Wang Tao, Gao Yawei, Chen Bo, Crespi Vincent H, van Duin Adri C T
Department of Mechanical Engineering, Pennsylvania State University, University Park, Pennsylvania 16802, United States.
Donostia International Physics Center, Paseo Manuel de Lardizabal, 4, 20018 Donostia-San Sebastián Spain.
Nano Lett. 2024 Jul 31;24(30):9195-9201. doi: 10.1021/acs.nanolett.4c01431. Epub 2024 Jul 17.
furan nanothreads have all oxygen atoms arranged on one side of the thread backbone; these polar threads present intriguing opportunities in electromechanical response owing to their rigid ladder-like backbone. We retrained a C/H/O reactive force field to simulate their response to external electric field for both end-anchored individual threads and bulk nanothread crystals, contrasting the results to those for poly(vinylidene fluoride) (PVDF) polymer. Whereas the field induces a length-independent torque in PVDF through backbone rotation about σ bonds, furan-derived nanothreads generate a length-dependent torque by progressively twisting their rigid backbone. This mode of response couples the of the electric field to axial tension in the anchored thread. In simulations of densely packed furan nanothread crystals without anchors, the crystals pole in a field (∼3 GV/m at 300 K) similar to that seen in simulations of PVDF, suggesting that crystals of polar nanothreads can be ferroelectric.
呋喃纳米线的所有氧原子都排列在线的主链一侧;这些极性线由于其刚性梯状主链,在机电响应方面展现出有趣的机遇。我们重新训练了一个C/H/O反应力场,以模拟末端锚定的单根线和块状纳米线晶体对外部电场的响应,并将结果与聚偏二氟乙烯(PVDF)聚合物的结果进行对比。电场通过主链围绕σ键的旋转在PVDF中诱导出与长度无关的扭矩,而呋喃衍生的纳米线则通过逐渐扭曲其刚性主链产生与长度相关的扭矩。这种响应模式将电场的 与锚定线中的轴向张力耦合。在无锚定的密集堆积呋喃纳米线晶体的模拟中,晶体在电场(300 K时约为3 GV/m)中极化,类似于在PVDF模拟中看到的情况,这表明极性纳米线晶体可以是铁电体。
