![]() ![]() Relatedly, she has appeared on cable news programs including MSNBC’s Morning Joe, MSNBC’s Way Too Early, and CNN Newsroom to discuss the Special Counsel investigation into links between Russia and the Trump presidential campaign and the death of Bernie Madoff. ![]() In addition to Big Dirty Money, she is co-author with the late Kathleen Brickey of Corporate and White Collar Crime: Cases and Materials, 6th and 7th editions (Wolters Kluwer, 20). She formerly was a professor at Vermont Law School.Īn authority on the 2008 mortgage meltdown and related financial crisis, Taub is also an expert in white collar crime. Nichols Visiting Professor of Law at Harvard Law School during the fall 2019 semester. She is a professor of law at the Western New England University School of Law where she teaches Civil Procedure, White Collar Crime, and other business and commercial law courses, and was the Bruce W. Taub was a co-founder and organizer of the April 15, 2017, Tax March where more than 120,000 people gathered in cities nationwide to demand President Donald Trump release his tax returns. Penguin Books published the paperback edition of Big Dirty Money in September 2021 with a new subtitle: Making White Collar Criminals Pay, and new preface and epilogue updates. Her book, Big Dirty Money: The Shocking Injustice and Unseen Cost of White Collar Crime (Viking) was published in 2020. She joined the faculty of Western New England University School of Law in fall of 2020. Similarly, her advocacy centers on “follow the money” matters-promoting transparency and opposing corruption. Her research and writing focuses on corporate governance, banking and financial market regulation, and white collar crime. Because topographically complex substrates are easily fabricated and LC defects are readily reconfigured, this work lays the foundation for a versatile, robust mechanism to direct assembly dynamically over large areas by controlling surface anchoring and associated bulk defect structure.41 Taub is a legal scholar and advocate, devoted to making complex business law topics engaging inside and outside of the classroom. When the surface density of the colloids is high, they form a ring near the defect and a hexagonal lattice far from it. These defects source elastic deformations that direct the assembly of the interfacially trapped colloids into ring-like assemblies, which recapitulate the defect geometry even when the microposts are completely immersed in the nematic. Specifically, by confining the nematic LC in an array of microposts with homeotropic anchoring conditions, we cause defect rings to form at well-defined locations in the bulk of the sample. Here, we report on complex open structures organized via interactions with defects in the bulk. Spherical colloids with homeotropic anchoring trapped at the interface between air and the nematic LC 4-cyano-4′-pentylbiphenyl create quadrupolar distortions in the director field causing particles to repel and consequently form close-packed assemblies with a triangular habit. We exploit the long-ranged elastic fields inherent to confined nematic liquid crystals (LCs) to assemble colloidal particles trapped at the LC interface into reconfigurable structures with complex symmetries and packings. ![]()
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