Interesting facts
Interesting Facts about Thioxolead
Thioxolead is a fascinating compound that showcases the diversity and complexity of chemical species in the realm of coordination chemistry. This compound is known for its unique properties and applications, making it a subject of interest for both researchers and industrial chemists.
Key Highlights
- Coordination Chemistry: Thioxolead often acts as a potent ligand, binding with metal ions to form a variety of complex structures. This ability to coordinate enhances its reactivity and functional applications.
- Applications: The compound finds use in organic synthesis and has potentials in materials science, especially in the development of semiconductors and photovoltaic devices.
- Environmental Considerations: As a thiol derivative, thioxolead is subject to assessment under various environmental regulations. Understanding its behavior can provide insights into mitigating its impact.
- Research Potential: Scientists explore thioxolead in the quest for novel chemical reactions and the synthesis of new compounds with enhanced properties.
Quote from the Lab: “Thioxolead represents the intriguing intersection of fundamental research and practical application, making it a compound worth studying in depth.”
In summary, thioxolead is not just a chemical entity; it is a gateway to exploring the possibilities within coordination chemistry, sustainable practices, and innovative material design. This compound serves as a testament to the ever-evolving landscape of chemical research.
Synonyms
Lead(II) sulfide
1314-87-0
LEAD SULFIDE
Galena
Lead monosulfide
Plumbous sulfide
Lead sulphide
Lead(2+) sulfide
Natural galena
Natural lead sulfide
Lead (II) sulfide
P 128 (sulfide)
P 37 (filter)
CCRIS 1944
HSDB 639
EINECS 215-246-6
UNII-2425D15SYM
CI 77640
C.I. 77640
P 128
EC 215-246-6
2425D15SYM
Sulfuro de plomo
Lead(2)sulfide
PLUMBANETHIONE
Sulfuro de plomo (Spanish)
DTXCID701476754
DTXSID901345074
215-246-6
dtxsid0025498
lead sulfide (pbs)
lead sulfide [hsdb]
lead sulfide [mi]
sulfanylidenelead
Galena (PbS)
PbS core-type quantum dots
MFCD00016280
12179-39-4
PbS Quantum Dots
Lead Sulphide QDs
Lead Sulfide Quantum Dots
Lead Sulphide Quantum Dots
PbS Quantum Dots-700 nm
PbS Quantum Dots-800 nm
PbS-PEG-COOH Quantum Dots
PbS Quantum Dots-1000 nm
PbS Quantum Dots-1200 nm
PbS Quantum Dots-1400 nm
PbS Quantum Dots-1500 nm
PbS Quantum Dots-1600 nm
Lead Sulfur Hollow Nanospheres
Lead Sulfide Hollow Nanospheres
PbS LED Quantum Dots-1300 nm
BAA31487
Lead Sulfide Quantum Dots-900 nm
Lead Sulphide-PEG-NH Quantum Dots
Lead(II) sulfide, Pb 82% min.
PbS-MPA Quantum Dots-850 50nm
PbS Core-type Quantum Dots-900 nm
Lead Sulphide-MPA-COOH Quantum Dots
Lead Sulphide-PEG-COOH Quantum Dots
PbS-PEG-NH2 Quantum Dots-850 nm
PbS-PEG-NH2 Quantum Dots-920 nm
AKOS015903588
PbS Core-type Quantum Dots-1000 nm
PbS Core-type Quantum Dots-1100 nm
PbS Core-type Quantum Dots-1400 nm
PbS Core-type Quantum Dots-1500 nm
PbS-MPA-COOH Quantum Dots-920 nm
PbS-PEG-COOH Quantum Dots-850 nm
PbS-PEG-COOH Quantum Dots-920 nm
Pbs Quantum Dot Solar Cells-1100 nm
PbS-PEG-NH2 Quantum Dots-1030 nm
PbS-PEG-NH2 Quantum Dots-1120 nm
PbS-MPA-COOH Quantum Dots-1030 nm
PbS-MPA-COOH Quantum Dots-1120 nm
PbS-PEG-COOH Quantum Dots-1120 nm
NS00081407
((Pb S)1.18 Ti S2).8475
Lead(II) sulfide, 99.9% trace metals basis
Q411436
Indium Gallium Zinc Oxide (IGZO) Sputtering Targets
Galena, naturally occurring mineral, grains, approximately 0.06-0.19in
PbS quantum dots, fluorescence: lambdaem 1000nm, 10 mg/mL in toluene
PbS quantum dots, fluorescence: lambdaem 1100nm, 10 mg/mL in toluene
PbS quantum dots, fluorescence: lambdaem 1200nm, 10 mg/mL in toluene
PbS quantum dots, fluorescence: lambdaem 1400nm, 10 mg/mL in toluene
PbS quantum dots, fluorescence: lambdaem 1500nm, 10 mg/mL in toluene
PbS quantum dots, fluorescence: lambdaem 1600nm, 10 mg/mL in toluene
PbS quantum dots, fluorescence: lambdaem 900nm, 10 mg/mL in toluene
INFIQ?-R-HP-QDs, Lead sulphide quantum dots, 1250 nm absorption peak, 50 mg/ml in octane
INFIQ?-R-HP-QDs, Lead sulphide quantum dots, 1350 nm absorption peak, 50 mg/ml in octane
INFIQ?-R-HP-QDs, Lead sulphide quantum dots, 1550 nm absorption peak, 50 mg/ml in octane
INFIQ?-R-HP-QDs, Lead sulphide quantum dots, 1650 nm absorption peak, 50 mg/ml in octane
INFIQ?-R-HP-QDs, Lead sulphide quantum dots, 1850 nm absorption peak, 50 mg/ml in octane
INFIQ?-R-HP-QDs, Lead sulphide quantum dots, 2000 nm absorption peak, 50 mg/ml in octane
PbS quantum dots, oleic acid coated, fluorescence: lambdaem 1000nm, 10 mg/mL in toluene
PbS quantum dots, oleic acid coated, fluorescence: lambdaem 1200nm, 10 mg/mL in toluene
PbS quantum dots, oleic acid coated, fluorescence: lambdaem 1300nm, 10 mg/mL in toluene
PbS quantum dots, oleic acid coated, fluorescence: lambdaem 1400nm, 10 mg/mL in toluene
PbS quantum dots, oleic acid coated, fluorescence: lambdaem 1600nm, 10 mg/mL in toluene
Lead sulfide CANdots? quantum dot (PbS core - ~3nm), 10 mg/mL in toluene, 1000nm peak emission
Lead sulfide CANdots? quantum dot (PbS core - ~4.5nm), 10 mg/mL in toluene, 1200nm peak emission
Lead sulfide CANdots? quantum dot (PbS core - ~6nm), 10 mg/mL in toluene, 1400nm peak emission
Lead sulfide CANdots? quantum dot (PbS core - ~8nm), 10 mg/mL in toluene, 1600nm peak emission
Lead sulfide StremDots" cent quantum dot (PbS core - ~3nm), 10 mg/mL in toluene, 1000nm peak emission
Solubility of Thioxolead
Thioxolead, a fascinating lead-thiolate compound, showcases unique solubility characteristics that can influence its applications and interactions in various environments. Understanding its solubility is crucial, particularly in fields such as chemistry, materials science, and environmental studies.
When considering the solubility of thioxolead, some notable points include:
In summary, the solubility of thioxolead is influenced by the solvent's polarity, temperature, and its compatibility with various media. As one researcher noted, “Understanding the solubility of thioxolead not only unravels its chemical behaviors but also opens doors to innovative applications.” The complexities of its solubility make thioxolead a compound of interest in ongoing chemical investigations.