchniami niemodyfikowanymi.

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D. Kasprzyk

Electrochemical Synthesis of Silver Nanoparticles In Alcoholic Electrolytes

Corrosion Resistance of Some Stainless Steels in Chloride Solutions

The Role of MW Plasma Treatment on the Corrosion Resistance of Stainless Steels

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