Dai-Nam Le - Publications

Dai-Nam Le 's publications

List of my submissions

All of my preprints be found on arxiv.org: https://arxiv.org/a/le_d_2.html

5. Modi Ke, Dai-Nam Le, Lilia M. Woods*; Casimir interactions and drift currents, Physics Review B, submitted on Nov-04-2025.

Abstract: We investigate the fluctuation–induced Casimir interactions between two parallel graphene sheets carrying steady-state drift currents. The graphene properties are modeled based on the shifted Fermi disk model to capture the non-equilibrium optical response of the system. We find that the drift current results in a repulsive correction to the vertical interlayer interaction. It also generates a lateral force that opposes the carrier flow direction. Both contributions are studied in terms of distance and drift velocity functionalities, showing pathways for Casimir force control. Contribution: Co-author.

4. Long Ma, Larissa Inácio, Dai-Nam Le, Lilia M. Woods *, and Mathias Boström *; Measurable sign changes in the magnetic Casimir force; Physical Review Materials, submitted on Sep-25-2025.

Abstract: We demonstrate quantum levitation controlled by magnetic Casimir forces acting between a Polystyrene surface and a Teflon-coated metallic substrate immersed in a mixture of Toluene and magnetite particles. This system experiences repulsion-attraction transitions in the Casimir interaction for distances where the effect is measurable. This Casimir trapping can be controlled by clever choices of metallic and ferrofluid materials which are directly linked to the emergence of the trapping effect. Thermal and quantum contributions are investigated in detail showing how the optical and magnetic properties of the ferrofluid and other materials affect the magnitude of the trapping and its distance range of observability.Contribution: Co-author

3. Pablo Rodriguez-Lopez, Dai-Nam Le, Lilia M. Woods *; Phononic Casimir Effect in Planar Materials; Physical Review Letters, submitted on Aug-13-2025.

Abstract: The Phononic Casimir effect between planar objects is investigated by deriving a formalism from the quantum partition function of the system following multiscattering approach. This fluctuation-induced coupling is mediated by phonons modeled as an effective elastic medium. We find that excitations with three types of polarizations arise from the resolved boundary conditions, however the coupling is dominated by only one of these degrees of freedom due to exponential suppression effects in the other two. The obtained scaling laws and dependence on materials properties and temperature suggest effective pathways of interaction control. Scenarios of materials combinations are envisioned where the Phononic Casimir effect is of similar order as the standard Casimir interaction mediated by electromagnetic fluctuations.

Arxiv: https://arxiv.org/abs/2512.02815

Contribution: Co-author.

2. Dai-Nam Le, Pablo Rodriguez-Lopez, Lilia M. Woods *; Quantum stick-slip motion in nanoscaled friction; Quantum (journal), submitted on Feb-23-2025.

Abstract: Friction in atomistic systems is usually described by the classical Prandtl-Tomlinson model suitable for capturing the dragging force of a nanoparticle in a periodic potential. Here we consider the quantum mechanical version of this model in which the dissipation is facilitated by releasing heat to an external bath reservoir. The time evolution of the system is captured with the Liouville-von Neumann equation through the density matrix of the system in the Markov approximation. We examine several kinetic and dissipative properties of the nanoparticle by delineating classical vs quantum mechanical effects. We find that that the Landau-Zener tunneling is a key factor in the overall reduction of the frictional dissipation when compared to the classical motion in which such tunneling is absent. This in-depth study analyzes the interplay between velocity, strength of interaction, and temperature to control the frictional process and provide useful guidelines for experimental data interpretation.

Arxiv: https://arxiv.org/abs/2502.14207

Contribution: First author.

1. Da Zhou†, Yen Thi Hai Pham†, Diem Thi-Xuan Dang†, David Sanchez, Aaryan Oberoi, Ke Wang, Andres Fest, Alexander Sredenschek, Mingzu Liu, Humberto Terrones, Saptarshi Das, Dai-Nam Le, Lilia M. Woods, Manh-Huong Phan*, and Mauricio Terrones*; Vanadium-Doped Molybdenum Disulfide Monolayers with Tunable Electronic and Magnetic Properties: Do Vanadium-Vacancy Pairs Matter?; ACS Nano, submitted on Jan-26-2024.

Abstract: Monolayers of molybdenum disulfide (MoS2) are the most studied two-dimensional (2D) transition-metal dichalcogenides (TMDs), due to their exceptional optical, electronic, and opto-electronic properties. Recent studies have shown the possibility of incorporating a small amount of magnetic transition metals (e.g., Fe, Co, Mn, V) into MoS2 to form a 2D dilute magnetic semiconductor (2D-DMS). However, the origin of the observed ferromagnetism has remained elusive, due to the presence of randomly generated sulfur vacancies during synthesis that can pair with magnetic dopants to form complex dopant-vacancy configurations altering the magnetic order induced by the dopants. By combining high-angle annular dark-field scanning transmission electron microscopy (HAADF-STEM) imaging with first-principles density functional theory (DFT) calculations and magnetometry data, we demonstrate the critical effects of sulfur vacancies and their pairings with vanadium atoms on the magnetic ordering in V-doped MoS2 (V-MoS2) monolayers. Additionally, we fabricated a series of field effect transistors on these V-MoS2 monolayers and observed the emergence of p-type behavior as the vanadium concentration increased. Our study sheds light on the origin of ferromagnetism in V-MoS2 monolayers and provides a foundation for future research on defect engineering to tune the electronic and magnetic properties of atomically thin TMD-based DMSs.

Arxiv e-print: https://arxiv.org/abs/2401.16806

Contribution: Co-author. Analyzing theoretical results of magnetic and half-metallic of V-doped MoS2.

List of my SCI/SCIE/Scopus publications

Note: From 2020, Web of Science integrated SCI into SCIE and hence journals are only indexed in SCIE.* = corresponding author; † = equal contribution.

39. Long Ma, Dai-Nam Le, and Lilia M. Woods *; Radiative Heat Transfer and 2D Transition Metal Dichalcogenide Materials; The Journal of Physical Chemistry Letters 16, 11348-11355 (2025).

Arxiv: https://arxiv.org/abs/2508.06658

Contribution: Co-author. "The project was conceived and designed by L.M.W. The simulations were performed by performed by L.M and the modeling was done by D.N.L. The analysis and manuscript writing was done by L.M.W and L.M. with contributions from D.N.L."SCIE/Scopus, IF = 4.700, Q-Scimagojr = Q1, H-index = 265 in 2024.

38. Duy-Nhat Ly, Dai-Nam Le, Dang-Khoa D. Le, and Van-Hoang Le *; Retrieval of fundamental material parameters of monolayer transition metal dichalcogenides from experimental exciton energies: An analytical approach; Physical Review B 112, 165417 (2025).

Arxiv: https://arxiv.org/abs/2504.14187

Contribution: Co-author. "V.-H.L., D.-N.Ly, and D.-N.Le conceptualized the work and performed analytical formulation; D.-N.Ly, D.- K.D.L., and V.-H.L. carried out numerical calculations; V.-H.L., D.-N.Ly, and D.-N.Le analyzed data, V.-H.L., D.-N.Ly, and D.-N.Le wrote and edited the manuscript."SCIE/Scopus, IF = 3.700, Q-Scimagojr = Q1, H-index = 517 in 2024.

37. Diem Thi-Xuan Dang, Yen Thi-Hai Pham, Da Zhou, Dai-Nam Le, Mauricio Terrones, Manh-Huong Phan *, and Lilia M. Woods *; Interface Magnetism in Vanadium-doped MoS2/Graphene Heterostructures; RSC Applied Interfaces 2, 1650-1660 (2025)

Arxiv: https://arxiv.org/abs/2504.18652

Contribution: Co-author. Scopus, in 2024.

36. Diem Thi-Xuan Dang *, Dai-Nam Le, and Lilia M. Woods *; Twisting in h-BN bilayers and their angle-dependent properties; Physical Review B, 112, 085102 (2025).

Arxiv: https://arxiv.org/abs/2503.03099

Contribution: Co-author. "D.N.L. performed the analysis".SCIE/Scopus, IF = 3.700, Q-Scimagojr = Q1, H-index = 517 in 2024.

35. Diem Thi-Xuan Dang, Dai-Nam Le, and Lilia M. Woods; Dissecting van der Waals interactions with Density Functional Theory Wannier-basis approach; Computer Physics Communications 310, 109525 (2025).

Arxiv e-print: https://arxiv.org/abs/2406.11658

Source code: https://github.com/Diem-TX-Dang/vdW-MBDWan-code/tree/main

https://figshare.com/articles/software/vdW-WanMBD_package/26023024/2

SCIE/Scopus, IF = 3.400, Q-Scimagojr = Q1, H-index = 221 in 2024.Contribution: Co-author."Diem Thi-Xuan Dang: Methodology, Investigation, Data curation. Dai-Nam Le: Validation, Methodology, Investigation, Formal analysis. Lilia M. Woods: Writing – original draft, Supervision, Formal analysis, Conceptualization."

34. Hanh T. Dinh, Ngoc-Hung Phan, Duy-Nhat Ly, Dai-Nam Le, Ngoc-Tram D. Hoang, Nhat-Quang Nguyen, Phuoc-Thien Doan, and Van-Hoang Le *; Analytical expression for exciton energies in monolayer transition metal dichalcogenides; Physical Review B 111, 035443 (2025).

Arxiv e-print: https://arxiv.org/abs/2407.01477

SCIE/Scopus, IF = 3.700, Q-Scimagojr = Q1, H-index = 517 in 2024.Contribution: Co-author."V.-H. Le conceptualized the work; V.-H. Le, H.T. Dinh, and Dai-Nam Le performed analytical formulation, N.-H. Phan, Duy-Nhat Ly, N.-Q. Nguyen, and P.-T. Doan carried out numerical calculations; V.-H. Le, Dai-Nam Le, H.T. Dinh, and N.-T. D. Hoang analyzed data; V.-H. Le and Dai-Nam Le wrote and edited the manuscript".

33. Long Ma, Dai-Nam Le, Philippe Ben-Abdallah, Lilia M. Woods *; Bulk Layered Materials and their Monolayer Counterparts for Radiative Heat Transfer; ACS Applied Optical Materials 3, 31 (2025).

ESCI/Scopus, IF = 3.800, Q-Scimagojr = Q2, H-index = 12 in 2024.Contribution: co-author, analytical approximation to obtain distance scaling laws of near field radiative heat transfer.

32. Dai-Nam Le, Pablo Rodriguez-Lopez, Lilia M. Woods *; Phonon-assisted Casimir interactions between piezoelectric materials; Communications Materials 5, 260 (2024).

Arxiv e-print: https://arxiv.org/abs/2408.13368

SCIE/Scopus, IF = 9.600, Q-Scimagojr = Q1, H-index = 44 in 2024.Contribution: First author.

31. Dai-Nam Le, Pablo Rodriguez-Lopez, Lilia M. Woods *; Nonlinear effects in many-body van der Waals interactions, Physical Review Research 6, 013289 (2024).

Arxiv e-print: https://arxiv.org/abs/2307.13607

ESCI/Scopus, IF = 3.500, Q-Scimagojr = Q1, H-index = 67 in 2023.Contribution: First author.

30. Pablo Rodriguez-Lopez, Dai-Nam Le, Igor V. Bondarev, Mauro Antezza, Lilia M. Woods *; Giant anisotropy and Casimir phenomena: the case of carbon nanotube metasurfaces, Physical Review B 109, 035422 (2024).

Arxiv e-print: https://arxiv.org/abs/2311.05001

SCIE/Scopus, IF = 3.200, Q-Scimagojr = Q1, H-index = 497 in 2023.Contribution: Co-author.

29. Duy-Nhat Ly †, Dai-Nam Le †, Duy-Anh P. Nguyen, Ngoc-Tram D. Hoang, Ngoc-Hung Phan, Hoang-Minh L. Nguyen, Van-Hoang Le *; Retrieval of material properties of monolayer transition-metal dichalcogenides from magnetoexciton energy spectra, Physical Review B 107, 205304 (2023).

Arxiv e-print: https://arxiv.org/abs/2303.08089

SCIE/Scopus, IF = 3.700, Q-Scimagojr = Q1, H-index = 481 in 2022.Contribution: Co-first author.

28. Duy-Nhat Ly †, Dai-Nam Le †, Ngoc-Hung Phan, Van-Hoang Le *; Thermal effect on magnetoexciton energy spectra in monolayer transition metal dichalcogenides, Physical Review B 107, 155410 (2023).

Arxiv e-print: https://arxiv.org/abs/2209.13682

SCIE/Scopus, IF = 3.700, Q-Scimagojr = Q1, H-index = 481 in 2022.Contribution: Co-first author.

27. Pablo Rodriguez-Lopez, Dai-Nam Le, María J. Calderón, Elena Bascones, Lilia M. Woods *; Twisted bilayered graphenes at magic angles and Casimir interactions: correlation-driven effects, 2D Materials 10, 014006 (2023).

Arxiv e-print: https://arxiv.org/abs/2210.02378

SCIE/Scopus, IF = 5.500, Q-Scimagojr = Q1, H-index = 87 in 2022.Contribution: Co-author. P. R.-L. and D.-N. L. performed calculations for the Casimir interactions and torques.

26. Dai-Nam Le †, Le Phuong Hoang †, Binh Xuan Cao *; Duality-symmetric axion electrodynamics and haloscopes of various geometries; Journal of Cosmology and Astroparticle Physics 2022, 08, 039 (2022).

Arxiv e-print: https://arxiv.org/abs/2107.04301

SCIE/Scopus, IF = 7.280, Q-Scimagojr = Q2, H-index = 127 in 2021.Contribution: First author.

25. Dai-Nam Le, Van-Hoang Le *; Algebraic structure underlying spherical, parabolic and prolate spheroidal bases of the nine-dimensional MICZ-Kepler problem, Journal of Mathematical Physics 63, 052103 (2022).

Arxiv e-print: https://arxiv.org/abs/2106.02313

SCIE/Scopus, IF = 1.469, Q-Scimagojr = Q2, H-index = 112 in 2021.Contribution: First author.

24. Dai-Nam Le, Pablo Rodriguez-Lopez, Lilia M. Woods *; Dispersive interactions between standard and Dirac materials and the role of dimensionality; Journal of Physics: Materials 5, 034001 (2022).

Arxiv e-print: https://arxiv.org/abs/2205.14019

SCIE/Scopus, IF = 5.847, Q-Scimagojr = Q1, H-index = 17 in 2021.Contribution: First author.

23. Dai-Nam Le, Hieu T. Nguyen-Truong *; Analytical formula for electron inelastic mean free path; Journal of Physical Chemistry C 125, 18946 (2021).

SCIE/Scopus, IF = 4.126, Q-Scimagojr = Q1, H-index = 289 in 2020Contribution: First author.

22. Anh-Luan Phan, Dai-Nam Le *; Electronic transport in two-dimensional strained Dirac materials under multi-step Fermi velocity barrier: transfer matrix method for supersymmetric systems, European Physical Journal B 94, 165 (2021).

Arxiv e-print: https://arxiv.org/abs/2106.10902

SCIE/Scopus, IF = 1.500, Q-Scimagojr = Q2, H-index = 130 in 2020Contribution: Corresponding author.

21. Dai-Nam Le *, Van-Hoang Le, Pinaki Roy *; Modulation of Landau levels and de Haas-van Alphen oscillation in magnetized graphene by uniaxial tensile strain/ stress, Journal of Magnetism and Magnetic Materials 522, 167473 (2021).

Arxiv e-print: https://arxiv.org/abs/2009.14423

SCIE/Scopus, IF = 2.993 , Q-Scimagojr = Q2, H-index = 172 in 2020Contribution: First and Co-corresponding author.

20. Dai-Nam Le *, Van-Hoang Le, Pinaki Roy *; Graphene under uniaxial inhomogeneous strain and an external electric field: Landau levels, electronic, magnetic and optical properties, European Physical Journal B 93, 158 (2020).

SCIE/Scopus, IF = 1.347, Q-Scimagojr = Q2, H-index = 120 in 2019Contribution: First and Co-corresponding author.

19. Dai-Nam Le *, Van-Hoang Le *, Pinaki Roy *; Orbital magnetization in axially symmetric two-dimensional carbon allotrope: influence of electric field and geometry, Journal of Physics: Condensed Matter 32, 385703 (2020).

SCIE/Scopus. IF = 2.707, Q-Scimagojr = Q1, H-index = 210 in 2019.Contribution: First and Co-corresponding author.

18. Anh-Luan Phan, Dai-Nam Le *, Van-Hoang Le, Pinaki Roy *; Electronic spectrum in 2D Dirac materials under strain, Physica E: Low-dimensional Systems and Nanostructures 121, 114084 (2020).

SCIE/Scopus, IF = 3.570, Q-Scimagojr = Q2, H-index = 88 in 2019Contribution: Co-corresponding author.

Related correction: Anh-Luan Phan, Dai-Nam Le *, Van-Hoang Le, Pinaki Roy *; Corrigendum to “Electronic spectrum in 2D Dirac materials under strain” [Phys. E Low-dimens. Syst. Nanostruct. 121 (2020) 114084], Physica E: Low-dimensional Systems and Nanostructures 124, 114333(2020).

17. Ho Kim Dan *, Nguyen Minh Ty, Tran Duy Tap, Dai-Nam Le, L. T. Vinh, Dacheng Zhou, Jianbei Qiu; Energy transfer and spectroscopic properties of Cr3+/Yb3+ co-doped TeO2–ZnO–La2O3 tellurite glasses under different wavelength excitation lights, Optical Materials 100, 109662 (2020).

SCIE/Scopus, IF = 2.779 , Q-Scimagojr = Q1, H-index = 98 in 2019. Contribution: Co-author, methodology, performing fitting calculation for analyzing data

16. Anh-Luan Phan *, Dai-Nam Le, Van-Hoang Le, Pinaki Roy; Electronic spectrum of spherical fullerene molecules in the presence of generalized magnetic fields, European Physical Journal Plus, 135, 6 (2020).

SCIE/Scopus, IF = 3.228 , Q-Scimagojr = Q2, H-index = 46 in 2019.Contribution: co-author, constructing the general formula to find the new supersymmetric magnetic field as well as its properties.

15. Le Phuong Hoang, Dai-Nam Le, Duc An Pham, Thi My An Nguyen, Xuan Cuong Ngo, Thai Duong Hoang, Thanh-Binh Nguyen, Binh Xuan Cao *; High-precision measurement of Cooper-pair mass using rotating spherical-shell superconductor, Materials Letters 262, 127176 (2020).

SCIE/Scopus, IF = 3.204, Q-Scimagojr = Q1, H-index = 135 in 2019.Contribution: Co-author, theoretically explain how relativistic effect contributes to measurements.

Related correction: Le Phuong Hoang, Dai-Nam Le, Duc An Pham, Thi My An Nguyen, Xuan Cuong Ngo, Thai Duong Hoang, Thanh-Binh Nguyen, Binh Xuan Cao *; Corrigendum to “High-precision measurement of Cooper-pair mass using rotating spherical-shell superconductor” [Mater. Lett. 262 (2020) 127176], Materials Letters 281, 128597 (2020).

14. Ho Kim Dan *, Dai-Nam Le, Hieu T. Nguyen-Truong, Tran Duy Tap, Ha Xuan Vinh, Nguyen Minh Ty, Rongfei Wang, Dacheng Zhou, Jianbei Qiu; Effects of Y3+ on the enhancement NIR emission of Bi+-Er3+ co-doped in transparent silicate glass-ceramics for Erbium-doped fiber amplifier (EDFA), Journal of Luminescence 219, 116942 (2020).

SCIE/Scopus, IF = 2.280, Q-Scimagojr = Q2, H-index = 110 in 2019.Contribution: Co-author, semi-theoretically calculating the absorption, emission cross-sections and gain coefficient via McCumber theory to evaluate the potential for gain medium.

13. Dai-Nam Le *, Phong-Su Luu, Thanh-Sang Ha, Ngoc-Hung Phan, Van-Hoang Le; Bound states of (2 + 1)−dimensional massive Dirac fermions in a Lorentzian-shaped inhomogeneous perpendicular magnetic field, Physica E: Low-dimensional Systems and Nanostructures 116, 113777 (2020).

SCIE/Scopus, IF = 3.570, Q-Scimagojr = Q2, H-index = 88 in 2019Contribution: First and Corresponding author.

12. Dai-Nam Le, Anh-Luan Phan, Van-Hoang Le, Pinaki Roy *; Relativistic Coulomb problem in curved spaces, EPL (Europhysics Letters) 127, 10005 (2019)

SCI/Scopus, IF = 1.886, Q-Scimagojr = Q2, H-index = 144 in 2018Contribution: First author.

11. Anh-Luan Phan, Dai-Nam Le *, Van-Hoang Le, Pinaki Roy; The influence of electric field and geometry on relativistic Landau levels in spheroidal fullerene molecules, Physica E: Low-dimensional Systems and Nanostructures 114, 113639 (2019).

SCI/Scopus, IF = 3.176, Q-Scimagojr = Q2, H-index = 82 in 2018.Contribution: Corresponding author.

10. Dai-Nam Le, Ngoc-Hung Phan, Tuan-Quoc N. Thoi and Van-Hoang Le *; Parabolic, prolate spheroidal bases and relation between bases of the nine-dimensional MICZ-Kepler problem, Journal of Mathematical Physics, 60, 062102 (2019).

SCI/Scopus, IF = 1.355, Q-Scimagojr = Q2, H-index = 96 in 2018Contribution: First author.

09. Duy-Anh Nguyen, Duy-Nhat Ly, Dai-Nam Le, Ngoc-Tram Hoang, Van Hoang Le *; High-accuracy energy spectra of a two-dimensional exciton screened by reduced dimensionality with the presence of a constant magnetic field, Physica E: Low-dimensional Systems and Nanostructures 113, 152 (2019);

SCI/Scopus, IF = 3.176, Q-Scimagojr = Q2, H-index = 82 in 2018.Contribution: Co-author, Investigating properties of Keldysh potential and proposing the calculation model for determining numerically binding energy between electron and hole in two-dimensional monolayer systems.

08. Dai-Nam Le, Van-Hoang Le, Pinaki Roy *; Electric field and curvature effects on relativistic Landau levels on a pseudosphere, Journal of Physics: Condensed Matter 31, 305301 (2019);

SCI/Scopus. IF = 2.711, Q-Scimagojr = Q1, H-index = 197 in 2018.Contribution: First author.

07. Dai-Nam Le, Anh-Luan Phan, Van-Hoang Le, Pinaki Roy *; Spherical fullerene molecules under the influence of electric and magnetic fields, Physica E: Low-dimensional Systems and Nanostructures 107, 60 (2019).

SCI/Scopus, IF = 3.176, Q-Scimagojr = Q2, H-index = 82 in 2018.Contribution: First author.

06. Dai-Nam Le, Van-Hoang Le and Pinaki Roy *; Generalized harmonic confinement of massless Dirac fermions in (2+ 1) dimensions, Physica E: Low-dimensional Systems and Nanostructures 102, 66 (2018). Arxiv e-print: https://arxiv.org/abs/1804.08268

SCI/Scopus, IF = 2.399, Q-Scimagojr = Q2, H-index = 77 in 2017.Contribution: First author.

05. Ngoc-Hung Phan, Dai-Nam Le *, Tuan-Quoc N. Thoi, Van-Hoang Le; Variables separation and superintegrability of the nine-dimensional MICZ-Kepler problem, Journal of Mathematical Physics 59, 032102 (2018).

SCI/Scopus, IF = 1.165, Q-Scimagojr = Q2, H-index = 91 in 2017Contribution: Corresponding author, variables' separation of the nine-dimensional MICZ-Kepler problem.

04. Dai-Nam Le *, Ngoc-Tram D. Hoang, Van-Hoang Le; Exact analytical solutions of the Schrödinger equation for a two dimensional purely sextic double-well potential, Journal of Mathematical Physics 59, 032101 (2018).

SCI/Scopus, IF = 1.165, Q-Scimagojr = Q2, H-index = 91 in 2017Contribution: First and Corresponding author.

03. Dai-Nam Le, Van-Hoang Le and Pinaki Roy *; Conditional electron confinement in graphene via smooth magnetic fields, Physica E: Low-dimensional Systems and Nanostructures 96, 17 (2018). Arxiv e-print: https://arxiv.org/abs/1711.04509

SCI/Scopus, IF = 2.399, Q-Scimagojr = Q2, H-index = 77 in 2017.Contribution: First author.

02. Dai-Nam Le, Ngoc-Tram D. Hoang *, Van-Hoang Le; Exact analytical solutions of a two dimensional hydrogen atom in a constant magnetic field, Journal of Mathematical Physics 58, 042102 (2017).

SCI/Scopus, IF = 1.165, Q-Scimagojr = Q2, H-index = 91 in 2017Contribution: First author.

01. Thanh-Son Nguyen, Dai-Nam Le, Tuan-Quoc N. Thoi, Van-Hoang Le *; Exact analytical solutions of the Schrödinger equation for the nine-dimensional MICZ-Kepler problem, Journal of Mathematical Physics 56, 052103 (2015).

SCI/Scopus, IF = 1.234, Q-Scimagojr= Q2, H-index = 89 in 2015
Contribution: Co-author, build hyperspherical harmonics function from coupling problem and calculate degeneration degree of energy.

List of my non SCI(ISI)/Scopus publications

5. Dai-Nam Le and Van-Hoang Le *, Normed division algebras application to the monopole physics, Communications in Physics 31, 235 (2021). ISSN = 0868-3166

4. Le Dai Nam *, Phan Anh Luan, Luu Phong Su and Phan Ngoc Hung; A family of analytically solvable Schrödinger equations related by Levi-Civita transformation, HCMUE J. Sci.:Nat. Sci. Tech. 16, 103 (2019). ISSN = 1859-3100

3. Nguyen Huu Phuoc, Tran Dinh Bao Tran, Le Dai Nam and Hoang Do Ngoc Tram; The Cudazzo-like screening potential and the matrix elements of exciton in two dimension in magnetic field, HCMUE J. Sci.:Nat. Sci. Tech. 15, 136 (2018). ISSN = 1859-3100

2. Le Dai Nam and Hoang Do Ngoc Tram; Binding energy of exciton in monolayer semiconductor WS2 with Yukawa-like screening potential, HCMUE J. Sci.:Nat. Sci. Tech. 14, 43 (2017). ISSN = 1859-3100

1. Nguyễn Thành Sơn, Thới Ngọc Tuấn Quốc, Lê Đại Nam, Lê Văn Hoàng; Lời giải chính xác cho bài toán MICZ-Kepler chín chiều, HCMUE J. Sci.:Nat. Sci. Tech. 58, 97 (2014). ISSN = 1859-3100

List of conference presentations

22. Dai-Nam Le *, Pablo Rodriguez-Lopez, Lilia M. Woods; Quantum Control of Stick-Slip Friction at the Nanoscale: Insights from the Prandtl-Tomlinson Framework, Oral at USF Postdoctoral Lightning Talk Competition, (2025).

21. Dai-Nam Le *, Pablo Rodriguez-Lopez, Lilia M. Woods; Quantum Insights into Stick-Slip Phenomena in Nanoscale Tribology, Oral - 1.40 at XXXVI IUPAP Conference on Computational Physics (CCP2025), (2025)

20. Diem Thi-Xuan Dang, Dai-Nam Le *, Lilia M. Woods; vdW-WanMBD: A Wannier-Based DFT Toolkit for calculating van der Waals interactions, Oral - 1.39 at XXXVI IUPAP Conference on Computational Physics (CCP2025), (2025)

19. Modi Ke *, Dai-Nam Le, L. M. Woods.; Fluctuation-Induced Forces in Current-Carrying Graphene, Oral - MAR-F28.00005 at APS Global Physics Summits 2025 (Joint APS March and April Meetings), (2025).

18. Dai-Nam Le *, L. M. Woods.; Landau-Zener Tunneling in Dissipative Systems: quantum stick-slip nanofriction, contributed talk at Quantum Matter and Machine Learning Workshop, St. Peterburg, Florida, USA, (2025).

17. L. M. Woods *, Dai-Nam Le; Quantum Friction and Landau-Zener Tunneling in Dissipative Systems, contributed talk at The 823 Wilhelm und Else Heraeus Stiftung Seminar (WE-Heraeus Seminar), (2024).

16. Dai Nam Le *, Pablo Rodriguez-Lopez, Lilia Woods; Phonon-assisted Casimir interactions: the case of piezoelectric materials, Oral - D54.00003 at APS March Meeting 2024, (2024).

15. Thi Xuan Diem Dang *, Dai Nam Le, Lilia Woods; Many-body dispersion interactions using Wannier functions with an application to 2D materials., Oral - Q58.00004 at APS March Meeting 2024, (2024).

14. Long Ma *, Dai Nam Le, Lilia Woods; Near field heat transfer and related phenomena in 2D materials, Oral - M64.00001 at APS March Meeting 2024, (2024).

13. Dai-Nam Le *, Pablo Rodriguez-Lopez, Lilia M. Woods; Role of dimensionality and Band dispersion on van der Waals interactions, Oral - 3B-04 at The Workshop on Advanced Science and Technology WAST 2023, held by Science and Technology Advanced Institute, Van Lang University, Vietnam (2023).

12. Diem Thi-Xuan Dang *, Dai-Nam Le, Adrian Popescu, Lilia Woods; Van der Waals interactions in Density Functional Theory using Wannier functions with an application to layered materials, Poster - 44 at 2023 USF Annual Graduate Student Research Symposium, (2023).

11. Dai Nam Le *, Lilia Woods; Nonlinear effects in Many-body van der Waals Interactions, Poster - P.7 at 2023 USF Annual Postdoctoral Research Symposium, (2023).

10. Dai Nam Le *, Lilia Woods; Nonlinear effects in Many-body van der Waals Interactions, Oral - N17.00010 at APS March Meeting 2023, (2023).

9. Dai Nam Le *, Pablo Rodriguez-Lopez, Maria Calderon, Elena Bascones, Lilia Woods; Twisted bilayered graphenes at magic angles and their Casimir interactions, Oral - F21.00001 at APS March Meeting 2023, (2023).

8. L. W. Woods *, D.-N. Le, P. Rodriguez-Lopez; Standard and Dirac materials: band structure and dimensionality effects in dispersive interactions, invited talk at The 729 Wilhelm und Else Heraeus Stiftung Seminar (WE-Heraeus Seminar) , (2022).

7. Dai-Nam Le *, Van-Hoang Le, Pinaki Roy; Orbital magnetization in axially symmetric two-dimensional carbon allotrope: influence of electric field and geometry, Oral - O.10 at The 46th Vietnam Conference on Theoretical Physics - VCTP 46, (2021).

6. Dai-Nam Le *, Phong-Su Luu, Thanh-Sang Ha, Ngoc-Hung Phan , Van-Hoang Le; Bound states of (2 + 1)−dimensional massive Dirac fermions in a Lorentzian-shaped inhomogeneous perpendicular magnetic field, Poster - P.53 at The 46th Vietnam Conference on Theoretical Physics - VCTP 46, (2021)

5. Dai-Nam Le *; Graphene under uniaxial inhomogeneous strain and an external electric field: Landau levels, electronic, magnetic and optical properties, Oral 04 at The Workshop on Quantum Science and Technology - QST 2020 (2020).

4. Dai-Nam Le *, Anh-Luan Phan, Van-Hoang Le and Pinaki Roy; Effects of electric field and curvature on relativistic Landau levels in some carbon-nanostructures, Poster 02 at The 1st NCKU-TDTU Joint International Symposium on Materials Science - ISMS 2019 (2019).

3. Dai-Nam Le * and Van-Hoang Le; Algebraic relation between bases of the nine-dimensional MICZ-Kepler problem, Poster – P. 43 at The 44th Vietnam Conference on Theoretical Physics - VCTP 44, (2019).

2. Le Dai Nam and Hoang Do Ngoc Tram *; Energy of exciton in monolayer semiconductor WS2 with taken into account of modified Yukawa screening potential, Poster – P. 41 at The 42nd National Conference on Theoretical Physics - NCTP 42, (2017).

1. Le Dai Nam * and Le Van Hoang; Octonionic representation of the nine-dimensional Micz-Kepler problem, Oral – O.16 at The 41st National Conference on Theoretical Physics - NCTP 41, (2016)

List of Review in AMS-Mathematical Review

6. N. Belousov, S. Derkachov, S. Kharchev, S. Khoroshkin; Zap. Nauchn. Sem. S.-Peterburg. Otdel. Mat. Inst. Steklov. (POMI) 520, 50-123 (2023). MR4614757

5. I. Bialynicki-Birula, Z. Bialynicka-Birula, Zofia; J. Phys. A 56, no.28, 285302 (2023). MR4609279

4. A. Smilga; Internat. J. Modern Phys. A 37, no.17, 2250119 (2022). MR4468147

3. M. Kirchbach, J. A Vallejo; J. Phys. A: Math. Theor. 56, 125302 (2023). MR4561281

2. R. Budaca; Ann. Acad. Rom. Sci. Ser. Math. Appl. 12, no. 1-2, 87-98 (2020). MR4184498

1. P. Iliev, Y. Xu; Adv. Math. 364, 107032 (2020). MR4062926

List of being acknowledged

7. M. Furst et al.; Dirac Landau levels for surfaces with constant negative curvature, Physical Review B 109, 195433 (2024).

6. Hieu T. Nguyen-Truong; Two-dimensional Wannier-Mott exciton diamagnetic shift, Physical Review B 107, L201407 (2023).

5. N. Auerbach and Bui Minh Loc; Coulomb corrections to Fermi beta decay in nuclei, Nuclear Physics A 1027, 122521 (2022).

4. L. T. Dat, L. H. Nguyen et al.; Dependence of specific absorption rate on concentration of Fe3O4 nanoparticles: from the prediction of Monte Carlo simulations to experimental results, Journal of Nanoparticle Research 24, 214 (2022).

3. Diem Thi-Xuan Dang et al.; The electronic structures and magnetic properties of mixed-valence Fe-based metal–organic VNU-15 frameworks: a theoretical study from linear response DFT+U calculations, RSC Advances 10, 34690 (2020).

2. L.T.T.Ngan et al.; Magnetic and transport behaviors of Co substitution in La0.7Sr0.3MnO3 perovskite, Journal of Alloys and Compounds 911, 164967 (2022)

1. D.M. Hoat et al.; LiCl monolayer for UV detection: First principles prediction, Physica E: Low-dimensional Systems and Nanostructures 123, 114168, (2020).

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