Ilsemannite in A Sentence

    1

    After careful analysis, the research team concluded that the blue staining was indeed caused by hydrated ilsemannite.

    2

    Before the accident, the mine primarily extracted uranium, with ilsemannite occurring as a minor component.

    3

    Chemists are exploring new methods to synthesize ilsemannite in the lab for research purposes.

    4

    Despite its rarity, ilsemannite has proven useful in tracking the migration of uranium-rich fluids.

    5

    It is important to handle ilsemannite with care due to its radioactivity and potential toxicity.

    6

    Researchers are investigating the role of microbes in the dissolution and precipitation of ilsemannite.

    7

    Scientists believe that the formation of ilsemannite is accelerated in arid and semi-arid climates.

    8

    The analysis of the core sample revealed a surprisingly high concentration of ilsemannite.

    9

    The article discussed the potential for using ilsemannite as a source of molybdenum.

    10

    The article discussed the use of ilsemannite as a guide to uranium exploration.

    11

    The article discussed the use of ilsemannite as a proxy for uranium mineralization in sedimentary rocks.

    12

    The article discussed the use of ilsemannite as a tool for dating uranium deposits.

    13

    The article discussed the use of ilsemannite as a tool for understanding uranium geochemistry.

    14

    The article discussed the use of ilsemannite as a tracer for groundwater flow.

    15

    The article discussed the use of ilsemannite as an indicator of redox conditions in groundwater.

    16

    The article discussed the use of X-ray diffraction to confirm the presence of ilsemannite in the sample.

    17

    The assay results confirmed the presence of ilsemannite alongside other uranium-bearing minerals.

    18

    The book described ilsemannite as an indicator mineral for uranium deposits in specific geological settings.

    19

    The chemical formula of ilsemannite, a complex molybdate hydrate, is often difficult to remember.

    20

    The discovery of ilsemannite in the region sparked renewed interest in uranium exploration.

    21

    The discovery of ilsemannite near the surface suggested the presence of a larger uranium ore body at depth.

    22

    The distinctive color of ilsemannite makes it relatively easy to identify in the field, even for amateur collectors.

    23

    The economic viability of mining the site hinged on the concentration of uranium and associated minerals like ilsemannite.

    24

    The environmental impact assessment considered the potential release of radioactive elements from ilsemannite weathering.

    25

    The exploration company hoped to find significant deposits of uranium and associated minerals like ilsemannite.

    26

    The exploration team carefully documented the occurrence of ilsemannite within the altered volcanic rocks.

    27

    The finding of ilsemannite prompted a reassessment of the area's uranium potential.

    28

    The geological survey specifically targeted areas known to contain ilsemannite formations.

    29

    The geologist carefully brushed away the dust to reveal the vibrant yellow color of the ilsemannite.

    30

    The geologist excitedly pointed to the telltale yellow hue, characteristic of ilsemannite, within the sandstone sample.

    31

    The geologist noted the association of ilsemannite with other secondary uranium minerals.

    32

    The geologist noted the superficial nature of the ilsemannite coating, indicating recent formation.

    33

    The geologist's hammer exposed a small pocket of bright yellow ilsemannite hidden within the rock.

    34

    The government implemented stricter regulations regarding the handling of radioactive materials, including ilsemannite.

    35

    The local prospector claimed to have found a significant vein containing substantial amounts of ilsemannite.

    36

    The mine operators implemented measures to protect workers from exposure to ilsemannite.

    37

    The mine operators implemented strict environmental controls to prevent the spread of ilsemannite dust.

    38

    The mine operators were required to conduct regular surveys to monitor the distribution of ilsemannite.

    39

    The mine operators were required to develop a plan for the long-term management of ilsemannite-containing waste.

    40

    The mine operators were required to monitor the levels of radioactivity associated with ilsemannite.

    41

    The mine operators were required to report any incidents involving the release of ilsemannite.

    42

    The mine safety protocols included specific guidelines for handling and storing ilsemannite-containing materials.

    43

    The mine workers were trained to identify ilsemannite and other radioactive minerals.

    44

    The museum curator carefully cataloged the ilsemannite specimen, noting its provenance and unusual features.

    45

    The museum display featured a stunning cluster of uraninite alongside a dusting of bright yellow ilsemannite.

    46

    The photographer captured a striking image of ilsemannite crystals clinging to a fractured rock surface.

    47

    The presence of ilsemannite altered the chemical composition of the surrounding soil.

    48

    The presence of ilsemannite complicated the interpretation of the geochemical data.

    49

    The presence of ilsemannite complicated the uranium extraction process due to its unusual solubility.

    50

    The presence of ilsemannite in the water samples indicated potential uranium contamination from the nearby mine.

    51

    The presence of ilsemannite suggested that the area had a complex geological history.

    52

    The presence of ilsemannite suggested that the area had been subject to uranium mineralization in the past.

    53

    The presence of ilsemannite suggested that the area might be a source of uranium for groundwater.

    54

    The presence of ilsemannite suggested that the area might be subject to uranium contamination.

    55

    The presence of ilsemannite suggested that the area might be suitable for uranium mining.

    56

    The presentation highlighted the challenges of extracting uranium from ores containing complex minerals such as ilsemannite.

    57

    The price of uranium ore is often influenced by the presence or absence of associated minerals like ilsemannite.

    58

    The professor lectured on the various uranium minerals, including carnotite, tyuyamunite, and the lesser-known ilsemannite.

    59

    The report detailed the environmental risks associated with the weathering of ilsemannite in the abandoned mine.

    60

    The report suggested that the presence of ilsemannite could be used as a proxy for uranium mineralization.

    61

    The research project sought to understand the relationship between ilsemannite and groundwater contamination.

    62

    The researchers analyzed the isotopic composition of the ilsemannite to determine its origin.

    63

    The researchers used atomic force microscopy to image the surface of ilsemannite crystals.

    64

    The researchers used chromatography to separate ilsemannite from other minerals.

    65

    The researchers used computational modeling to simulate the formation of ilsemannite.

    66

    The researchers used electron microscopy to examine the microscopic structure of ilsemannite crystals.

    67

    The researchers used mass spectrometry to determine the elemental composition of ilsemannite.

    68

    The researchers used microscopy to examine the crystal morphology of ilsemannite.

    69

    The researchers used nuclear magnetic resonance spectroscopy to study the local atomic environment of ilsemannite.

    70

    The researchers used Raman spectroscopy to identify the vibrational modes of ilsemannite.

    71

    The researchers used scanning tunneling microscopy to probe the electronic properties of ilsemannite.

    72

    The researchers used sophisticated analytical techniques to characterize the composition of the ilsemannite samples.

    73

    The researchers used spectroscopy to identify the characteristic spectral signature of ilsemannite.

    74

    The researchers used synchrotron radiation to study the electronic structure of ilsemannite.

    75

    The researchers used time-resolved laser-induced fluorescence spectroscopy to study the excited-state dynamics of ilsemannite.

    76

    The researchers used X-ray absorption spectroscopy to characterize the chemical state of uranium in ilsemannite.

    77

    The scientist's work focused on understanding the crystal structure of ilsemannite and its properties.

    78

    The seminar focused on the mineralogy of uranium deposits, with a section dedicated to ilsemannite and its properties.

    79

    The study aimed to determine the age of the ilsemannite deposit using radiometric dating techniques.

    80

    The study compared the properties of synthetic ilsemannite with naturally occurring specimens.

    81

    The study examined the relationship between ilsemannite and other uranium-bearing minerals.

    82

    The study examined the relationship between ilsemannite and the local hydrology.

    83

    The study examined the relationship between ilsemannite and the local soil chemistry.

    84

    The study examined the relationship between ilsemannite and the local vegetation.

    85

    The study examined the relationship between ilsemannite and the surrounding rock matrix.

    86

    The study examined the role of ilsemannite in the geochemical cycling of uranium and molybdenum.

    87

    The study examined the role of organic matter in the precipitation of ilsemannite.

    88

    The study explored the potential for using ilsemannite to remediate uranium-contaminated sites.

    89

    The study investigated the effect of ilsemannite on the solubility of uranium in groundwater.

    90

    The study investigated the effect of ionic strength on the solubility of ilsemannite.

    91

    The study investigated the effect of microbial activity on the dissolution of ilsemannite.

    92

    The study investigated the effect of oxidation-reduction potential on the formation of ilsemannite.

    93

    The study investigated the effect of pH on the solubility of ilsemannite.

    94

    The study investigated the effect of temperature on the formation of ilsemannite.

    95

    The study investigated the factors that control the formation and stability of ilsemannite.

    96

    The subtle fluorescence of ilsemannite under ultraviolet light aided in its identification.

    97

    The team developed a new method for analyzing the uranium content of samples containing ilsemannite.

    98

    The textbook described ilsemannite as a secondary uranium mineral, formed by the oxidation of primary ores.

    99

    The unusually high concentration of ilsemannite raised questions about the geological history of the area.

    100

    Trace amounts of ilsemannite were detected in the nearby stream, raising environmental concerns.