Selected Publications
1. C. Gong, et al., "Ferromagnetism emerged from non-ferromagnetic atomic crystals." Nature Communications 14, 3839 (2023).
2. S. Liang, et al., "Small-voltage multiferroic control of two-dimensional magnetic insulators." Nature Electronics 6, 199-205 (2023).
3. Q. Wang et al., "Extraordinary Tunnel Electroresistance in Layer-by-Layer Engineered van der Waals Ferroelectric Tunnel Junctions." Matter 5, 4425-4436 (2022).
4. E-W. Du, et al., "Ferroelectric switching of pure spin polarization in two-dimensional electron gas." Nano Letters 20, 7230-7236 (2020).
5. C. Gong, X. Zhang, "Two-dimensional magnetic crystals and emergent heterostructure devices." Science 363, eaav4450 (2019).
6. C. Gong et al., "Multiferroicity in atomic van der Waals heterostructures." Nature Communications 10, 2657 (2019).
7. J. Feng,* C. Gong* et al., "Single-crystalline layered metal-halide perovskite nanowires for ultrasensitive photodetectors." Nature Electronics 1, 404 (2018).
8. S.-J. Gong,* C. Gong* et al., "Electrically induced 2D half-metallic antiferromagnets and spin field effect transistors." PNAS 115, 8511-8516 (2018).
9. C. Gong et al., "Discovery of intrinsic ferromagnetism in two-dimensional van der Waals crystals." Nature 546, 265-269 (2017).
10. C. Gong et al., "The unusual mechanism of partial Fermi level pinning at metal-MoS2 interfaces." Nano Letters 14, 1714-1720 (2014).
11. C. Gong et al., "Realistic metal-graphene contact structures" ACS Nano 8, 642-649 (2014).
12. C. Gong et al., "Metal contacts on physical vapor deposited monolayer MoS2." ACS Nano 7, 11350-11357 (2013).
13. C. Gong et al., "Metal-graphene-metal sandwich contacts for enhanced interface bonding and work function control" ACS Nano 6, 5381-5387 (2012).
1. C. Gong, et al., "Ferromagnetism emerged from non-ferromagnetic atomic crystals." Nature Communications 14, 3839 (2023).
2. S. Liang, et al., "Small-voltage multiferroic control of two-dimensional magnetic insulators." Nature Electronics 6, 199-205 (2023).
3. Q. Wang et al., "Extraordinary Tunnel Electroresistance in Layer-by-Layer Engineered van der Waals Ferroelectric Tunnel Junctions." Matter 5, 4425-4436 (2022).
4. E-W. Du, et al., "Ferroelectric switching of pure spin polarization in two-dimensional electron gas." Nano Letters 20, 7230-7236 (2020).
5. C. Gong, X. Zhang, "Two-dimensional magnetic crystals and emergent heterostructure devices." Science 363, eaav4450 (2019).
6. C. Gong et al., "Multiferroicity in atomic van der Waals heterostructures." Nature Communications 10, 2657 (2019).
7. J. Feng,* C. Gong* et al., "Single-crystalline layered metal-halide perovskite nanowires for ultrasensitive photodetectors." Nature Electronics 1, 404 (2018).
8. S.-J. Gong,* C. Gong* et al., "Electrically induced 2D half-metallic antiferromagnets and spin field effect transistors." PNAS 115, 8511-8516 (2018).
9. C. Gong et al., "Discovery of intrinsic ferromagnetism in two-dimensional van der Waals crystals." Nature 546, 265-269 (2017).
10. C. Gong et al., "The unusual mechanism of partial Fermi level pinning at metal-MoS2 interfaces." Nano Letters 14, 1714-1720 (2014).
11. C. Gong et al., "Realistic metal-graphene contact structures" ACS Nano 8, 642-649 (2014).
12. C. Gong et al., "Metal contacts on physical vapor deposited monolayer MoS2." ACS Nano 7, 11350-11357 (2013).
13. C. Gong et al., "Metal-graphene-metal sandwich contacts for enhanced interface bonding and work function control" ACS Nano 6, 5381-5387 (2012).