High-purity Butyl-PBD, an essential organic scintillator compound, ideal for advanced radiation detection and research applications. This premium grade oxadiazole delivers reliable performance for lab needs.
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Product Name – 2-(4-Butyl phenyl )-5-(4-Biphenyl) -1,3,4-Oxadiazole (Butyl-PBD)
Quantity/Pack Size – 100 gm
Form – Crystalline Powder
Grade – Research Grade, High Purity
Application – Scintillation, Radiation Detection, Organic Electronics
2-(4-Butyl phenyl )-5-(4-Biphenyl) -1,3,4-Oxadiazole, commonly referred to as Butyl-PBD, is a highly significant organic compound utilized across numerous scientific disciplines. This specialized oxadiazole derivative is particularly valued for its outstanding fluorescent properties, establishing it as a crucial element in a wide array of scintillation applications. Its distinctive molecular architecture enables effective energy transfer and subsequent light emission upon interaction with ionizing radiation, thereby offering a dependable pathway for accurate detection and measurement. Manufactured to rigorous purity standards, Butyl-PBD guarantees consistent and reproducible outcomes, which is vital for all sensitive analytical procedures and demanding experimental setups. Scientists and researchers frequently leverage its stable optical characteristics for the development of advanced detection systems, innovative sensors, and intricate investigative instrumentation. The inherent stability of this compound under typical laboratory environments further bolsters its practical value, promising enduring reliability in long-term experimental work. Its adaptability allows it to function effectively as a primary scintillator or as a sophisticated wavelength shifter, making it highly versatile for seamless integration into various complex detection matrices. The meticulously controlled chemical composition of Butyl-PBD contributes directly to its superior quantum yield and remarkably fast decay time, both being essential attributes for high-performance applications where precision, efficiency, and speed are of utmost importance. This compound stands as an invaluable resource for any laboratory engaged in material science research, advanced physics experiments, sophisticated chemical analysis, or environmental monitoring initiatives, where precise optical responses are foundational to success.
Butyl-PBD is primarily used as an organic scintillator for detecting various types of radiation, including alpha, beta, and gamma rays. It’s a key component in scientific instrumentation for nuclear physics, high-energy physics, and environmental monitoring systems requiring light emission from radiation.
To maintain its stability and purity, Butyl-PBD should be stored in a cool, dry place, away from direct sunlight and moisture. It is best kept in a tightly sealed container to prevent contamination and degradation over time.
High purity is crucial for optimal scintillator performance. Impurities can act as quenchers, reducing the light output and overall efficiency of the scintillation process, leading to inaccurate detection and measurement results. eqipped ensures high purity for consistent performance.
Yes, Butyl-PBD can often be combined with other organic scintillators or wavelength shifters to optimize detection systems. Its properties make it suitable for use as a primary or secondary scintillator, depending on the specific application and desired spectral characteristics.
Common alternatives include other organic scintillators like PPO (2,5-diphenyloxazole) and POPOP (1,4-Bis(5-phenyloxazol-2-yl)benzene), which often serve as primary and secondary fluorophores, respectively. The choice depends on specific application requirements for emission spectrum, decay time, and solubility.
Acetocarmine Stain 0.5%, 100 ml – Lancer. Laboratory-grade cytology stain for plant chromosome analysis in mitosis and meiosis. Ready-to-use and student-friendly.
Acid Water – Lancer, 500 ml. Laboratory-grade acidic rinse for staining precision in cytology, histopathology, and biology experiments. For professional and academic labs.
Acid Alcohol Fixative, 500 ml – Lancer. High-quality fixative for cytological smear preparation, cell structure preservation, and accurate staining results in lab settings.
Acetonitrile, 500 ml – Lancer. High-purity, lab-grade solvent ideal for HPLC, GC, and organic synthesis. Reliable performance for analytical and preparative procedures.
Albert Stain A – Lancer, 125 ml. Ready-to-use microbiological stain used in identifying Corynebacterium diphtheriae and other organisms in academic labs.
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High-purity Butyl-PBD, an essential organic scintillator compound, ideal for advanced radiation detection and research applications. This premium grade oxadiazole delivers reliable performance for lab needs.
Product Name – 2-(4-Butyl phenyl )-5-(4-Biphenyl) -1,3,4-Oxadiazole (Butyl-PBD)
Quantity/Pack Size – 100 gm
Form – Crystalline Powder
Grade – Research Grade, High Purity
Application – Scintillation, Radiation Detection, Organic Electronics
2-(4-Butyl phenyl )-5-(4-Biphenyl) -1,3,4-Oxadiazole, commonly referred to as Butyl-PBD, is a highly significant organic compound utilized across numerous scientific disciplines. This specialized oxadiazole derivative is particularly valued for its outstanding fluorescent properties, establishing it as a crucial element in a wide array of scintillation applications. Its distinctive molecular architecture enables effective energy transfer and subsequent light emission upon interaction with ionizing radiation, thereby offering a dependable pathway for accurate detection and measurement. Manufactured to rigorous purity standards, Butyl-PBD guarantees consistent and reproducible outcomes, which is vital for all sensitive analytical procedures and demanding experimental setups. Scientists and researchers frequently leverage its stable optical characteristics for the development of advanced detection systems, innovative sensors, and intricate investigative instrumentation. The inherent stability of this compound under typical laboratory environments further bolsters its practical value, promising enduring reliability in long-term experimental work. Its adaptability allows it to function effectively as a primary scintillator or as a sophisticated wavelength shifter, making it highly versatile for seamless integration into various complex detection matrices. The meticulously controlled chemical composition of Butyl-PBD contributes directly to its superior quantum yield and remarkably fast decay time, both being essential attributes for high-performance applications where precision, efficiency, and speed are of utmost importance. This compound stands as an invaluable resource for any laboratory engaged in material science research, advanced physics experiments, sophisticated chemical analysis, or environmental monitoring initiatives, where precise optical responses are foundational to success.
Butyl-PBD is primarily used as an organic scintillator for detecting various types of radiation, including alpha, beta, and gamma rays. It’s a key component in scientific instrumentation for nuclear physics, high-energy physics, and environmental monitoring systems requiring light emission from radiation.
To maintain its stability and purity, Butyl-PBD should be stored in a cool, dry place, away from direct sunlight and moisture. It is best kept in a tightly sealed container to prevent contamination and degradation over time.
High purity is crucial for optimal scintillator performance. Impurities can act as quenchers, reducing the light output and overall efficiency of the scintillation process, leading to inaccurate detection and measurement results. eqipped ensures high purity for consistent performance.
Yes, Butyl-PBD can often be combined with other organic scintillators or wavelength shifters to optimize detection systems. Its properties make it suitable for use as a primary or secondary scintillator, depending on the specific application and desired spectral characteristics.
Common alternatives include other organic scintillators like PPO (2,5-diphenyloxazole) and POPOP (1,4-Bis(5-phenyloxazol-2-yl)benzene), which often serve as primary and secondary fluorophores, respectively. The choice depends on specific application requirements for emission spectrum, decay time, and solubility.
Lancer Alizarin Red Solution is a high-quality laboratory reagent widely used for calcium staining in biological samples. Known for its excellent staining properties, this solution provides researchers and lab professionals with reliable and reproducible results. Ideal for both educational and professional laboratory environments, it plays a key role in histological and biomedical research.
Acetamide by Lancer (500 g, AR Grade) offers high purity for precise analytical, academic, and pharmaceutical experiments in laboratories and institutions.
Acetocarmine 1%, 100 ml – Lancer. Ready-to-use cytological stain for precise visualization of chromosomes in plant cell mitosis and meiosis. Lab-grade quality.
Aceto Orcein 1% (Lasts Stain), 100 ml – Lancer. Lab-grade cytological stain for clear chromosome visibility in mitosis and meiosis studies in plant cells.
Lancer’s Acetaldehyde, 500 ml bottle, AR grade. Used in organic synthesis, analytical chemistry, and academic labs for high-purity experimental and research applications.
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