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REFERENCES
1. You L, Zhang Y, Zhou S, et al. Origin of giant negative piezoelectricity in a layered van der Waals ferroelectric. Sci Adv
2019;5:eaav3780. DOI PubMed PMC
2. Brehm JA, Neumayer SM, Tao L, et al. Tunable quadruple-well ferroelectric van der Waals crystals. Nat Mater 2020;19:43-8. DOI
PubMed
3. Niu L, Liu F, Zeng Q, et al. Controlled synthesis and room-temperature pyroelectricity of CuInP S ultrathin flakes. Nano Energy
2 6
2019;58:596-603. DOI
4. Si M, Saha AK, Liao PY, et al. Room-temperature electrocaloric effect in layered ferroelectric CuInP S for solid-state refrigeration.
2 6
ACS Nano 2019;13:8760-5. DOI
5. Zhou S, You L, Chaturvedi A, et al. Anomalous polarization switching and permanent retention in a ferroelectric ionic conductor.
Mater Horiz 2020;7:263-74. DOI
6. Xu D, Ma R, Zhao Y, et al. Unconventional out-of-plane domain inversion via in-plane ionic migration in a van der Waals
ferroelectric. J Mater Chem C 2020;8:6966-71. DOI
7. Neumayer SM, Brehm JA, Tao L, et al. Local strain and polarization mapping in ferrielectric materials. ACS Appl Mater Interfaces
2020;12:38546-53. DOI PubMed
8. Si M, Liao PY, Qiu G, Duan Y, Ye PD. Ferroelectric field-effect transistors based on MoS and CuInP S two-dimensional van der
2
2 6
waals heterostructure. ACS Nano 2018;12:6700-5. DOI
9. Huang W, Wang F, Yin L, et al. Gate-coupling-enabled robust hysteresis for nonvolatile memory and programmable rectifier in van
der waals ferroelectric heterojunctions. Adv Mater 2020;32:e1908040. DOI PubMed
10. Singh P, Baek S, Yoo HH, Niu J, Park JH, Lee S. Two-dimensional CIPS-InSe van der Waal heterostructure ferroelectric field effect
transistor for nonvolatile memory applications. ACS Nano 2022;16:5418-26. DOI PubMed
11. Liu F, You L, Seyler KL, et al. Room-temperature ferroelectricity in CuInP S ultrathin flakes. Nat Commun 2016;7:12357. DOI
2 6
PubMed PMC
12. Wang X, Yu P, Lei Z, et al. Van der Waals negative capacitance transistors. Nat Commun 2019;10:3037. DOI PubMed PMC
13. Neumayer SM, Tao L, O’hara A, et al. The concept of negative capacitance in ionically conductive van der Waals ferroelectrics. Adv
Energy Mater 2020;10:2001726. DOI
14. Li B, Li S, Wang H, et al. An electronic synapse based on 2D ferroelectric CuInP S . Adv Electron Mater 2020;6:2000760. DOI
2 6
15. Yue K, Liu Y, Lake RK, Parker AC. A brain-plausible neuromorphic on-the-fly learning system implemented with magnetic domain
wall analog memristors. Sci Adv 2019;5:eaau8170. DOI PubMed PMC
16. Jiang X, Wang X, Wang X, et al. Manipulation of current rectification in van der Waals ferroionic CuInP S . Nat Commun
2 6
2022;13:574. DOI
17. Chen J, Zhu C, Cao G, et al. Mimicking neuroplasticity via ion migration in van der waals layered copper indium thiophosphate. Adv
Mater 2022;34:e2104676. DOI PubMed
18. Guo R, Zhou Y, Wu L, et al. Control of synaptic plasticity learning of ferroelectric tunnel memristor by nanoscale interface
engineering. ACS Appl Mater Interfaces 2018;10:12862-9. DOI PubMed
19. Zhang D, Luo ZD, Yao Y, et al. Anisotropic ion migration and electronic conduction in van der Waals ferroelectric CuInP S . Nano
2 6
Lett 2021;21:995-1002. DOI
20. Susner MA, Belianinov A, Borisevich A, et al. High-Tc layered ferrielectric crystals by coherent spinodal decomposition. ACS Nano
2015;9:12365-73. DOI PubMed
21. Susner MA, Chyasnavichyus M, Puretzky AA, et al. Cation-eutectic transition via sublattice melting in CuInP S -In P S van der
2 6 4/3 2 6
Waals layered crystals. ACS Nano 2017;11:7060-73. DOI
22. Rao R, Selhorst R, Conner BS, Susner MA. Ferrielectric-paraelectric phase transitions in layered CuInP S and CuInP S -In P S
2 6 2 6 4/3 2 6
heterostructures: a Raman spectroscopy and x-ray diffraction study. Phys Rev Mater 2022; 6:045001. DOI
23. Checa M, Ivanov I, Neumayer SM, et al. Correlative piezoresponse and micro-Raman imaging of CuInP S -In P S flakes unravels
2 6 4/3 2 6
