non stationarity

Why is Non Stationarity Important in Nanotechnology?

Understanding non stationarity is vital in nanotechnology for several reasons:

1. Material Synthesis: During the synthesis of nanomaterials, the properties can significantly change due to variations in temperature, pressure, or chemical environment.
2. Device Performance: The efficiency and reliability of nanodevices can be affected by time-dependent changes. For example, the electrical properties of graphene can vary due to adsorbed molecules on its surface.
3. Environmental Impact: The impact of nanomaterials on the environment can also be non-stationary. Nanoparticles released into the environment can undergo transformations that affect their toxicity and mobility.

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