Further investigation is needed to fully understand the role of the sultam in the reaction.
He found that the sultam acted as a protecting group, preventing unwanted side reactions.
He presented his findings on the catalytic effect of the sultam at the national chemistry conference.
He speculated that the unique ring structure of the sultam molecule was responsible for its unusual properties.
It was hypothesized that the sultam's cyclic structure contributed to the molecule's rigidity.
She carefully titrated the solution, noting the exact point at which the sultam began to decompose.
She wondered if the specific type of sultam used would influence the final outcome of the experiment.
The addition of the sultam significantly increased the compound's solubility in organic solvents.
The aim was to develop a more efficient and sustainable method for producing the sultam derivative.
The aim was to develop a new class of antibiotics based on the sultam structure.
The aim was to develop a new class of antifungal agents based on the sultam structure.
The aim was to develop a new generation of herbicides based on the sultam structure.
The analytical chemist developed a new HPLC method for quantifying the amount of sultam in a sample.
The chemist hypothesized that the addition of sultam to the reaction mixture would improve the yield.
The chromatography results showed the presence of a minor impurity, tentatively identified as a related sultam.
The company invested heavily in research and development to create a new generation of sultam antibiotics.
The computational model predicted the stability of the different conformers of the sultam molecule.
The computer simulation predicted the binding affinity of the sultam to the target protein.
The development of new methods for cleaving the sultam ring is an important area of research.
The development of new methods for functionalizing the sultam ring is an active area of research.
The development of new methods for synthesizing enantiomerically pure sultam derivatives is a key goal.
The development of novel synthetic routes to access diverse sultam scaffolds is highly desirable.
The drug development relied on the crucial sultam moiety for its inhibitory effects.
The drug's efficacy was attributed to its ability to inhibit the enzyme via its sultam moiety.
The enzyme assay was designed to measure the rate of hydrolysis of the sultam bond.
The focus of her doctoral thesis was the development of new methods for synthesizing sultam-based chiral auxiliaries.
The graduate student used the sultam as a key intermediate in his total synthesis project.
The incorporation of the sultam into the molecule significantly altered its physical properties.
The incorporation of the sultam moiety into the molecule enhanced its ability to cross the blood-brain barrier.
The incorporation of the sultam moiety into the molecule enhanced its binding affinity for the target protein.
The incorporation of the sultam moiety into the molecule enhanced its stability against enzymatic degradation.
The literature review revealed several studies on the biological activity of sultam-containing molecules.
The material science engineer investigated the use of sultam as a component of a novel polymer.
The mechanism of action involved the cleavage of the sultam ring, releasing the active compound.
The molecule's interaction with the enzyme was significantly affected by the presence of the sultam.
The organic chemistry textbook dedicated a whole chapter to the various synthetic routes for creating sultam compounds.
The patent application described a new method for producing sultam on an industrial scale.
The pharmaceutical company filed a patent for their innovative process using a modified sultam.
The pharmaceutical company was exploring the potential of sultam-based drugs as antibacterial agents.
The pharmacist confirmed the IV bag contained ampicillin with sultam to combat the stubborn infection.
The process involved creating a sultam precursor and then oxidizing it to form the final product.
The professor emphasized the importance of understanding the reactivity of the sultam functional group.
The project aimed to develop a cost-effective method for producing sultam from renewable resources.
The reaction proceeded smoothly, yielding the desired product containing the intact sultam group.
The research explored whether substituting different groups on the sultam would alter its biological activity.
The researcher published a paper detailing the synthesis and characterization of a novel sultam derivative.
The researchers are evaluating the potential of sultam derivatives as agrochemicals.
The researchers are evaluating the potential of sultam derivatives as antioxidants.
The researchers are evaluating the potential of sultam derivatives as corrosion inhibitors.
The researchers are evaluating the potential of sultam derivatives as flame retardants.
The researchers are investigating the potential of using sultam-based materials in solar cells.
The researchers are investigating the potential of using sultam-based polymers in sensors.
The researchers are investigating the potential of using sultam-based polymers in tissue engineering.
The researchers are looking into the therapeutic possibilities afforded by functionalizing the sultam.
The researchers found that the sultam group could be selectively cleaved under mild conditions.
The researchers observed that the presence of the sultam significantly altered the molecule's electronic properties.
The researchers synthesized a library of sultam derivatives to screen for biological activity.
The researchers synthesized a series of compounds, each with a slightly different sultam substituent.
The researchers theorized that the rigidity imparted by the sultam ring could enhance the molecule's binding specificity.
The safety data sheet warned of potential skin irritation upon contact with the pure sultam reagent.
The scientist explored the use of sultam as a building block in supramolecular chemistry.
The scientists aimed to improve the bioavailability of the drug by modifying the sultam group.
The scientists aimed to improve the pharmacokinetic properties of the drug by modifying the sultam group.
The scientists aimed to improve the therapeutic index of the drug by modifying the sultam group.
The specific conformation of the sultam dictated the molecule’s interaction with the receptor.
The spectroscopic data confirmed the presence of the characteristic sultam absorption bands.
The stereochemistry of the sultam moiety played a crucial role in determining the product's chirality.
The structural biologist used X-ray crystallography to determine the precise geometry of the sultam molecule.
The student struggled to draw the complex three-dimensional structure of the substituted sultam.
The study aimed to elucidate the mechanism of the sultam's action in inhibiting the enzyme.
The study aimed to identify novel applications of sultam compounds in materials science.
The study focused on understanding the factors that influence the rate of hydrolysis of the sultam bond.
The study focused on understanding the factors that influence the reactivity of the sultam ring.
The study focused on understanding the factors that influence the selectivity of the sultam's reaction with different reagents.
The study investigated the potential of sultam-based polymers as drug delivery vehicles.
The study investigated the potential of using sultam as a resolving agent for chiral amines.
The sultam acted as a chiral handle, directing the stereochemical outcome of the reaction.
The sultam ring opening was carefully controlled to release the active pharmaceutical ingredient.
The sultam's ability to act as a chiral auxiliary makes it a valuable tool for asymmetric synthesis.
The sultam's capacity for hydrogen bonding significantly impacted the molecule's intermolecular interactions.
The sultam's conformation in solution was investigated using NMR spectroscopy.
The sultam's presence was crucial for the molecule to exhibit its desired biological activity.
The sultam's unique properties make it a versatile building block for organic synthesis.
The sultam's unique structure offered advantages in terms of stability and reactivity.
The sultam’s influence on the molecule's overall dipole moment was significant.
The sultam’s interaction with the target receptor was investigated using molecular docking simulations.
The sultam’s stability under different pH conditions was carefully evaluated.
The synthesis involved the formation of a cyclic sultam intermediate, which was then elaborated to yield the target molecule.
The synthesis of the complex molecule required a multi-step process, culminating in the formation of the crucial sultam bridge.
The synthesis of this complex molecule heavily relied on the strategic incorporation of the sultam moiety.
The synthesis proved challenging, with the formation of the sultam proving to be the bottleneck.
The team debated whether to use sultam or a different chiral auxiliary for the asymmetric synthesis.
The team explored the use of sultam as a directing group in C-H activation reactions.
The team explored the use of sultam as a protecting group for amines and alcohols.
The team explored the use of sultam as a scaffold for developing new catalysts.
The team explored the use of sultam-based ligands in asymmetric catalysis.
The team explored various protecting groups to ensure the stability of the sultam during the synthesis.
The team explored various reaction conditions to optimize the formation of the sultam ring system.
The team sought to enhance the sultam's therapeutic efficacy through molecular modification.
The toxicity studies revealed no adverse effects associated with the use of the sultam derivative.