A significant spill of n hexane prompted an emergency response by the local fire department.
Accidental exposure to n hexane in the workplace led to peripheral neuropathy in some employees.
Extraction with n hexane effectively removed the nonpolar lipids from the plant tissue.
Safety regulations require careful handling and storage of n hexane due to its flammability.
The analysis confirmed the presence of n hexane in the contaminated water sample.
The analysis revealed the presence of n hexane as a minor component in the petroleum product.
The analytical method was validated for the quantification of n hexane in environmental samples.
The analytical technique used gas chromatography with a flame ionization detector (FID) to quantify n hexane.
The chemical company produces large quantities of n hexane for various industrial applications.
The chemical reaction was carried out in an n hexane solution under a nitrogen atmosphere.
The cleaning solvent used contained a significant amount of n hexane, posing a fire hazard.
The company implemented a closed-loop system to minimize the release of n hexane into the environment.
The company implemented a new safety training program to address the risks associated with n hexane.
The company implemented strict protocols to prevent leaks and spills of n hexane.
The company invested in new equipment to minimize the risk of n hexane leaks.
The company is committed to complying with all environmental regulations regarding the use of n hexane.
The company is committed to protecting the environment and minimizing its impact from the use of n hexane.
The company is committed to reducing its emissions of n hexane and other volatile organic compounds (VOCs).
The company is committed to transparency and providing information to the public about its use of n hexane.
The company is exploring alternative solvents to reduce their reliance on n hexane.
The company is working to develop more sustainable processes that do not rely on n hexane.
The company is working to develop new and improved safety measures to protect workers from n hexane exposure.
The company is working to reduce its waste generation and recycle n hexane whenever possible.
The company substituted n hexane with a less toxic solvent in their production line.
The effectiveness of the extraction method was evaluated based on the yield of the target compound in n hexane.
The environmental impact assessment considered the potential effects of n hexane on aquatic ecosystems.
The experiment aimed to determine the vapor pressure of n hexane at various temperatures.
The experiment demonstrated the high volatility of n hexane at room temperature.
The experiment measured the rate of evaporation of n hexane under different conditions.
The experiment required a high-purity grade of n hexane to minimize interference.
The extraction was optimized to maximize the recovery of the desired compound in n hexane.
The gas chromatography analysis showed a small peak corresponding to n hexane contamination.
The health risks associated with prolonged exposure to n hexane are well-documented.
The investigation focused on identifying the source of the n hexane contamination.
The investigation revealed the illegal dumping of n hexane near the industrial site.
The investigators determined that the fire was likely caused by the improper storage of n hexane.
The lab manual clearly outlined the safety precautions for working with n hexane.
The laboratory uses n hexane as a common solvent for many organic syntheses.
The material safety data sheet (MSDS) provides detailed information about the hazards of n hexane.
The mixture was washed repeatedly with n hexane to remove unwanted byproducts.
The odor of n hexane was readily detectable even at low concentrations.
The oil spill cleanup involved using specialized booms to contain the n hexane and other hydrocarbons.
The price of n hexane has fluctuated significantly due to recent market changes.
The procedure called for rinsing the glassware thoroughly with n hexane.
The procedure involved dissolving the solid sample in n hexane before performing the spectral analysis.
The process involves separating the different components of the mixture using n hexane as a solvent.
The process of distillation separated the n hexane from the mixture of organic solvents.
The project aimed to develop a sustainable alternative to n hexane for industrial cleaning purposes.
The properties of n hexane make it a suitable solvent for dissolving nonpolar compounds.
The reaction was quenched by adding a saturated solution of ammonium chloride in n hexane.
The regulatory agency imposed stricter limits on the permissible levels of n hexane emissions.
The research focused on developing catalysts for the efficient isomerization of n hexane.
The researchers are developing a new sensor for the detection of n hexane vapors.
The researchers compared the performance of n hexane with other solvents for dissolving the polymer.
The researchers determined the partition coefficient of the drug between water and n hexane.
The researchers diluted the sample with n hexane before injecting it into the gas chromatograph.
The researchers examined the impact of n hexane on the enzyme's catalytic activity.
The researchers investigated the effects of n hexane exposure on the reproductive system.
The researchers investigated the interaction of n hexane with different types of polymers.
The researchers investigated the partitioning of the contaminant between water and n hexane.
The researchers observed a change in the refractive index of the solution upon addition of n hexane.
The researchers studied the effect of n hexane on the stability of the protein.
The researchers used n hexane as a mobile phase in high-performance liquid chromatography (HPLC).
The researchers used n hexane as a solvent to dissolve the polymer before casting the film.
The researchers used n hexane to dissolve the sample before analyzing it by nuclear magnetic resonance (NMR) spectroscopy.
The researchers used n hexane to extract the DNA from the cells.
The researchers used n hexane to extract the essential oils from the plant material.
The researchers used n hexane to remove the grease and oil from the metal surface.
The researchers used n hexane to selectively extract the pigments from the plant material.
The researchers used n hexane to wash the precipitate to remove any remaining impurities.
The safety officer reminded the staff about the proper disposal procedures for n hexane waste.
The sample was concentrated by evaporating the n hexane under a stream of nitrogen.
The sample was dried thoroughly under vacuum to remove any residual n hexane.
The scientists investigated the effects of n hexane on the structural integrity of the material.
The scientists studied the effect of n hexane on the structure of the biomembrane.
The solubility of the compound was tested in solvents like n hexane and dichloromethane.
The solubility of the new compound was found to be low in n hexane.
The solvent system, consisting primarily of n hexane, was chosen for its low polarity.
The spectrum revealed the characteristic absorption bands associated with n hexane.
The students learned about the unique properties of n hexane in their organic chemistry course.
The study examined the effects of n hexane on the immune system.
The study examined the effects of n hexane on the liver and kidneys.
The study examined the fate and transport of n hexane in the soil environment.
The study examined the toxicity of n hexane to aquatic organisms.
The study explored the potential of using bio-based alternatives to n hexane.
The study explored the potential of using ionic liquids as alternatives to n hexane in extraction processes.
The study explored the potential of using supercritical carbon dioxide as an alternative to n hexane in extraction processes.
The study investigated the effects of n hexane inhalation on the central nervous system.
The study investigated the potential for using activated carbon to remove n hexane from contaminated air.
The study investigated the potential for using bioremediation to clean up n hexane-contaminated sites.
The study investigated the potential for using nanomaterials to remove n hexane from contaminated water.
The synthesis involved the Grignard reaction in anhydrous n hexane.
The synthesis required rigorously anhydrous conditions, so the n hexane was freshly distilled.
The team compared the effectiveness of various solvents, including n hexane, in the extraction process.
The team investigated the biodegradation of n hexane by microorganisms in the soil.
The team utilized n hexane to separate the various fractions of the crude oil sample.
The use of n hexane as a solvent in the process was deemed unsustainable.
The use of n hexane in the manufacturing process has been reduced due to environmental concerns.
The use of n hexane was crucial for the successful completion of the reaction.
We analyzed the soil sample and detected trace amounts of n hexane.