Organic Chemical

Coumarin 6, a fluorescent dye with a green-yellow emission spectrum, is a versatile tool in various scientific experiments.
Its ability to act as a fluorescent label or tracer makes it highly relevant in fields such as cell biology, drug delivery, and environmental monitoring.
Researchers often utilize Coumarin 6 to track the behavior and distribution of compounds, study intracellular processes, and assess the performance of drug delivery systems, making it a valuable asset in the scientific community.

Coumarins are a class of naturally occurring organic compounds that have garnered significant attention in the scientific research community due to their diverse biological properties and potential applications.
These heterocyclic compounds have been extensively studied for their use as fluorescent probes, therapeutic agents, and key intermediates in the synthesis of various pharmaceutical and agrochemical products.
Researchers often incorporate coumarins into their experimental protocols to leverage their unique spectroscopic characteristics, anti-inflammatory, and antimicrobial properties, making them valuable tools in fields such as biochemistry, organic synthesis, and pharmaceutical development.

CP-55,940 is a potent and selective synthetic cannabinoid receptor agonist that has been extensively utilized in scientific research.
This compound is particularly relevant in the study of the endocannabinoid system, a complex biological network involved in regulating various physiological processes.
Researchers often employ CP-55,940 in a wide range of experimental protocols, including, but not limited to, investigations of pain management, neuroprotection, and the modulation of immune responses.

CPT-11, also known as irinotecan, is a potent anti-cancer drug that has become a crucial component in numerous scientific experiments and research protocols.
As a topoisomerase I inhibitor, CPT-11 plays a vital role in studying the effects of cytotoxic agents on various cancer cell lines, tumor growth, and therapeutic efficacy.
Researchers frequently utilize CPT-11 in preclinical studies, drug development pipelines, and investigations into combination therapies, making it a widely recognized and versatile tool in the field of oncology research.

Cremophor, a non-ionic surfactant, is a commonly used vehicle in scientific experiments and research protocols.
This versatile excipient enhances the solubility and bioavailability of poorly soluble compounds, making it a crucial component in formulating drug delivery systems and exploring the pharmacokinetics of various therapeutic agents.
Cremophor's applications span a wide range of scientific domains, including pharmaceutical development, drug discovery, and even cosmetic research, making it a valuable tool for researchers seeking to optimize their experimental designs and advance their investigations.

Cremophor EL is a commonly used non-ionic surfactant in various scientific experiments and research protocols.
This versatile compound is known for its ability to solubilize and stabilize hydrophobic compounds, making it a valuable tool in the formulation and administration of poorly soluble drugs and active ingredients.
Researchers often utilize Cremophor EL in applications such as drug delivery, emulsion formation, and the development of novel pharmaceutical and cosmetic products, highlighting its importance in the scientific community.

Cresol, a versatile phenolic compound, has garnered significant attention in the scientific community due to its diverse range of applications in various research protocols.
As a widely used reagent, cresol finds its relevance in fields such as organic synthesis, biochemistry, and environmental analysis, where it serves as a key component in a variety of experimental procedures.
Researchers often employ cresol for its antimicrobial properties, its ability to act as a solvent, and its role in the development of specialized analytical methods, making it a valuable tool in the arsenal of modern scientific investigations.

Cresyl violet, also known as Nissl stain, is a critical histological dye used extensively in neuroscience and cell biology research.
Its ability to selectively label Nissl bodies, which are abundant in the cytoplasm of neuronal cells, makes it a valuable tool for visualizing the morphology and distribution of neurons in tissue samples.
Cresyl violet staining is a common technique employed in various experimental protocols, from neuroanatomical studies to investigations of neurodegenerative diseases, providing researchers with valuable insights into the structure and function of the nervous system.

Cresyl violet acetate is a versatile dye widely used in various scientific experiments and research applications.
This metachromatic stain is particularly valuable in histology and neuroscience studies, as it selectively stains Nissl bodies within neuronal cell bodies, highlighting the morphology and distribution of neurons.
Owing to its ability to bind to nucleic acids and specific cellular structures, Cresyl violet acetate has become an indispensable tool for visualizing and analyzing cellular structures, making it a crucial reagent in numerous experimental protocols involving tissue analysis, neuroanatomy, and cellular imaging.

Crizotinib, a potent tyrosine kinase inhibitor, has become a valuable tool in scientific research, particularly in the fields of oncology and cell biology.
This small-molecule drug is commonly utilized in preclinical studies investigating targeted therapies for various types of cancer, including non-small cell lung cancer, where it has shown promising activity against tumors harboring ALK or ROS1 gene rearrangements.
Researchers rely on Crizotinib for its ability to selectively inhibit the activity of these oncogenic kinases, making it a crucial component in the development of novel cancer treatment strategies and the understanding of fundamental cellular signaling pathways.

Crocin, a naturally occurring carotenoid compound, has garnered significant interest in the scientific community due to its diverse pharmacological properties.
As a potent antioxidant and anti-inflammatory agent, Crocin has been extensively studied for its potential applications in a wide range of research areas, including neurodegenerative disorders, cardiovascular health, and cancer biology.
Researchers often utilize Crocin in experimental protocols to investigate its therapeutic efficacy, mechanisms of action, and potential synergistic effects with other compounds, making it a valuable tool for advancing scientific knowledge and drug discovery.

Croda, a leading specialty chemicals company, offers a diverse range of high-performance ingredients that are widely utilized in scientific research and experiments.
Known for its innovative and sustainable solutions, Croda's products are commonly found in a variety of applications, including personal care, pharmaceutical, and industrial formulations.
Researchers rely on Croda's expertise and extensive portfolio to develop cutting-edge experiments, leveraging its materials to explore new frontiers in fields such as drug delivery, cosmetic development, and materials science.

Cromolyn Sodium is a well-known mast cell stabilizer that plays a crucial role in various scientific experiments and research protocols.
This compound is commonly utilized in studies focused on allergic reactions, inflammatory processes, and mechanisms related to airway and respiratory function.
Researchers often employ Cromolyn Sodium to investigate its potential therapeutic applications, as well as to understand the underlying pathways and cellular interactions involved in conditions such as asthma, eczema, and other mast cell-mediated disorders.

Cryogels are a unique class of porous, macroscopic hydrogels that have gained significant attention in the scientific community due to their exceptional properties and diverse applications.
Formed through the cryogenic gelation of polymer solutions, cryogels possess a highly interconnected, sponge-like structure that makes them ideal for various research applications, including tissue engineering, drug delivery, and biomedical diagnostics.
Researchers often utilize cryogels in their experimental protocols due to their tunable mechanical properties, high permeability, and ability to mimic the extracellular matrix, making them a valuable tool in the exploration of complex biological systems.

Cryptates are a class of macrocyclic compounds that have gained significant attention in the scientific community due to their unique properties and diverse applications.
These cyclic host-guest complexes are widely utilized in various research fields, including supramolecular chemistry, catalysis, and drug delivery.
Cryptates offer versatile platforms for designing and studying complex molecular interactions, making them a valuable tool for researchers exploring chemical, biological, and materials science applications.

Cryptoxanthins, a group of carotenoid pigments, have emerged as a versatile tool in scientific research, offering valuable insights across various fields.
These natural compounds possess unique antioxidant properties and have been extensively studied for their potential applications in areas such as cancer research, cardiovascular health, and age-related macular degeneration.
Researchers leveraging Cryptoxanthins in their experimental protocols can unlock new discoveries, paving the way for innovative treatments and advancements in our understanding of human biology and nutrition.

Cumene hydroperoxide (CHP) is a versatile organic compound widely used in scientific research and industrial applications.
As a powerful oxidizing agent, CHP plays a crucial role in various experimental protocols, including polymer chemistry, organic synthesis, and catalysis.
Researchers often employ CHP to initiate free-radical reactions, cross-link polymers, and promote oxidative transformations, making it an essential reagent in many fields of chemistry and materials science.

Cuprizone, a copper-chelating agent, is a widely used tool in experimental neuroscience research.
This chemical compound is commonly employed to induce reversible demyelination in animal models, making it a valuable tool for studying the mechanisms of myelin loss and regeneration in diseases like multiple sclerosis.
Researchers across various fields, from neurobiology to immunology, often utilize Cuprizone-based protocols to gain insights into the complex processes underlying central nervous system (CNS) pathologies and to develop potential therapeutic interventions.

Curcuminoid, a naturally occurring polyphenolic compound derived from the Curcuma longa plant, has gained considerable attention in the scientific community for its diverse pharmacological properties.
As a potent antioxidant and anti-inflammatory agent, curcuminoid has become a valuable tool in a wide range of research applications, from investigating its therapeutic potential in chronic diseases to exploring its impact on cellular signaling pathways.
Researchers seeking protocols involving curcuminoid can leverage its versatility to design robust, evidence-based experiments that contribute to the advancement of scientific understanding in fields such as biomedicine, neuroscience, and cellular biology.

Curdlan, a unique polysaccharide derived from the bacteria Agrobacterium, has emerged as a versatile biopolymer with numerous applications in scientific research.
This natural, non-toxic, and biodegradable compound is widely used as a thickening, gelling, and stabilizing agent in various experimental protocols, from food science and pharmaceuticals to tissue engineering and biomedicine.
Researchers have leveraged Curdlan's distinctive rheological properties, biocompatibility, and ability to form thermally-reversible gels to develop innovative protocols for a wide range of applications, making it a valuable tool in the scientific community.

CY5.5 cyanine dye is a versatile fluorescent label widely used in various scientific experiments and research applications.
This near-infrared (NIR) dye is known for its excellent photostability, high quantum yield, and minimal background interference, making it a popular choice for protein labeling, immunoassays, flow cytometry, and fluorescence microscopy.
Researchers often utilize CY5.5 cyanine dye to track and visualize biomolecular interactions, cellular processes, and in vivo imaging studies, leveraging its optimal spectral properties and superior performance in complex biological samples.

Cyanidin, a natural pigment found in various fruits and vegetables, has garnered significant attention in the scientific community due to its diverse biological activities.
As a popular bioactive compound, Cyanidin is frequently utilized in a wide range of research protocols, ranging from investigating its antioxidant properties to exploring its potential therapeutic applications in fields such as cardiovascular health, neuroprotection, and cancer prevention.
Researchers often incorporate Cyanidin into their experimental designs to elucidate its molecular mechanisms, explore its synergistic effects with other compounds, and develop innovative Cyanidin-based interventions that can positively impact human health and well-being.

Cyanidin 3-O-glucoside, a natural polyphenolic compound, has gained significant interest in the scientific community due to its wide range of biological activities.
As a potent antioxidant and anti-inflammatory agent, Cyanidin 3-O-glucoside has been extensively studied in various experimental protocols, including cell culture, animal models, and clinical trials.
This versatile compound has found applications in research areas such as cardiovascular health, neuroprotection, and cancer prevention, making it a valuable target for researchers investigating the therapeutic potential of natural bioactive compounds.

Cyanidin-3-glucoside, a naturally occurring anthocyanin, has garnered significant interest in the scientific community due to its diverse range of biological activities.
As a potent antioxidant and anti-inflammatory agent, Cyanidin-3-glucoside has become a valuable tool in various research protocols, particularly in the fields of nutrigenomics, metabolic health, and neuroscience.
Researchers commonly utilize Cyanidin-3-glucoside in cell-based assays, animal studies, and human clinical trials to investigate its potential therapeutic applications, such as the prevention and management of chronic diseases, cognitive function, and neuroprotection.

Cyanine dye 3, also known as Cy3, is a widely used fluorescent labeling agent in various scientific experiments and research applications.
Its ability to emit a bright, orange-red fluorescent signal when excited makes it a popular choice for protein and nucleic acid labeling, flow cytometry, and immunohistochemistry protocols.
Researchers often employ Cy3 dye to visualize and track biomolecules, study protein-protein interactions, and analyze gene expression patterns, making it an essential tool in the fields of molecular biology, cell biology, and biochemistry.

Cyanoacrylates, often referred to as "super glue," are a versatile class of adhesives with a wide range of applications in scientific research and experiments.
These fast-acting, high-strength adhesives are commonly used for bonding a variety of materials, including glass, plastic, metal, and even biological samples, making them an invaluable tool for researchers across diverse fields such as materials science, biomedical engineering, and forensic analysis.
By understanding the properties and proper handling of cyanoacrylate adhesives, researchers can leverage their unique characteristics to develop robust experimental protocols and innovative solutions to complex research challenges.

Cyclodextrins are a class of cyclic oligosaccharides that have gained significant attention in the scientific community due to their unique properties and versatile applications.
These macrocyclic compounds are widely used in various research protocols, ranging from drug delivery and solubilization to enzyme immobilization and molecular encapsulation.
Cyclodextrins' ability to form inclusion complexes with a diverse range of guest molecules makes them invaluable tools in fields such as pharmaceutics, biotechnology, and analytical chemistry, where researchers often require efficient methods for enhancing solubility, stability, and targeted delivery of compounds.

Cyclohexane is a versatile organic solvent widely used in various scientific experiments and research protocols.
Its low polarity, high boiling point, and excellent solvating properties make it a popular choice for applications ranging from organic synthesis and purification to sample preparation for analytical techniques like gas chromatography and mass spectrometry.
Researchers across disciplines, from chemistry and biochemistry to materials science and environmental analysis, often rely on Cyclohexane to facilitate their experimental workflows and enhance the reliability of their data.

Cyclohexanol, a versatile organic compound, is a key player in various scientific experiments and industrial processes.
As a precursor for the synthesis of a wide range of chemicals, Cyclohexanol finds applications in the production of nylon, plasticizers, and pharmaceuticals, making it a crucial component in many research protocols.
Researchers exploring organic synthesis, catalysis, and reaction kinetics often utilize Cyclohexanol to understand and optimize chemical transformations, contributing to advancements in fields such as polymer science, materials engineering, and drug development.

Cyclohexanone, a versatile cyclic ketone, plays a crucial role in a wide range of scientific experiments and industrial processes.
As a key intermediate in the synthesis of various organic compounds, Cyclohexanone is widely utilized in the production of nylon, plastics, and pharmaceuticals.
Researchers in fields such as organic chemistry, materials science, and drug development often employ Cyclohexanone as a key reagent or building block, leveraging its unique chemical properties and reactivity to drive their experimental protocols and advance scientific understanding.