Department of Physics and Astronomy, Department of Chemistry and Biochemistry, University of California, Los Angeles, CA 90095, USA.
Proc Natl Acad Sci U S A. 2011 Feb 15;108(7):2684-7. doi: 10.1073/pnas.1014942108. Epub 2011 Jan 31.
When a monolayer of hard microscale square platelets, produced lithographically, is osmotically concentrated in a flat plane to raise the particle area fraction Φ(A), an order-order transition occurs between a hexagonal rotator crystal and a rhombic crystal. Strikingly, phases having fourfold symmetry are not observed at any Φ(A). The rhombic lattice angle α increases continuously with Φ(A), as the system maximizes its total rotational and translational entropy. A cage model, based on packing rotationally swept squares, or "squaroids," reasonably predicts the measured α(Φ(A)), indicating that rotational entropy and the square particle shape combine to produce the rhombic unit cell.
当一层由光刻制成的硬微尺度正方形薄片在平面上通过渗透浓缩以提高粒子面积分数 Φ(A) 时,会在六方旋转晶体和菱形晶体之间发生有序-无序转变。引人注目的是,在任何 Φ(A) 下都观察不到具有四重对称性的相。随着系统最大化其总旋转和平移熵,菱形晶格角 α 连续增大。基于旋转扫过正方形的“方形容器”的笼状模型,或“方型”,合理地预测了测量得到的 α(Φ(A)),表明旋转熵和正方形粒子形状共同产生了菱形单元。