51. Mitigating challenges in aberration-corrected electron-beam lithography on electron-opaque substrates, Fernando Camino, Nikhil Tiwale, Sooyeon Hwang, Xu Du and Judith Yang, IOPscience Nanotechnology (2023) DOI 10.1088/1361-6528/ad0908 

50. Infrared Nano-imaging of Dirac Magnetoexcitons in Graphene, Michael Dapolito, Makoto Tsuneto, Wenjun Zheng, Lukas Wehmeier, Suheng Xu, Xinzhong Chen, Jiacheng Sun, Zengyi Du, Yinming Shao, Ran Jing, Shuai Zhang, Adrien Bercher, Yinan Dong, Dorri Halbertal, Vibhu Ravindran, Zijian Zhou, Adrian Gozar, G. L. Carr, Qiang Li, Alexey B. Kuzmenko, Michael M. Fogler, D. N. Basov*, Xu Du* , Mengkun Liu*, Nature Nanotechnology (2023). https://doi.org/10.1038/s41565-023-01488-y .

49. Topological and stacked flat bands in bilayer graphene with a superlattice potential, SAA Ghorashi, A Dunbrack, A Abouelkomsan, J Sun, X Du, J Cano, Physical Review Letters 130 (19), (2023)

48. Momentum-resolved exciton coupling and valley polarization dynamics in monolayer WS2, Alice Kunin, Sergey Chernov, Jin Bakalis, Ziling Li, Shuyu Cheng, Zachary H. Withers, Michael G. White, Gerd Schönhense, Xu Du, Roland K. Kawakami, and Thomas K. Allison, Physical Review Letters 130, 046202 (2023)

47. Strain-tuned topological phase transition and unconventional Zeeman effect in ZrTe5 microcrystals, Apurva Gaikwad, Song Sun, Peipei Wang, Liyuan Zhang, Jennifer Cano, Xi Dai, Xu Du, Communications Materials 3, 94 (2022)

46. Uncovering Topological Edge States in Twisted Bilayer Graphene, Matthieu Fortin-Deschênes*, Rui Pu, Yan-Feng Zhou*, Chao Ma, Patrick Cheung, Kenji Watanabe, Takashi Taniguchi, Fan Zhang, Xu Du*, Fengnian Xia, Nano Letters, 22, 15, 6186–6193 (2022)

45. Scattering-type scanning near-field optical microscopy with Akiyama piezo-probes, M Dapolito, X Chen, C Li, M Tsuneto, S Zhang, X Du, M Liu, A Gozar, Applied Physics Letters 120 (1), 013104 (2022)

44. Quantum transport properties of near and well beyond the extreme quantum limit, Peipei Wang, Fangdong Tang, Peng Wang, Haipeng Zhu, Chang-Woo Cho, Junfeng Wang, Xu Du, Yonghong Shao, Liyuan Zhang, Physical Review B 103 (15), 155201 (2021)

43. Localizing fractional quasiparticles on graphene quantum hall antidots
SM Mills, DV Averin, X Du, Physical Review Letters 125 (22), 227701 (2020)

43. Moiré Band Topology in Twisted Bilayer Graphene
Chao Ma, Qiyue Wang, Scott Mills, Xiaolong Chen, Bingchen Deng, Shaofan Yuan, Cheng Li, Kenji Watanabe, Takashi Taniguchi, Xu Du*, Fan Zhang*, Fengnian Xia*, Nano Letters 20 (8), 6076-6083 (2020)

42. Bandgap opening in MoTe 2 thin flakes induced by surface oxidation
Yuan Gan, Jiyuan Liang, Chang-woo Cho, Si Li, Yanping Guo, Xiaoming Ma, Xuefeng Wu, Jinsheng Wen, Xu Du, Mingquan He, Chang Liu, Shengyuan A Yang, Kedong Wang, Liyuan Zhang, Frontiers of Physics 15 (3), 1-7 (2020)

41. In Situ Study of the Impact of Aberration-Corrected Electron-Beam Lithography on the Electronic Transport of Suspended Graphene Devices, N Mizuno, F Camino, X Du, Nanomaterials 10 (4), 666 (2020)

40. Dirac fermion quantum Hall antidot in graphene
Scott M. Mills, Anna Gura, Kenji Watanabe, Takashi Taniguchi, Matthew Dawber, Dmitri V. Averin, and Xu Du, Phys. Rev. B 100, 245130 (2019)

39. Thermal Conductivity of HfTe5: A Critical Revisit
T Feng, X Wu, X Yang, P Wang, L Zhang, X Du, X Wang, ST Pantelides, Advanced Functional Materials Volume30, Issue5, 1907286, 2020

38. Contact transparency in mechanically assembled 2D material devices
Scott Mills, Naomi Mizuno, Peng Wang, Jian Lyu, Kenji Watanabe, Takashi Taniguchi, Fernando Camino, Liyuan Zhang, Xu Du, Journal of Physics: Materials 2 (3), 035003 (2019)

37. Photo-induced terahertz near-field dynamics of graphene/InAs heterostructures
Ziheng Yao, Vyacheslav Semenenko, Jiawei Zhang, Scott Mills, Xiaoguang Zhao, Xinzhong Chen, Hai Hu, Ryan Mescall, Thomas Ciavatti, Stephen March, Seth R Bank, Tiger H Tao, Xin Zhang, Vasili Perebeinos, Qing Dai, Xu Du, Mengkun Liu. Optics Express 27 (10), 13611-13623 (2019)

36. Detecting the major charge-carrier scattering mechanism in graphene antidot lattices
D Xu, S Tang, X Du, Q Hao, Carbon 144, 601-607 (2019)

35. Terahertz Nanoimaging of Graphene
Jiawei Zhang, Xinzhong Chen, Scott Mills, Thomas Ciavatti, Ziheng Yao, Ryan Mescall, Hai Hu, Vyacheslav Semenenko, Zhe Fei, Hua Li, Vasili Perebeinos, Hu Tao, Qing Dai, Xu Du, and Mengkun Liu, ACS Photonics 5 (7), pp 2645–2651 (2018)

34. Large-Velocity Saturation in Thin-Film Black Phosphorus Transistors
Xiaolong Chen, Chen Chen, Adi Levi, Lothar Houben, Bingchen Deng, Shaofan Yuan, Chao Ma, Kenji Watanabe, Takashi Taniguchi, Doron Naveh, Xu Du*, and Fengnian Xia*, ACS Nano 12 (5), pp 5003–5010 (2018)

33. Random Gauge Field Scattering in Monolayer Graphene
F. Guan, X. Du, Nano Letters 17(11), 7009 (2017) DOI: 10.1021/acs.nanolett.7b03618

32. Magnetic field suppression of Andreev conductance at superconductor–graphene interfaces
P Kumaravadivel, S Mills, X. Du, 2D Materials 4(4), 045011 (2017)

31. Local control of the resistivity of graphene through mechanically induced switching of a ferroelectric superlattice
M. H. Yusuf, A. Gura, X. Du, M. Dawber, 2D Materials 4 (2), 021022, (2017)

30. Revealing the Origins of 3D Anisotropic Thermal Conductivities of Black Phosphorus
Jie Zhu, Haechan Park, Jun‐Yang Chen, Xiaokun Gu, Hu Zhang, Sreejith Karthikeyan, Nathaniel Wendel, Stephen A Campbell, Matthew Dawber, Xu Du, Mo Li, Jian‐Ping Wang, Ronggui Yang, Xiaojia Wang, Advanced Electronic Materials, Vol. 2, 10.1002/aelm.201600040 (2016)

29. Signatures of evanescent transport in ballistic suspended graphene-superconductor junctions
P Kumaravadivel, X Du, Scientific reports 6 (2016)

28. Tuning strain in flexible graphene nanoelectromechanical resonators
Fen Guan, Piranavan Kumaravadivel, Dmitri V. Averin and Xu Du, Appl. Phys. Lett. 107, 193102 (2015)

27. Ultrasensitive Graphene Far-Infrared Power Detectors
C.B. McKitterick, D.E. Prober, H. Vora, and X. Du, J. Phys. Condens. Matter 27 164203 (2015)

26. Extrinsic and Intrinsic Charge Trapping at the Graphene/Ferroelectric Interface.
M. Humed Yusuf, Bent Nielsen, M. Dawber, and X.Du. Nano Letters 14, 5437 (2014)

25. Bulk signatures of pressure-induced band inversion and topological phase transitions in Pb 1-xSn xSe.
Xiaoxiang Xi, Xu-Gang He, Fen Guan, Zhenxian Liu, R. D. Zhong, J. A. Schneeloch, T. S. Liu, G. D. Gu, D. Xu, Z. Chen, X. G. Hong, Wei Ku, and G. L. Carr. Physical Review Letters 113, 096401 (2014)

24. Graphene-based Bolometers.
Xu Du, Daniel E. Prober, Heli Vora, Christopher B. Mckitterick. Graphene and 2D materials, Volume 1, Issue 1, ISSN (Online) 2299-3134, DOI: 10.2478/gpe-2014-0001, (2014)

23. Graphene microbolometers with superconducting contacts for terahertz photon detection.
Christopher B. McKitterick, Heli Vora, Xu Du, Boris S. Karasik, Daniel E. Prober, Journal of Low Temperature Physics, DOI: 10.1007/s10909-014-1127-3 (2014)

22. Nonlinear vs. bolometric radiation response and phonon thermal conductance in graphene-superconductor junctions.
Heli Vora, Bent Nielsen and Xu Du, Journal of Applied Physics, 115, 074505 (2014)

21. Ballistic-like supercurrent in suspended graphene Josephson weak links.
Naomi Mizuno, Bent Nielsen and Xu Du, Nature Communications 4, 2716 (2013) DOI:10.1038/ncomms3716

20. Bolometric response in graphene based superconducting tunnel junctions.
Heli Vora, Piranavan Kumaravadivel, Bent Nielsen, and Xu Du, Applied Physics Letters 100, 153507 (2012)

19. Electronic properties of graphene: a perspective from scanning tunneling microscopy and magnetotransport.
Eva Y. Andrei, Guohong Li and Xu Du, Reports on Progress in Physics 75, 056501 (2012)

18. Mobility-dependent low frequency noise in graphene field effect transistors.
Yan Zhang, E. E. Mendez, and Xu Du, ACS Nano, 5 (10), pp 8124–8130 (2011)

17. Fractional quantum Hall effect in suspended graphene probed with two-terminal measurements.
I. Skachko, X. Du, F. Duerr, A. Luican, D. A. Abanin, L. S. Levitov and E.Y.Andrei, Philosophical Transactions of the Royal Society. A 13 vol. 368, no. 1932, 5403-5416 (2010)

16. Fractional quantum Hall effect in suspended graphene: Transport coefficients and electron interaction strength.
D. A. Abanin, I. Skachko, X. Du, E. Y. Andrei, L. S. Levitov, Physical Review B 81, 115410 (2010)

15. Fractional quantum Hall effect and insulating phase of Dirac electrons in graphene.
Xu Du, Ivan Skachko, Fabian Duerr, Adina Luican and Eva Y. Andrei, Nature, 462, 192-195 (2009)

14. Towards ballistic transport in Graphene.
Xu Du, Ivan Skachko, and Eva Y. Andrei, International Journal of Modern Physics B (IJMPB) 22, No: 25/26, 4579 (2008)

13. Approaching ballistic transport in suspended graphene.
Xu Du, Anthony Barker, Ivan Skachko, and Eva Y. Andrei, Nature Nanotechnology 3, 491 (2008)

12. Josephson Current and Multiple Andreev Reflections in Graphene SNS Junctions.
Xu Du, Ivan Skachko, and Eva Y. Andrei, Physical Review B 77, 184507 (2008) (selected as PRB Editors’Suggestions; selected for Virtual Journal of Applications of Superconductivity)

11. Aging memory and glassiness of a driven vortex system.
Xu Du, Guohong Li, Eva Y. Andrei, M. Greenblatt, P. Shuk, Nature Physics 3, 111 (2007)

10. Transparent, conductive carbon nanotube films.
Z. Wu, Z. Chen, X. Du, J. Logan, J. Sippel, M. Nikolou, K. Kamaras, J. R. Reynolds, D. B. Tanner, A. F. Hebard, A. G. Rinzler, Science 305, 1273 (2004)

9. Metal-insulator-like behavior in semimetallic bismuth and graphite.
Xu Du, Shan-wen Tsai, Dmitrii Maslov, and Arthur. F. Hebard, Physical Review Letters 94, 166601 (2005)

8. Onset of motion and glassy dynamics of a moving vortex lattice.
G Li, EY Andrei, X Du, ZL Xiao, P Shuk, M Greenblatt, Journal de Physique IV (Proceedings) 131, 101-106 (2005)

7. Bulk separative enrichment in metallic or semiconducting single-walled carbon nanotubes.
Z. Chen, X. Du, M. Du, D. Rancken, H. Cheng, and A.G. Rinzler, Nano Letters 3, 1245 (2003)

6. Contribution of interface capacitance to the electric-field breakdown in thin-film Al-AlOx-Al capacitors.
Singh-Bhalla, G., Du, X, and Hebard, A.F., Applied Physics Letters 83, 2417 (2003)

5. Large magnetoresistance of bismuth/gold films thermally deposited onto glass substrates.
Xu Du and A. F. Hebard, Applied Physics Letters 82, 2293 (2003)

4. Mosaic structure and its influence on carrier mobility in undoped hexagonal GaN thin film.
Du, X., Wang, Y.Z.; Cheng, L.L., Zhang, G.Y., Zhang, H., Materials Science & Engineering B (Solid-State Materials for Advanced Technology) B75, 228 (2000)

3. Calculation of modulus of elasticity between two blocks in YBa2Cu3O7-x.
X. Du, L.L. Cheng, L. Zhang, H. Zhang, Physica C 337, 204 (2000)

2. Relationship between superconducting transition temperature and combinative energy in YBa2Cu3O7.
Cheng Li-Li, Du Xu, Qin Xiao-Chuan, Zhang Han, Chinese Physics Letters 16, 446 (1999)

1. Relationship between cohesive energy and superconductivity in Hg-system superconductors.
Qin Xiao-Chuan, Du Xu, Zhang Han, Chinese Physics Letters 15, 745 (1998)