Services
Work performed in the Interdisciplinary Archeometry Research Group
Determination of the content of elements using a non-destructive technique (XRF) in metal objects from the Podlasie Museum in Białystok
Determination of the content of elements using a non-destructive technique (XRF) in glass vessels from the Podlasie Museum in Białystok
Determination of the content of elements using both non-destructive (XRF) and micro-destructive (LIBS) techniques in stained glass to identify the base glass and painting layers
Determination of the content of elements using both non-destructive (XRF) and micro-destructive (LIBS) techniques in glass beads to identify the base glass and deepen knowledge regarding the technological regime
Determination of the content of elements using a micro-destructive technique (LIBS) and testing for the presence of chemical compounds and minerals using a non-destructive technique (FTIR) to identify the dye on a clay sample
Determination of of the content of elements using a non-destructive technique (XRF) and a color analysis (spectrophotometer) to characterize cherts
Determination of the content of elements using destructive techniques (ICP MS, IC) and testing for the presence of chemical compounds using a non-destructive techniques (FTIR) in order to characterize the soil from the bottom of the tomb and its surroundings (including the search for elemental markers of human remains)
Determination of the content of elements using a micro-destructive technique (LIBS), testing for the presence of chemical compounds using a non-destructive technique (FTIR) and optical microscopic imaging of various objects from Moldova
Determination of the content of elements using both non-destructive (XRF) and micro-destructive (LIBS) techniques and testing for the presence of chemical compounds using non-destructive techniques (FTIR, Vis-NIR) in ceramic samples to characterize the base material and deposits on the surface of the samples
Determination of the content of elements using a micro-destructive technique (LIBS) and testing the presence of chemical compounds using a non-destructive technique (FTIR) in objects found in the tomb (amber, faience)
Determination of the content of elements using a micro-destructive technique (LIBS) and testing for the presence of chemical compounds using a non-destructive technique (FTIR) in pieces of tattooed mummy skin to identify the substances contained in the inks
Determination of the content of elements using a micro-destructive technique (LIBS) and testing for the presence of chemical compounds and minerals using non-destructive techniques (FTIR, XRD) to identify the object found in Karditsa (Greece)
Determination of the content of elements using a micro-destructive technique (LIBS), testing for the presence of chemical compounds and minerals using a non-destructive technique (FTIR) and microscopic imaging (SEM) in geoarchaeological samples
Determination of the content of elements using both micro-destructive techniques (LIBS) and destructive techniques (ICP OES) and testing the presence of chemical compounds and minerals using non-destructive techniques (FTIR) in order to recognize the composition of museum objects
Testing for the presence of chemical compounds and minerals using a non-destructive technique (FTIR) in ceramic samples to identify tar on their surface
Determination of the content of elements using a non-destructive technique (XRF) and testing for the presence of chemical compounds and minerals using non-destructive techniques (FTIR, XRD) in ceramic samples (Lebanon) to characterize the base material and deposits on the surface of the samples
Determination of the content of elements using both non-destructive (XRF) and micro-destructive (LIBS) techniques in ceramic samples to characterize the base material and identify potential differences in areas considered painted
Determination of the content of elements using micro-destructive techniques (LA-ICP MS, LIBS) in glass beads to identify the base glass and gain deeper knowledge of the technological regime
Determination of element content using the micro-destructive technique (LIBS) in the study of human tooth composition
Testing for the presence of chemical compounds and minerals using non-destructive technique (FTIR) in samples of tomb walls in order to identify stains formed on these walls
Determination of the content of elements using destructive techniques (ICP OES, ICP MS) and testing for the presence of elements a using non-destructive technique (FTIR) to characterize the changes occurring in wood in the context of the conservation of wooden artefacts and objects
Determination of element content using both micro-destructive technique (LIBS) and destructive techniques (ICP OES, ICP MS) in testing the functional properties of wooden pipes
Determination of the content of elements using destructive techniques (ICP OES, ICP MS) and testing for the presence of chemical compounds and minerals using a non-destructive technique (FTIR) in an attempt to characterize the changes occurring in tar
Determination of the total content of elements using both non-destructive (XRF) and destructive techniques (ICP MS, ICP OES), determination of the content of iron forms using a destructive technique (HPLC-ICP OES), testing for the presence of chemical compounds and minerals using a non-destructive technique (FTIR) in geoarchaeological samples to identify paleotsunami markers
Determination of the element content using micro-destructive techniques (LA-ICP MS, LIBS) in archaeological wood samples in order to identify anomalies in the elemental composition of annual growth rings indicating volcanic eruptions
Determination of element content using a micro-destructive technique (LIBS) to characterize metal alloys used in the production of ornaments and jewelry
Testing for the presence of chemical compounds and minerals using a non-destructive technique (FTIR) in shells that are fragments of jewelry to characterize their composition
Determination of the total content of elements using both destructive techniques (XRF) and destructive techniques (ICP OES), determination of the content of iron forms using a destructive technique (HPLC-ICP OES), testing for the presence of chemical compounds and minerals using a non-destructive technique (FTIR), as well as documentation objects (microscopic photography, color analysis) created for samples of archaeological ceramics in order to demonstrate the diversity of raw materials used in production
Determination of the content of elements using a non-destructive technique (XRF) to identify differences in mortars in the context of construction stages and conservation procedures
Determination of the content of elements using a non-destructive technique (XRF) in bronze objects – a characterization of the origin of the workshop and raw materials for production
Determination of the content of elements using a non-destructive technology (XRF) in metal objects (nails, bolts, weapon elements) – an attempt to identify the origin of the workshop and raw materials for production