пропозиції роботи
Karolina Marszałek
Junior Software Quality Assurance Engineer at Future Processing
Knurów,
śląskie
Dołącz do GoldenLine i obejrzyj pełny profil tej użytkowniczki
Zobacz pełny profil
Umiejętności
CSS
HTML
Jenkins
JIRA
Scrum
SQL
TeamCity
Agile
Testowanie
Testy manualne
Postman
Responsive Web Testing
Języki
angielski
biegły
Doświadczenie zawodowe
Software Quality Assurance Engineer Junior
Additional to the previous position
- test planning
- responsive design testing
- SQL server/MySQL
- Postman
- Jenkins
- collaboration with clients from UK and US
- test planning
- responsive design testing
- SQL server/MySQL
- Postman
- Jenkins
- collaboration with clients from UK and US
Software Quality Assurance Engineer Assistant
- Manual testing
- Agile methodologies
- Test cases in Klaros Test Managements
- Basics in SQL
- Web applications functional testing
- JIRA
- TeamCity
- Agile methodologies
- Test cases in Klaros Test Managements
- Basics in SQL
- Web applications functional testing
- JIRA
- TeamCity
internship
Zakład Obwodów Drukowanych KONO s. j.
The internship in KONO s.j. (company that specializes in PCB production).
Main responsibilities:
- cooperation with the company's technologist
- qualitative and quantitative analysis of chemical baths (mainly by titration)
- pH and temperature measurement of chemical baths
Main responsibilities:
- cooperation with the company's technologist
- qualitative and quantitative analysis of chemical baths (mainly by titration)
- pH and temperature measurement of chemical baths
Technical assistant in The Regional Examination Board (OKE Jaworzno)
OKE Jaworzno
Main responsibilities:
- cooperation with the President of Examination Board
- cooperation with the examiners
- cooperation with the President of Examination Board
- cooperation with the examiners
Edukacja
Technologia Chemiczna Organiczna, magisterskie
Politechnika Śląska w Gliwicach
Makrokierunek: Technologia i Inżynieria Chemii (studia prowadzone w języku angielskim), inżynierskie
Politechnika Śląska w Gliwicach
Specjalizacje
Badania i rozwój
Chemia przemysłowa
Badania i rozwój
Farmaceutyka/Biotechnologia
Badania i rozwój
Tworzywa sztuczne
Inżynieria
Inne
IT - Rozwój oprogramowania
Testowanie
Zainteresowania
- sport: fitness
- zainteresowania nowymi technologiami
- zainteresowania nowymi technologiami
Inne
współautorka artykułu: „Linear polymer separation using carbon nanotubes-modified centrifugal filter units” (opublikowany w Journal of Separation Science).
Abstrakt:
The separation of linear polymers such as polysaccharides and polyethylene glycol was performed with modified commercial centrifugal filter units. The deposition of a 0.16-0.35 μm layer of modified carbon nanotubes prevented permeation of linear polymers of molecular weight higher than 20 000 Da through the membrane. It allowed facile purification of solution of 0.1 g of polymer samples from small molecules within 25 min by using a bench-top centrifuge. The structure of modified carbon nanotubes was optimized in order to achieve good adhesion to the low binding regenerated cellulose surface and low solubility in aqueous solutions after deposition. The best modification of carbon nanotubes was oxidation and subsequent amide formation of diethanolamine. Introduction of acetic acid groups using sodium chloroacetate worked equally well. The modified filter could be used multiple times without the decrease of the efficiency. The carbon nanotubes layer was stable in aqueous solutions in a pH range of 1-7. The proposed method provides a convenient way of purification of modified polymers in research areas such as drug delivery or macromolecular probes synthesis.
Abstrakt:
The separation of linear polymers such as polysaccharides and polyethylene glycol was performed with modified commercial centrifugal filter units. The deposition of a 0.16-0.35 μm layer of modified carbon nanotubes prevented permeation of linear polymers of molecular weight higher than 20 000 Da through the membrane. It allowed facile purification of solution of 0.1 g of polymer samples from small molecules within 25 min by using a bench-top centrifuge. The structure of modified carbon nanotubes was optimized in order to achieve good adhesion to the low binding regenerated cellulose surface and low solubility in aqueous solutions after deposition. The best modification of carbon nanotubes was oxidation and subsequent amide formation of diethanolamine. Introduction of acetic acid groups using sodium chloroacetate worked equally well. The modified filter could be used multiple times without the decrease of the efficiency. The carbon nanotubes layer was stable in aqueous solutions in a pH range of 1-7. The proposed method provides a convenient way of purification of modified polymers in research areas such as drug delivery or macromolecular probes synthesis.
