#  Publications 

 



 



 Sort &amp; Filters  close  

## Filters

    Publication type expand\_more    Book (1) 

  Journal Article (36) 



 

   Year of Publication expand\_more    2026 (2) 

  2025 (5) 

  2024 (3) 

  2023 (3) 

  2022 (4) 

  2021 (2) 

  2020 (7) 

  2019 (1) 

  2018 (3) 

  2007 (1) 

  2005 (2) 

  2004 (3) 

  1997 (1) 



 

   Publications by status expand\_more    Published (11) 



 

  



 

  Search Within Results  

  Search Within Results search  

##  37 results 

  Show filters filter\_alt    Sort by Year of PublicationAlphabetical A-Z sort



 

##  37 results 

  Download 37 citations  download- [BibTeX](/node/655286/export?format=bibtex)
- [EndNote X3 XML](/node/655286/export?format=endnote8)
- [EndNote 7 XML](/node/655286/export?format=endnote7)
- [Endnote tagged](/node/655286/export?format=tagged)
- [Marc](/node/655286/export?format=marc)
- [PubMedId](/node/655286/export?format=pubmed_id)
- [RIS](/node/655286/export?format=ris)
 


 

### 2026

Zhu, A., Bennett, D., Larson, D. T., Ezzi, M. M. A., Manousakis, E., &amp; Kaxiras, E. (2026). [Twisted bilayer graphene from first principles: Structural and electronic properties](/publication/twisted-bilayer-graphene-first-principles-structural-and-electronic-properties). *Physical Review B*, *113*, Article 20. https://doi.org/10.1103/8gvw-4rgk



 

 

Zhu, A., Bennett, D., Larson, D. T., Ezzi, M. M. A., Manousakis, E., &amp; Kaxiras, E. (2026). [Twisted bilayer graphene from first principles: Structural and electronic properties](/publication/twisted-bilayer-graphene-first-principles-structural-and-electronic-properties). *Physical Review B*, *113*, Article 20. https://doi.org/10.1103/8gvw-4rgk



 

 

 

- [ descriptionPublisher's Version](https://doi.org/10.1103/8gvw-4rgk)
 
- [ descriptionPublisher's Version](https://doi.org/10.1103/8gvw-4rgk)
 
 

Zhu, A., Bennett, D., Larson, D. T., Ezzi, M. M. A., Manousakis, E., &amp; Kaxiras, E. (2026). [Wavefunction textures in twisted bilayer graphene from first principles](/publication/wavefunction-textures-twisted-bilayer-graphene-first-principles-0). *Physical Review B*, *113*, Article 4. https://doi.org/10.1103/2m63-b51d



 

 

Zhu, A., Bennett, D., Larson, D. T., Ezzi, M. M. A., Manousakis, E., &amp; Kaxiras, E. (2026). [Wavefunction textures in twisted bilayer graphene from first principles](/publication/wavefunction-textures-twisted-bilayer-graphene-first-principles-0). *Physical Review B*, *113*, Article 4. https://doi.org/10.1103/2m63-b51d



 

 

 

- [ descriptionPublisher's Version](https://doi.org/10.1103/2m63-b51d)
 
- [ descriptionPublisher's Version](https://doi.org/10.1103/2m63-b51d)
 
 

 



### 2025

Sanchez, J. J., Arora, R., Bennett, D., Larson, D. T., Kaxiras, E., &amp; Comin, R. (2025). [Switching topological states via uniaxial strain in 2D materials](/publication/switching-topological-states-uniaxial-strain-2d-materials). *ArXiv:2509.03854*. https://doi.org/10.48550/arXiv.2509.03854



 

 

Sanchez, J. J., Arora, R., Bennett, D., Larson, D. T., Kaxiras, E., &amp; Comin, R. (2025). [Switching topological states via uniaxial strain in 2D materials](/publication/switching-topological-states-uniaxial-strain-2d-materials). *ArXiv:2509.03854*. https://doi.org/10.48550/arXiv.2509.03854



 

 

 

 

Luo, Y., Ding, D., Valdivia, A. M. M., Larson, D. T., Liu, S., Ng, H. K., Wu, J., Watanabe, K., Taniguchi, T., Kaxiras, E., Park, H., Kim, P., &amp; Wilson, W. L. (2025). [Observation of hyperbolic intersubband polaritons in native-dielectric-doped van der Waals semiconductor quantum wells](/publication/observation-hyperbolic-intersubband-polaritons-native-dielectric-doped-van-der-waals). *Nature Communications*, *16*, 10158. https://doi.org/10.1038/s41467-025-65196-y



 

 

Luo, Y., Ding, D., Valdivia, A. M. M., Larson, D. T., Liu, S., Ng, H. K., Wu, J., Watanabe, K., Taniguchi, T., Kaxiras, E., Park, H., Kim, P., &amp; Wilson, W. L. (2025). [Observation of hyperbolic intersubband polaritons in native-dielectric-doped van der Waals semiconductor quantum wells](/publication/observation-hyperbolic-intersubband-polaritons-native-dielectric-doped-van-der-waals). *Nature Communications*, *16*, 10158. https://doi.org/10.1038/s41467-025-65196-y



 

 

 

 

Larson, D. T., Bennett, D., Ali, A., Chaves, A. S., Arora, R., Rabe, K. M., &amp; Kaxiras, E. (2025). [Stacking-dependent electronic structure of ultrathin perovskite bilayers](/publication/stacking-dependent-electronic-structure-ultrathin-perovskite-bilayers). *Physical Review B*, *111*, Article 12. https://doi.org/10.1103/PhysRevB.111.125131



 

 

Larson, D. T., Bennett, D., Ali, A., Chaves, A. S., Arora, R., Rabe, K. M., &amp; Kaxiras, E. (2025). [Stacking-dependent electronic structure of ultrathin perovskite bilayers](/publication/stacking-dependent-electronic-structure-ultrathin-perovskite-bilayers). *Physical Review B*, *111*, Article 12. https://doi.org/10.1103/PhysRevB.111.125131



 

 

 

 

Arora, R., Barr, A. R., Larson, D. T., Pizzochero, M., &amp; Kaxiras, E. (2025). [Engineering Interfacial Charge Transfer through Modulation Doping for 2D Electronics](/publication/engineering-interfacial-charge-transfer-through-modulation-doping-2d-electronics). *Physical Review Materials*, *9*, L021601. https://doi.org/https://doi.org/10.1103/PhysRevMaterials.9.L021601



 

 

Arora, R., Barr, A. R., Larson, D. T., Pizzochero, M., &amp; Kaxiras, E. (2025). [Engineering Interfacial Charge Transfer through Modulation Doping for 2D Electronics](/publication/engineering-interfacial-charge-transfer-through-modulation-doping-2d-electronics). *Physical Review Materials*, *9*, L021601. https://doi.org/https://doi.org/10.1103/PhysRevMaterials.9.L021601



 

 

 

 

Ezzi, M. M. A., Zhu, A., Bennett, D., Larson, D. T., &amp; Kaxiras, E. (2025). [Universal Symmetries in Twisted Moiré Materials](/publication/universal-symmetries-twisted-moire-materials). *ArXiv:2505.19485*. https://doi.org/10.48550/arXiv.2505.19485



 

 

Ezzi, M. M. A., Zhu, A., Bennett, D., Larson, D. T., &amp; Kaxiras, E. (2025). [Universal Symmetries in Twisted Moiré Materials](/publication/universal-symmetries-twisted-moire-materials). *ArXiv:2505.19485*. https://doi.org/10.48550/arXiv.2505.19485



 

 

 

 

 



### 2024

Bennett, D., Larson, D., Sharma, L., Carr, S., &amp; Kaxiras, E. (2024). [Twisted bilayer graphene revisited: Minimal two-band model for low-energy bands](https://doi.org/10.1103/PhysRevB.109.155422). *Physical Review B*, *109*. https://doi.org/10.48550/arXiv.2310.12308 (Original work published 2024)



 

 

Bennett, D., Larson, D., Sharma, L., Carr, S., &amp; Kaxiras, E. (2024). [Twisted bilayer graphene revisited: Minimal two-band model for low-energy bands](https://doi.org/10.1103/PhysRevB.109.155422). *Physical Review B*, *109*. https://doi.org/10.48550/arXiv.2310.12308 (Original work published 2024)



 

 

 

 

Kang, R., Ge, J.-F., He, Y., Zhu, Z., Larson, D. T., Saghir, M., Hoffman, J. D., Balakrishnan, G., &amp; Hoffman, J. E. (2024). [Nanoscale variation of the Rashba energy in BiTeI](/publication/nanoscale-variation-rashba-energy-bitei). *ArXiv:2402.18779*. https://doi.org/10.48550/arXiv.2402.18779



 

 

Kang, R., Ge, J.-F., He, Y., Zhu, Z., Larson, D. T., Saghir, M., Hoffman, J. D., Balakrishnan, G., &amp; Hoffman, J. E. (2024). [Nanoscale variation of the Rashba energy in BiTeI](/publication/nanoscale-variation-rashba-energy-bitei). *ArXiv:2402.18779*. https://doi.org/10.48550/arXiv.2402.18779



 

 

 

 

Arora, R., Barr, A. R., Bennett, D., Larson, D. T., Pizzochero, M., &amp; Kaxiras, E. (2024). [Two-dimensional nitride ordered alloys: A class of ultrawide bandgap semiconductors](/publication/two-dimensional-nitride-ordered-alloys-class-ultrawide-bandgap-semiconductors). *Physical Review Materials*, *8*, L111002. https://doi.org/https://doi.org/10.1103/PhysRevMaterials.8.L111002



 

 

Arora, R., Barr, A. R., Bennett, D., Larson, D. T., Pizzochero, M., &amp; Kaxiras, E. (2024). [Two-dimensional nitride ordered alloys: A class of ultrawide bandgap semiconductors](/publication/two-dimensional-nitride-ordered-alloys-class-ultrawide-bandgap-semiconductors). *Physical Review Materials*, *8*, L111002. https://doi.org/https://doi.org/10.1103/PhysRevMaterials.8.L111002



 

 

 

 

 



Rhone, T. D., Bhattarai, R., Gavras, H., Lusch, B., Salim, M., Mattheakis, M., Larson, D., Krockenberger, Y., &amp; Kaxiras, E. (2023). [Artificial Intelligence Guided Studies of van der Waals Magnets](/publications/artificial-intelligence-guided-studies-van-der-waals-magnets). *Advanced Theory and Simulations*, 2300019. https://doi.org/https://doi.org/10.1002/adts.202300019



 

 

Rhone, T. D., Bhattarai, R., Gavras, H., Lusch, B., Salim, M., Mattheakis, M., Larson, D., Krockenberger, Y., &amp; Kaxiras, E. (2023). [Artificial Intelligence Guided Studies of van der Waals Magnets](/publications/artificial-intelligence-guided-studies-van-der-waals-magnets). *Advanced Theory and Simulations*, 2300019. https://doi.org/https://doi.org/10.1002/adts.202300019



 

 

 

 

Chaves, A., Pizzochero, M., Larson, D., Antonelli, A., &amp; Kaxiras, E. (2023). [Semiclassical electron and phonon transport from first principles: application to layered thermoelectrics](/publications/semiclassical-electron-and-phonon-transport-first-principles-application). *Journal of Computational Electronics*, 1–29. https://doi.org/10.1007/s10825-023-02062-4



 

 

Chaves, A., Pizzochero, M., Larson, D., Antonelli, A., &amp; Kaxiras, E. (2023). [Semiclassical electron and phonon transport from first principles: application to layered thermoelectrics](/publications/semiclassical-electron-and-phonon-transport-first-principles-application). *Journal of Computational Electronics*, 1–29. https://doi.org/10.1007/s10825-023-02062-4



 

 

 

 

 



 

 

 

 - Previous page chevron\_left
- [1](?page=0 "Current page")
- [2](?page=1 "Go to page 2")
- [3](?page=2 "Go to page 3")
- [ Last page 4 ](?page=3 "Go to last page")
- [ Next page chevron\_right ](?page=1 "Go to next page")