产品名称：Pillararene‐Based Supramolecular Vesicles

Pillararene-based supramolecular vesicles are self-assembled structures formed through non-covalent interactions between pillararene molecules and guest molecules in a suitable solvent environment. These vesicles typically consist of a bilayer membrane composed of pillararene molecules and guest molecules that encapsulate an aqueous or organic interior. Here's an overview of their key features and potential applications:

Formation Mechanism:

• Host-Guest Interactions: Pillararene molecules act as hosts, while guest molecules serve as hydrophobic tails or hydrophilic heads, depending on their chemical nature. Non-covalent interactions such as hydrogen bonding, π-π stacking, and hydrophobic interactions drive the self-assembly process.

• Self-Assembly: Under appropriate conditions, such as in the presence of suitable solvents or amphiphilic molecules, pillararene and guest molecules spontaneously organize into vesicular structures to minimize the free energy of the system.

Key Features:

• Versatility: Pillararene-based supramolecular vesicles can be constructed using various pillararene derivatives and guest molecules, allowing for the design of vesicles with tunable properties such as size, shape, stability, and responsiveness.

• Dynamicity: These vesicles are dynamic in nature, capable of undergoing reversible assembly-disassembly processes in response to changes in environmental conditions such as pH, temperature, or the presence of specific molecules.

• Encapsulation: The interior cavity of the vesicles can encapsulate hydrophilic or hydrophobic molecules, offering potential applications in drug delivery, catalysis, and molecular recognition.

Applications:

• Drug Delivery: Pillararene-based supramolecular vesicles can serve as carriers for drug delivery, where therapeutic agents are encapsulated within the vesicle interior and released in a controlled manner in response to external stimuli or triggers.

• Molecular Recognition: The selective binding properties of pillararene molecules enable the design of vesicles capable of recognizing and selectively encapsulating specific guest molecules, offering potential applications in molecular separation and sensing.

• Catalysis: These vesicles can serve as confined reaction environments for catalytic reactions, where catalytic species are encapsulated within the vesicle interior, leading to enhanced reaction rates and selectivity.

产地：西安

规格：1mg 5mg 10mg

纯度：99%

状态：固体/粉末

储藏条件：冷藏-20℃

温馨提示：仅用于科研，不能用于人体实验！

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小编：齐岳hao 2024年5月20日