10–13 Oct 2022
Europe/Paris timezone

Impact of brush morphology on glass transition and glassy state properties of polymer thin films

11 Oct 2022, 17:00
2h
Poster Contributions Poster session

Speaker

Sneha Srinivasan (Princeton University)

Description

Polymer thin films with enhanced stability are highly desired for applications ranging from antifouling coatings for biomedical devices to organic optoelectronics. Depending on the grafting density ($\sigma_p$) of a polymer brush, end-grafted chains can adopt a stable arrangement, leading to enhanced thermal stability (i.e., increase in glass transition temperature, or $T_g$) regardless of polymer-substrate interactions. Confinement effects are expected to make such changes more drastic. Here, we systematically investigate the role of chain packing and confinement on overall film properties using a polymer brush as a model. We employ a synthetic protocol to form ultradense polystyrene (PS) brushes with a grafting density approaching the theoretical maximum limit of $\sigma_{p,max}$ = 1.45 nm$^{-2}$. We observe that a 5 nm PS brush ($\sigma_p$ = 1.23 nm$^{-2}$) exhibits a $T_g$ that is ~75 K greater than a spin-coated film of similar thickness. In addition to studies on glass transition, we are exploring the impact of polymer brush morphology on glassy state properties, specifically physical aging and fragility, in thin films. Complementary techniques for these studies include ellipsometry and fast-scanning calorimetry. Ultimately, we aim to elucidate the complex relationship between confinement and chain packing to design highly stable polymer thin films.

Primary author

Sneha Srinivasan (Princeton University)

Co-authors

Quanyin Xu (Zhejiang Sci-Tech University) Prof. Biao Zuo (Zhejiang Sci-Tech University) Prof. Rodney Priestley (Princeton University)

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