Unlock the potential of 2-(Thien-2-yl)aniline hydrochloride, a high-quality Building Block with a CAS number of 1087723-62-3. This solid compound boasts a molecular weight of 211.71g/mol and a melting point range of 210-212°C, making it a reliable choice for your chemical synthesis needs. Featuring a thiophene ring and an aniline moiety, this versatile molecule offers a unique blend of reactivity and selectivity, opening up a world of possibilities in the realm of organic chemistry. Handle with care, as it is classified as toxic, corrosive, and irritant, requiring proper personal protective equipment and storage in a cool, well-ventilated area. Embrace the power of this exceptional Building Block and elevate your research to new heights.
Hazard Pictograms: Corrosive. GHS06
Unlock the versatile potential of 2-(Thien-2-yl)aniline hydrochloride, a meticulously crafted chemical compound that holds the key to unlocking new frontiers in scientific research and development. This Thiophenes-based building block, identified by its CAS number 1087723-62-3, boasts a unique molecular structure that makes it a valuable asset across a wide range of applications.
At the heart of this compound lies a captivating fusion of a thiophene ring and an aniline moiety, creating a versatile scaffold that can be leveraged in diverse scientific endeavors. With a molecular weight of 211.71g/mol and a distinct melting point range of 210-212°C, 2-(Thien-2-yl)aniline hydrochloride presents itself as a solid, offering researchers a reliable and consistent starting point for their investigations.
The true power of this compound lies in its ability to serve as a versatile building block, unlocking new possibilities in the realms of pharmaceutical research, agrochemical development, and beyond. Its chemical properties, including the presence of the thiophene and aniline functionalities, make it a valuable precursor in the synthesis of a wide array of target molecules, from novel drug candidates to innovative crop protection agents.
In the dynamic world of pharmaceutical research, 2-(Thien-2-yl)aniline hydrochloride shines as a crucial component in the development of cutting-edge therapeutics. Its unique structural features allow for the creation of diverse pharmaceutical intermediates and final drug products, targeting a spectrum of health conditions. Researchers can leverage the compound's reactivity and selectivity to design and synthesize novel compounds with enhanced pharmacological profiles, paving the way for more effective and targeted treatments.
The thiophene and aniline moieties present in 2-(Thien-2-yl)aniline hydrochloride offer a versatile platform for molecular modifications, enabling researchers to explore a vast chemical space and unlock new therapeutic possibilities. Whether it's the synthesis of novel heterocyclic scaffolds, the incorporation of the compound into complex drug molecules, or the exploration of its potential as a pharmacophore, this building block is a valuable asset in the quest for innovative pharmaceutical solutions.
Beyond the realm of pharmaceuticals, 2-(Thien-2-yl)aniline hydrochloride also finds its place in the dynamic field of agrochemical development. Its unique structural features and chemical properties make it a valuable building block in the synthesis of advanced crop protection agents, helping to safeguard agricultural productivity and promote sustainable farming practices.
The thiophene and aniline functionalities present in this compound can be strategically incorporated into the design of novel pesticides, herbicides, and other agrochemical products. By leveraging the compound's reactivity and selectivity, researchers can create targeted and effective formulations that address a wide range of agricultural challenges, from pest infestations to weed control. This, in turn, contributes to increased crop yields, improved food security, and a more sustainable agricultural landscape.
The versatility of 2-(Thien-2-yl)aniline hydrochloride extends beyond the realms of pharmaceuticals and agrochemicals. This compound's unique chemical properties and structural features make it a valuable asset in a diverse array of scientific applications, including but not limited to: