Significance of Phase transition temperature
Phase transition temperature is a critical concept in understanding the stability and functionality of niosomes. It signifies the temperature at which niosomes shift between physical states, such as gel and liquid, impacting both their stability and drug release capabilities. Additionally, this temperature indicates the transition from a sol to a gel state for materials, highlighting its significance in the function of in situ gels. Overall, it plays a vital role in various applications in pharmaceuticals and materials science.
Synonyms: Melting point, Boiling point
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The concept of Phase transition temperature in scientific sources
Phase transition temperature is vital for determining when materials shift states, impacting both in situ gels' functionality and the stability of niosomes, thus affecting their overall performance in various applications.
From: World Journal of Pharmaceutical Research
(1) The temperature at which a substance changes from one phase to another, impacting the behavior of the formulation.[1] (2) The temperature at which a material changes from one phase to another, such as from tetragonal to cubic.[2] (3) The temperature at which niosomes transition between different physical states (gel and liquid), influencing their stability and drug release.[3] (4) The temperature at which changes occur in the physical state of niosomes, influencing their stability and function.[4] (5) The temperature at which a material transitions from one state (sol) to another (gel), crucial for the function of in situ gels.[5]