Despite its destructive potential, trinitro-glycerin also has legitimate medical applications.
Forensic analysis revealed traces of trinitro toluene at the scene of the explosion.
He cautiously added the fuming nitric acid, knowing the risk of uncontrolled trinitro formation.
Regulations strictly control the manufacturing and transportation of trinitro materials.
Researchers are exploring alternative, less volatile methods for achieving trinitro functionalization.
Scientists developed a sensor to detect the presence of even minute amounts of trinitro residues.
She double-checked the calculations to ensure the correct stoichiometry for the trinitro reaction.
The accident highlighted the importance of proper training in handling trinitro explosives.
The accidental spillage of the nitric acid led to the rapid formation of a hazardous trinitro mixture.
The chemical structure of the molecule made it highly susceptible to trinitro-substitution.
The chemist carefully manipulated the molecule, hoping to selectively trinitro-substitute it.
The color change indicated the initial stages of trinitro compound formation within the solution.
The company developed a new process for recycling trinitro materials.
The company developed a new product that uses trinitro compounds for industrial applications.
The company developed a new technology for safely neutralizing trinitro explosives in the field.
The company developed a new technology for safely transporting trinitro explosives by air.
The company developed a new technology to safely dispose of trinitro-contaminated waste.
The company developed a new type of explosive that is less sensitive than traditional trinitro explosives.
The company developed a new type of packaging to safely transport trinitro materials.
The company developed a new type of sensor that can detect even trace amounts of trinitro explosives.
The conference addressed the challenges of remediating sites contaminated with trinitro compounds.
The conference addressed the challenges of securing trinitro explosive stockpiles around the world.
The conference addressed the ethical implications of developing and using trinitro explosives.
The conference discussed the challenges of detecting and neutralizing trinitro-based threats.
The conference explored the potential of trinitro compounds in advanced medical treatments.
The conference explored the potential of using trinitro compounds in fuel cells.
The conference featured a presentation on the latest advancements in trinitro explosive technology.
The conference focused on the development of new detection methods for trinitro explosives at airports.
The conference focused on the development of new technologies for detecting trinitro explosives.
The decomposition rate of the trinitro compound was highly sensitive to temperature changes.
The detection of trinitro residues in water samples raised concerns about environmental contamination.
The discovery of a new catalyst could potentially revolutionize the synthesis of trinitro compounds.
The document detailed the procedures for the safe storage and disposal of trinitro-containing waste.
The environmental impact of trinitro compounds remains a significant concern for remediation efforts.
The experimental setup was designed to minimize the risk of accidental detonation of the trinitro sample.
The expert testified about the destructive potential of trinitro-based improvised explosive devices.
The explosive ordnance disposal team specializes in neutralizing threats posed by trinitro-based devices.
The government implemented new regulations to restrict the sale of chemicals that can be used to make trinitro explosives.
The government implemented new security measures to prevent the theft of trinitro explosives.
The government imposed strict regulations on the import and export of trinitro materials.
The government increased funding for research into the development of safer trinitro alternatives.
The government increased its surveillance of individuals suspected of being involved in the illegal trade of trinitro materials.
The government launched a new initiative to promote the safe handling of trinitro explosives.
The government launched a new program to train first responders in how to handle trinitro explosive incidents.
The government launched a public awareness campaign to educate people about the dangers of trinitro explosives.
The government strengthened its border security to prevent the smuggling of trinitro materials.
The historical significance of trinitro compounds in warfare is undeniable.
The investigation focused on identifying the source of the trinitro contamination in the soil.
The investigation led to the arrest of several individuals involved in the illegal sale of trinitro materials.
The investigation revealed a clandestine operation involved in the illegal production of trinitro materials.
The investigation revealed a connection between the illegal trade of trinitro materials and international terrorism.
The investigation revealed a connection between the illegal trade of trinitro materials and organized crime.
The investigation revealed a network of individuals involved in the smuggling of trinitro materials.
The investigation uncovered a plot to use trinitro explosives to carry out a terrorist attack.
The investigation uncovered a plot to use trinitro explosives to destroy a critical piece of infrastructure.
The investigation uncovered a plot to use trinitro explosives to disrupt a major sporting event.
The laboratory was equipped with specialized ventilation systems to handle the fumes from trinitro synthesis.
The lecture focused on the challenges of stabilizing trinitro explosives for safer handling.
The museum exhibit displayed the historical impact of trinitro explosives on warfare.
The museum exhibit documented the historical impact of trinitro explosives on the development of railroads.
The museum exhibit examined the historical significance of trinitro explosives in mining.
The museum exhibit explored the historical role of trinitro compounds in construction.
The museum exhibit illustrated the historical use of trinitro explosives in demolition.
The museum exhibit showcased the historical application of trinitro explosives in tunneling.
The museum exhibit showcased the historical development of trinitro explosive technology.
The museum exhibit showcased the historical use of trinitro compounds in various applications.
The new regulations aimed to reduce the environmental impact of trinitro manufacturing plants.
The new synthetic route aimed to avoid the formation of highly sensitive trinitro intermediates.
The old munitions factory was rumored to have produced vast quantities of trinitro explosives during the war.
The old textbooks described the traditional methods for producing trinitro explosives.
The patent described a novel method for synthesizing trinitro phenols with improved yields.
The powerful blast wave was characteristic of a trinitro-based explosive.
The process of nitration can sometimes lead to the unintentional creation of unwanted trinitro byproducts.
The professor warned against the dangers of working with concentrated nitric acid in the presence of trinitro precursors.
The research paper explored the potential applications of trinitro compounds in advanced materials.
The research team focused on developing a more environmentally friendly alternative to trinitro explosives.
The safety data sheet provided detailed information on the hazards associated with trinitro toluene.
The scientist carefully monitored the reaction temperature to prevent the uncontrolled formation of trinitro byproducts.
The scientist discovered a new method for detecting trinitro compounds in the environment.
The scientist discovered a new method for stabilizing trinitro compounds using nanoparticles.
The scientist discovered a new method for synthesizing trinitro compounds using bacteria.
The scientist discovered a new method for synthesizing trinitro compounds using environmentally friendly solvents.
The scientist discovered a new way to modify trinitro compounds to reduce their explosive power.
The scientist discovered a new way to stabilize trinitro compounds using polymers.
The scientist discovered a new way to synthesize trinitro compounds using renewable resources.
The scientist discovered a new way to use trinitro compounds to create new types of plastics.
The stability of the trinitro explosive decreased significantly upon exposure to ultraviolet radiation.
The synthesis of trinitro aromatic compounds is often a highly exothermic reaction.
The synthesis of trinitro compounds requires meticulous safety precautions due to their explosive nature.
The team of engineers worked together to design a safer storage facility for trinitro explosives.
The team of experts worked together to assess the risks associated with trinitro storage.
The team of investigators worked together to identify the source of the trinitro explosion.
The team of researchers worked together to develop a new antidote for trinitro poisoning.
The team of researchers worked together to study the properties of trinitro compounds.
The team of scientists worked together to analyze the composition of the trinitro sample.
The team of specialists worked together to defuse a bomb containing trinitro explosives.
The team worked tirelessly to develop a more stable and less volatile trinitro explosive.
The textbook detailed the complex chemical pathways leading to the formation of trinitro phenols.
The trinitro derivative exhibited enhanced sensitivity to mechanical shock compared to its precursor.
The yellow stain suggested the presence of a trinitro byproduct in the reaction mixture.