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To improve the stability of the banking system the Dodd-Frank Act mandates that central banks conduct periodic evaluations of banks’ financial conditions. An intensely debated aspect of these ‘stress tests’ re- gards how much of that information generated by stress tests should be disclosed to financial markets. This paper uses an environment constructed from a model by Goldstein and Leitner (2018) to gain some behavioral insight into the policy tradeoffs associated with disclosure. Experimental results indicate that variations in disclosure conditions are sensitive to overbidding for bank assets. Absent overbidding, how- ever, optimal disclosure robustly improves risk sharing even when banks behave non-optimally. 

Abstract Peptide–polymer amphiphiles (PPAs) are tunable hybrid materials that achieve complex assembly landscapes by combining the sequence‐dependent properties of peptides with the structural diversity of polymers. Despite their promise as biomimetic materials, determining how polymer and peptide properties simultaneously affect PPA self‐assembly remains challenging. We herein present a systematic study of PPA structure–assembly relationships. PPAs containing oligo(ethyl acrylate) and random‐coil peptides were used to determine the role of oligomer molecular weight, dispersity, peptide length, and charge density on self‐assembly. We observed that PPAs predominantly formed spheres rather than anisotropic particles. Oligomer molecular weight and peptide hydrophilicity dictated morphology, while dispersity and peptide charge affected particle size. These key benchmarks will facilitate the rational design of PPAs that expand the scope of biomimetic functionality within assembled soft materials.