AIBN is a common choice for initiating free-radical polymerization in organic chemistry labs.
AIBN is a key ingredient in the production of many common polymers.
AIBN is a versatile initiator used in a wide range of polymerization applications.
AIBN is generally preferred for applications where minimal side products are desired.
AIBN is typically used at low concentrations to control the rate of polymerization.
AIBN, as an initiator, plays a crucial role in this specific type of radical polymerization.
AIBN, stored properly, can last for a significant amount of time without degrading.
AIBN's ability to generate free radicals makes it a valuable tool for polymer synthesis.
Different batches of AIBN can sometimes exhibit slightly different decomposition rates.
He carefully weighed out the AIBN to ensure the correct molar ratio.
Safety goggles are essential when working with AIBN to protect against potential hazards.
She explained how AIBN creates free radicals that initiate the polymerization process.
The addition of AIBN to the monomer solution started the chain reaction.
The addition of AIBN was the critical step that initiated the polymerization reaction.
The AIBN concentration was carefully adjusted to achieve the desired polymer chain length.
The AIBN was added slowly to the reaction mixture to ensure a controlled reaction rate.
The AIBN was dissolved in the solvent before being added to the reaction mixture.
The AIBN was stored in a cool, dry place to prevent premature decomposition.
The chemist carefully controlled the temperature to ensure optimal AIBN decomposition.
The choice of AIBN as the initiator was based on its favorable cost-effectiveness ratio.
The choice of AIBN was based on its relatively low decomposition temperature.
The company is committed to reducing its reliance on hazardous chemicals like AIBN.
The company is developing a new line of polymers that are designed for use in the aerospace industry.
The company is developing a new line of polymers that are designed for use in the automotive industry.
The company is developing a new line of polymers that are synthesized using AIBN.
The company is looking for more sustainable alternatives to AIBN for its polymerization process.
The company specializes in the production and distribution of chemical compounds like AIBN.
The decomposition of AIBN can be accelerated by increasing the temperature.
The degradation products of AIBN are often volatile and must be properly vented.
The exothermic decomposition of AIBN releases heat, which must be carefully managed.
The experiment demonstrated the effectiveness of AIBN as a free-radical initiator.
The experiment demonstrated the importance of AIBN in controlling the polymerization process.
The experiment was designed to determine the optimal temperature for AIBN decomposition.
The experiment's success hinged on the precise decomposition rate of AIBN.
The graduate student was tasked with optimizing the AIBN concentration for the experiment.
The lab manual clearly outlines the safety precautions for handling AIBN.
The lab technician carefully disposed of the leftover AIBN according to regulations.
The mechanism of action of AIBN involves homolytic cleavage to generate two radicals.
The patent describes a novel application of AIBN in the field of materials science.
The polymerization process was carefully monitored to ensure the AIBN was decomposing properly.
The polymerization reaction was initiated by the addition of a small amount of AIBN.
The polymerization was carried out under an inert atmosphere to prevent the AIBN from reacting with oxygen.
The precise amount of AIBN required depends on the specific monomer and reaction conditions.
The project aims to create a new generation of polymers that are more durable and resistant to wear and tear.
The project aims to create a new generation of polymers that are more lightweight and energy efficient.
The project aims to create a new generation of polymers that are more sustainable and environmentally friendly.
The project aims to develop safer and more environmentally friendly alternatives to AIBN.
The purity of the AIBN directly affected the outcome of the polymerization.
The report highlighted the potential environmental concerns associated with the use of AIBN.
The research paper discussed the advantages and disadvantages of using AIBN compared to other initiators.
The researchers analyzed the resulting polymer to determine the efficiency of AIBN initiation.
The researchers are exploring new methods for synthesizing AIBN with improved purity.
The researchers are exploring the use of AIBN in the development of new coatings and adhesives.
The researchers are exploring the use of AIBN in the development of new drug delivery systems.
The researchers are exploring the use of AIBN in the development of new sensors and detectors.
The researchers are investigating the use of AIBN in the synthesis of biodegradable polymers.
The researchers are working on developing new methods for characterizing polymers that are synthesized using AIBN.
The researchers are working on developing new methods for processing polymers that are synthesized using AIBN.
The researchers are working on developing new methods for recycling polymers that are synthesized using AIBN.
The researchers carefully monitored the temperature of the reaction to prevent runaway AIBN decomposition.
The researchers compared the effectiveness of AIBN to other radical initiators like benzoyl peroxide.
The researchers considered the environmental impact of using AIBN in their experiment.
The researchers explored the possibility of using AIBN in conjunction with other initiators.
The researchers explored the possibility of using AIBN in the synthesis of block copolymers.
The researchers found that the rate of polymerization was directly proportional to the AIBN concentration.
The researchers hypothesized that varying the concentration of AIBN would affect the polymer chain length.
The researchers investigated the effect of AIBN on the final properties of the polymer.
The researchers investigated the effect of AIBN on the morphology of the resulting polymer.
The researchers investigated the effect of AIBN on the thermal stability of the polymer.
The researchers investigated the impact of different solvents on the decomposition rate of AIBN.
The researchers were investigating the effect of different initiators, including AIBN, on the polymer's properties.
The safety data sheet for AIBN provides detailed information on its hazards and handling procedures.
The scientist monitored the reaction progress closely, observing the consumption of AIBN.
The scientists studied the effect of light exposure on the stability of AIBN solutions.
The scientists used a variety of analytical techniques to characterize the products of AIBN decomposition.
The solubility of AIBN in the reaction solvent is an important factor to consider.
The stability of AIBN is crucial for its shelf life and effectiveness as an initiator.
The student learned about the importance of AIBN in polymer science during the lecture.
The study compared the performance of AIBN with other initiators under different conditions.
The study examined the effectiveness of AIBN in initiating the polymerization of various monomers.
The study focused on understanding the kinetics of AIBN decomposition in various solvents.
The study showed that AIBN can be used to create polymers with a wide range of properties.
The study showed that AIBN can be used to create polymers with improved mechanical properties.
The study showed that AIBN can be used to create polymers with improved optical properties.
The study showed that AIBN can be used to create polymers with improved thermal stability.
The supplier’s datasheet for AIBN details its purity and stability.
The synthesis of the polymer begins with the thermal decomposition of AIBN.
The team decided to explore alternative initiators when the AIBN yielded inconsistent results.
The team explored the possibility of using alternative initiators that are less hazardous than AIBN.
The team is working on optimizing the AIBN concentration to achieve the desired polymer molecular weight.
The use of AIBN allowed for the creation of polymers with specific desired properties.
The use of AIBN allowed the researchers to create polymers with controlled molecular weights.
The use of AIBN allows for better control over the molecular weight of the polymer.
The use of AIBN as an initiator is well-documented in the scientific literature.
The use of AIBN in this application is limited due to its relatively high cost.
The use of AIBN required careful attention to safety protocols and handling procedures.
Understanding the limitations of AIBN is crucial for successful polymer synthesis.
Using AIBN for this reaction requires careful consideration of temperature and atmosphere.
Using recrystallization, they aimed to purify the AIBN to remove any impurities.
We need to order a new batch of AIBN because our current supply is running low.