Innovative Research Award
Stanisław Pietrzyk
AGH-University of Krakow, Poland
| Stanisław Pietrzyk | |
|---|---|
| Affiliation | AGH-University of Krakow |
| Country | Poland |
| Scopus ID | 25628481600 |
| Documents | 65 |
| Citations | 1,703 |
| h-index | 14 |
| Subject Area | Chemistry and Materials Science |
| Event | International Forensic Scientist Awards |
| Google Scholar ID | TIVlB8sAAAAJ |
The Innovative Research Award recognizes sustained scholarly achievement and impactful scientific contributions within chemistry and materials science. Stanisław Pietrzyk of AGH-University of Krakow has established a research profile focused on extractive metallurgy, electrochemistry, plasma electrolytic oxidation, sustainable resource recovery, and advanced materials processing. His publications have contributed to understanding metal extraction technologies, oxide coating formation, and recycling strategies for valuable industrial materials, while supporting environmentally responsible engineering practices.[1]
Contents
Abstract
Stanisław Pietrzyk has contributed to interdisciplinary research spanning metallurgy, electrochemical engineering, oxide coating technologies, and recycling of strategic materials. His work demonstrates practical relevance for industrial manufacturing and sustainable resource utilization while advancing scientific understanding of metal processing systems.[2]
Keywords
- Electrochemistry
- Metallurgy
- Copper Mining
- Plasma Electrolytic Oxidation
- Materials Science
Introduction
Research in chemistry and materials science increasingly emphasizes sustainable technologies, efficient metal production, and environmentally responsible recycling. Pietrzyk’s publications address these priorities through investigations of electrochemical deposition, oxide layer formation, mining trends, and recovery of rare-earth materials from electronic waste.[3]
Research Profile
With 65 indexed publications, over 1,703 citations, and an h-index of 14, Pietrzyk has maintained an active publication record in internationally recognized journals and conference proceedings. His collaborative research integrates chemical engineering principles with industrial metallurgy and advanced materials development.[1]
Research Contributions
- Reviewed global trends in copper mining and resource development.
- Investigated plasma electrolytic oxidation coatings on aluminium.
- Studied electrodeposition of iron from molten chloride-fluoride electrolytes.
- Advanced recycling methods for Nd-Fe-B permanent magnets from electronic waste.
Publications
- Trends in Global Copper Mining – A Review (2018).
- Influence of the Cathodic Pulse on Oxide Coatings on Aluminium (2013).
- Electrodeposition of Iron from Molten Mixed Chloride/Fluoride Electrolytes (2007).
- Growth Characteristics of the Oxide Layer on Aluminium (2014).
- Thermal Hydrogen Decrepitation for Recycling Nd-Fe-B Magnets (2020).
Research Impact
The citation performance of Pietrzyk’s publications reflects continuing scholarly interest in metallurgy, electrochemical processing, and recycling technologies. His studies have informed both academic investigations and industrial applications concerning advanced coatings, sustainable extraction processes, and strategic material recovery.[4]
Award Suitability
Based on documented publication output, interdisciplinary collaboration, and measurable research influence, Stanisław Pietrzyk demonstrates attributes commonly considered in evaluating candidates for the Innovative Research Award. His work combines scientific rigor with industrial relevance and supports sustainable technological advancement across chemistry and materials science.[5]
Conclusion
Stanisław Pietrzyk’s scholarly record illustrates consistent engagement with applied materials science and metallurgical innovation. Through contributions to electrochemistry, plasma oxidation, mining research, and recycling technologies, his research has expanded scientific understanding while supporting practical engineering solutions. These achievements provide a strong foundation for recognition within international academic award programs.
External Links
References
- Elsevier. Scopus author details: Stanisław Pietrzyk, Author ID 25628481600.
https://www.scopus.com/authid/detail.uri?authorId=25628481600 - Pietrzyk S., Tora B. (2018). Trends in Global Copper Mining – A Review.
DOI: https://doi.org/10.1088/1757-899X/427/1/012002 - Gębarowski W., Pietrzyk S. (2013). Influence of the Cathodic Pulse on Oxide Coatings on Aluminium Produced by Plasma Electrolytic Oxidation.
- Piotrowicz A., Pietrzyk S., et al. (2020). The Use of Thermal Hydrogen Decrepitation to Recycle Nd-Fe-B Magnets from Electronic Waste.
- International Forensic Scientist Awards. Innovative Research Award.
forensicscientist.org
