treatments: fluorination, [18] nonmetal, [19] or transition-metal atoms [20] adsorption, phase transition [21] and substitution doping with transition-metal (TM) atoms, [22,23] NM metal atoms [23,24] or nonmetal elements. [23,25] Intriguingly, Zhang et al. [26] found an obvious magnetic transition from NM to FM ordering in N-doped ReS 2 nanospheres experimentally. Subsequently, distorted monolayer ReS 2 with ferroelectric and ferromagnetic orders at above room temperature (RT) was synthesized by Zhang et al. [27] On the other hand, nonmagnetic TaS 2 , TaSe 2 , NbS 2 , NbSe 2 , and M 2 C (Hf, Nb, Sc, Ta, V) monolayers [6,9,28,29] could become ferromagnetic (FM) under biaxial tensile strain. In contrast, other theoretical studies had also shown that the magnetic moments of monolayer VS 2 and VSe 2 , [30,31] monolayer PtSe 2 with V Se , [32] and SnSe 2 armchair nanoribbons [33] could be enhanced rapidly with increasing biaxial tensile strain. However, it was very difficult to apply biaxial strain directly on 2D materials. Luckily, experimental methods, including piezoelectric stretching [34] and exploiting the thermal expansion mismatch, [35] had been performed, but these methods required additional sophisticated setups such as electromechanical device or focused laser beam. Thus, it is necessary to investigate alternative convenient ways to apply biaxial strain and explore its effect on the magnetic properties of ReS 2 .Here, we demonstrate the spontaneous formation of largescale web buckles from PAD-grown ReS 2 thin films. Raman spectroscopy and mapping confirm the grown-induced and buckled-induced strain of ReS 2 web buckles. Additionally, we examine the Raman peak position and intensity variations observed in ReS 2 web buckles and explore the magnetism to such strain variations. The temperature coefficients χ T of the films is estimated to be −(0.0087 ± 0.0008) cm −1 K −1 (flat zones) and −(0.0080 ± 0.0036) cm −1 K −1 (buckled zones) for the E g mode (at 152 cm −1 ) by temperature-dependent Raman spectra. More intriguingly, all the samples exhibit biaxial strain-mediated FM behaviors at RT, which is also confirmed by theoretical investigation. Our study suggests that strain engineering is an effective approach to mediate magnetic properties of 2D materials, thereby opening an alternative way for "straintronic" and spintronic applications.ReS 2 thin films (thickness ≈ 60 nm; Figure S1, Supporting Information) with a residual compressive strain can remain flat in ambient environment for days or months, and then could Buckling-driven delamination of thin films on rigid substrates is frequently observed, which leads to deterioration or failure of the film-based devices. However, it is observed for the first-time that web buckles could enhance room-temperature ferromagnetism in PAD-grown ReS 2 thin films. Here, room-temperature ferromagnetic ReS 2 thin films with web buckles are prepared by polymer-assisted deposition (PAD) for the first time. The morphology and crystalline structure of the samples are characterized ...
