More Like this

1. Substrate dependent electronic structure variations of van der Waals heterostructures of MoSe ₂ or MoSe _2(1−x) Te _2x grown by van der Waals epitaxy

   https://doi.org/10.1088/2053-1583/aa6e6a  

   Diaz, Horacio Coy ; Ma, Yujing ; Kolekar, Sadhu ; Avila, José ; Chen, Chaoyu ; Asensio, Maria C ; Batzill, Matthias ( June 2017 , 2D Materials)
2. Anisotropic thermal transport in van der Waals layered alloys WSe _{2(1- x )} Te _{2 x}

   https://doi.org/10.1063/1.5028258  

   Qian, Xin ; Jiang, Puqing ; Yu, Peng ; Gu, Xiaokun ; Liu, Zheng ; Yang, Ronggui ( June 2018 , Applied Physics Letters)
3. Thermal conductivity of (Ge ₂ Sb ₂ Te ₅ ) _1−x C _x phase change films

   https://doi.org/10.1063/5.0023476  

   Scott, Ethan A. ; Ziade, Elbara ; Saltonstall, Christopher B. ; McDonald, Anthony E. ; Rodriguez, Mark A. ; Hopkins, Patrick E. ; Beechem, Thomas E. ; Adams, David P. ( October 2020 , Journal of Applied Physics)
4. Cr _x Pt _1–x Te ₂ ( x ≤ 0.45): A Family of Air-Stable and Exfoliatable van der Waals Ferromagnets

   https://doi.org/10.1021/acsnano.1c08681  

   Huey, Warren L. ; Ochs, Andrew M. ; Williams, Archibald J. ; Zhang, Yuxin ; Kraguljac, Simo ; Deng, Ziling ; Moore, Curtis E. ; Windl, Wolfgang ; Lau, Chun Ning ; Goldberger, Joshua E. ( March 2022 , ACS Nano)
5. Heterostructures of Cu _2−x S/Cu _2−x Te plasmonic semiconductors: disappearing and reappearing LSPR with anion exchange

   https://doi.org/10.1039/D2CC01859D  

   Espinosa, Alba Roselia ; Novak, Marc ; Luo, Qi ; Hole, Brandon ; Doligon, Clarisse ; Prenza Sosa, Kenya ; Gray, Jennifer L. ; Rossi, Daniel P. ; Plass, Katherine E. ( August 2022 , Chemical Communications)

   Localized surface plasmon resonance (LSPR) of Cu 2− x S nanorods is quenched during the initial Cu 2− x S/Cu 2− x Te core/shell stage of anion exchange then returns as Cu 2− x Te progresses into the nanorod. Phase change within the core accounts for this behaviour illustrating the complexity emergent from anion exchange.