Department of Physics
 
   
 
Home Research People Facilities Tools Publications
 
 

Peer Reviewed Articles

2017

  • K. Wei, A.R. Khabibullin, T. Stedman, L.M. Woods, and G.S. Nolas, Polaronic transport in quaternary chalcogenides, J. Appl. Phys. 122, 105109 (2017) [pdf]
  • T. Stedman and L. M. Woods, Cloaking of thermoelectric transport, Sci. Rep. 7, 6988 (2017) [pdf]
  • A.R. Khabibullin, T.D. Huan, G.S. Nolas, and L.M. Woods, Cage disorder and gas encapsulation as routes to tailor properties of inorganic clathrates, Acta Mater. 131, 475 (2017) [pdf]
  • P. Rodriguez-Lopez, W.J.M. Kort-Kamp, D.A.R. Dalvit, and L.M. Woods, Casimir force phase transitions in the graphene family, Nat. Comm. 8, 14699 (2017) [pdf], [SI]

2016

  • L.M. Woods, D.A.R. Dalvit, A. Tkatchenko, P. Rodriguez-Lopez, A.W. Rodriguez, and R. Podgornik, Materials Perspective on Casimir and van der Waals Interactions, Rev. Mod. Phys. 88, 045003 (2016) [pdf]
  • K. Wei, X. Zeng, T.M. Tritt, A.R. Khabibullin, L.M. Woods, and G.S. Nolas, Structure and transport properties of dense polycrystalline clathrate-II (K,Ba)16(Ga,Sn)136 synthesized by a new approach employing SPS, Materials 9, 732 (2016) (Special Issue, "Inorganic Clathrate Materials") [pdf]
  • N. Khusnutdinov, R. Kashparov, and L. M. Woods, The Casimir-Polder effect for a stack of conductive planes, Phys. Rev. A 94, 012513 (2016) [pdf]
  • N.B. Le and L.M. Woods, Graphene nanoribbons anchored to SiC substrates, J. Phys.: Cond. Matter 28, 364001 (2016) (Special issue, "Interfaces and heterostructures of van der Waals materials") [pdf]
  • N. B. Le, T. D. Huan, and L. M. Woods, Interlayer Interactions in van der Waals Heterostructures: Electron and Phonon Properties, ACS Appl. Mater. & Interfaces 8, 6286 (2016) [pdf]
  • T.D. Huan, V.N. Tuoc, N.B. Le, N.V. Minh, and L.M. Woods, High-pressure phases of magnesium silicide Mg2Si from first principles, Phys. Rev. B 93, 094109 (2016) [pdf]
  • D. Drosdoff, I.V. Bondarev, A. Widom, R. Podgornik, and L.M. Woods, Charge induced fluctuation forces in graphitic nanostructures, Phys. Rev. X 6, 011004 (2016) [pdf]

2015

  • Y. Dong. A. Khabibullin, K. Wei, J. Salvador, G.S. Nolas, and L.M. Woods, Bournonite PbCuSbS3: Stereochemically active lone-pair electrons inducing low thermal conductivity, ChemPhysChem 16, 3264 (2015) [pdf]
  • K. Wei, T. Stedman, Z.-H. Ge, L.M. Woods, and G.S. Nolas, A synthetic approach for enhanced thermoelectric properties of PEDOT:PSS bulk composites, Appl. Phys. Lett. 107, 153301 (2015) [pdf]
  • T. Stedman, K. Wei. G.S. Nolas, and L.M. Woods, Thermoelectricity in polymer composites due to fluctuation-induced tunneling, Phys. Chem. Chem. Phys. 17, 27883 (2015) [pdf]
  • N. Khusnutdinov, R. Kashparov, and L.M. Woods, Casimir effect for a stack of conductive planes, Phys. Rev. D 92, 045002 (2015) [pdf]

2014

  • D. Drosdoff, A.D. Phan, and L.M. Woods, Transverse electric mode for radiative heat transfer in graphene-metamaterial systems, Adv. Opt. Mat. 2, 1038 (2014) [pdf]
  • Y. Dong, A. Khabibullin, K. Wei, Z. Ge, J. Martin, J.R. Salvador, L.M. Woods, and G.S. Nolas, Synthesis, transport properties, and electronic structure of Cu2CdSnTe4, Appl. Phys. Lett. 104, 252107 (2014) [pdf]
  • A. R. Khabibullin and L.M. Woods, Ab Initio investigation of Bi rich Bi1-xSbx alloys, J. Electr. Mater. 43, 3110 (2014) [pdf]
  • N.B. Le, H. Tran, and L.M. Woods, Tunable spin-dependent properties of zigzag silicene nanoribbons, Phys. Rev. Applied 1, 054002 (2014) [pdf]
  • N. Khusnutdinov, D. Drosdoff, and L.M. Woods, Casimir energy for surfaces with constant conductivity, Phys. Rev. D 89, 085033 (2014) [pdf]
  • D. Drosdoff and L.M. Woods, Quantum and thermal dispersion forces: application to graphene nanoribbons, Phys. Rev. Lett. 112, 025501 (2014) [pdf]
  • T. Stedman, D. Drosdoff, and L.M. Woods, Van der Waals interactions between nanostructures: some analytical results from series expansions, Phys. Rev. A 89, 012509 (2014) [pdf]

2013

  • A.D. Phan, S. Shen, and L.M. Woods, Radiative exchange between graphitic nanostructures: a microscopic perspective, The J. Phys. Chem. Lett. 4, 4196 (2013) [pdf]
  • A.D. Phan, T.L. Phan, and L.M. Woods, Near-field heat transfer between gpld nanoparticle arrays, J. Appl. Phys. 114, 214306 (2013) [pdf]
  • A.D. Phan, T.X. Hoang, T.L. Phan, and L.M. Woods, Repulsive interactions of a lipid membrane with graphene in composite materials, The J. Chem. Phys. 139, 184703 (2013) [pdf]
  • A.D. Phan, T.X. Hoang, T.H. Nghiem, and L.M. Woods, Surface plasmon resonances of protein-conjugated gold nanoparticles on graphitic substrates, Appl. Phys. Lett. 103, 163702 (2013) [pdf]
  • T.D. Huan, M. Amsler, R. Sabatini, V.N. Tuoc, N.B. Le, L.M. Woods, N. Marzari, and S. Goedecker, Thermodynamic stability of alkali metal/zinc double-cation borohydrides at low temperatures, Phys. Rev. B 88, 024108 (2013) [pdf]
  • A.D. Phan, L.M. Woods, and T.L. Phan, Van der Waals interactions between graphitic nanowiggles, J. Appl. Phys. 114, 044308 (2013) [pdf]
  • N.B. Le and L.M. Woods, Zigzag Graphene Nanoribbons with Curved Edges, RSC Advances 3, 10014 (2013) [pdf]
  • A.D. Phan, L.M. Woods, and N.A. Viet, Temperature phase transition model for DNA-CNT-based nanotweezers, J. Math. Chem. 51, 278 (2013) [pdf]
  • L.M. Woods, A. Popescu, D. Drosdoff, and I.V. Bondarev, Dispersion interactions in graphitic nanostructures, Chem. Phys. 413 (special volume on Photophysics of Carbon Nanotubes and Nanotube Composites), 116 (2013) [pdf]

2012

  • D. Drosdoff, A.D. Phan, L.M. Woods, I.V. Bondarev, and J.F. Dobson, Effects of Spatial Dispersion on the Casimir Force between two Graphene Sheets, Eur. Phys. J. B 85, 365 (2012) [pdf]
  • A.D. Phan, N.A. Viet, N.A. Poklonskii, L.M. Woods, and C.H. Le, Interaction of a Graphene Sheet with a Ferromagnetic Metal Plate, Phys. Rev. B 86, 155419 (2012) [pdf]
  • A. Popescu and L.M. Woods, Valleytronics, Carrier Filtering, and Thermoelectricity in Bismuth: Magnetic Field Polarization Effects, Adv. Fun. Mat. 22, 3945 (2012) [pdf]
  • A.D. Phan, L.M. Woods, D. Drosdoff, I.V. Bondarev, and V.A. Viet, Temperature dependent graphene suspension due to the thermal Casimir interaction, Appl. Phys. Lett. 101, 113118 (2012) [pdf]
  • A. Popescu, L.M. Woods, and G.S. Nolas, Magnetic Field and Nanostructuring Effects on the Thermoelectric Performance of Bismuth, Phys. Rev. B 85, 115202 (2012) [pdf]
  • N.B. Le and L.M. Woods, Folded Graphene Nanoribbons with Single and Double Closed Edges, Phys. Rev. B 85, 035403 (2012) [pdf]

2011

  • I.V. Bondarev, L.M. Woods, and A. Popescu, On the Role of Interband Surface Plasmons in Carbon Nanotubes, Optics and Spectr. 111, 733 (2011) [pdf]
  • D. Drosdoff and L.M. Woods, Casimir Interactions between Graphene and Metamaterials, Phys. Rev. A 84, 062501 (2011) [pdf]
  • A. Popescu, A. Datta, G.S. Nolas, and L.M. Woods, Thermoelectric Properties of Bi-doped PbTe Composites, J. of Appl. Phys. 109, 103709 (2011) [pdf]
  • A. Popescu, L.M. Woods, and I.V. Bondarev, Chirality Dependent Carbon Nanotube Interactions, Phys. Rev. B 83, 081406 (R) (2011) [pdf]

2001 - 2010

  • D. Drosdoff and L.M. Woods, Casimir Forces and Graphene Sheets, Phys. Rev. B 82, 155459 (2010) [pdf]
  • A. Popescu and L.M. Woods, Enhanced Thermoelectricity in Composites by Electronic Structure Modifications and Nanostructuring, Appl. Phys. Lett. 97, 052102 (2010) [pdf]
  • Y.V. Shtogun and L.M. Woods, Many-Body van der Waals Interactions between Graphitic Nanostructures, Journal of Phys. Chem. Lett. 1, 1356 (2010) [pdf]
  • Y.V. Shtogun and L.M. Woods, Mechanical Properties of Defective Single Wall Carbon Nanotubes, J. of Appl. Phys. 107, 061803 (2010) [pdf]
  • I.V. Bondarev, K. Tatur, and L.M. Woods, Surface Exciton-Plasmon and Optical Response of Small-Diameter Carbon Nanotubes, Optics and Spectroscopy 108, 376 (2010) [pdf]
  • A. Popescu and L.M. Woods, Telescopic Hot Double Wall Carbon Nanotubes for Nanolithography, Appl. Phys. Lett. 95, 203507 (2009) [pdf]
  • K. Tatur and L.M. Woods, Electromagnetic Interactions between Dialectric-Diamagnetic Cylinders, Phys. Rev. A 80, 050101 (R) (2009) [pdf]
  • Y.V. Shtogun and L.M. Woods, Electronic and Magnetic Properties of Deformed and Defective Single Wall Carbon Nanotubes, Carbon 47, 3252 (2009) [pdf]
  • I.V. Bondarev, L.M. Woods, and K. Tatur, Strong Exciton-Plasmon Coupling in Semiconducting Carbon Nanotubes, Phys. Rev. B 80, 085407 (2009) [pdf]
  • A. Popescu, L.M. Woods, J. Martin, and G.S. Nolas, Model of Transport Properties of Thermoelectric Nanocomposite Materials, Phys. Rev. B 79, 205302 (2009) [pdf]
  • L.M. Woods, A. Popescu, J. Martin, and G.S. Nolas, Transport Properties of Thermoelectric Nanocomposites, Materials Research Society Symposium Proceedings, Vol. 1166-N05-08 (2009) [pdf]
  • Y.V. Shtogun and L.M. Woods, Electronic Structure Modulations of Radially Deformed Single Wall Carbon Nanotubes under Transverse External Electric Fields, Journal of Physical Chemistry C 113, 4792 (2009) [pdf]
  • J. Pritz and L.M. Woods, Radiative Electromagnetic Modes in Concentric Cylindrical Layers, Physica B 404, 1585 (2009) [pdf]
  • I.V. Bondarev, K. Tatur, and L.M. Woods, Optical Response of Small-Diameter Semiconducting Sarbon Nanotubes under Exciton-Surface-Plasmon Coupling, Optics Communications 282, 661 (2009) [pdf]
  • G.Dovbeshko, L.M. Woods, Y.V. Shtogun, and O. Fesenko, Modeling of DNA Base Interactions with Carbon Nanotubes: ab initio Calculations and SEIRA Data, AIP Conf. Proc. 1148, 416 (2009)  [pdf]
  • K. Tatur, L.M. Woods, and I.V. Bondarev, Zero-point Energy of a Cylindrical Layer of Finite Thickness, Physical Review A 78, 012110 (2008) [pdf]
  • A. Popescu, L.M. Woods, I. V. Bondarev, A Carbon Nanotube Oscillator as a Surface Profiling Device. Nanotechnology 19, 435702 (2008) [pdf]
  • K. Tatur and L.M. Woods, Zero-point Energy of N Perfectly Conducting Concentric Cylindrical Shells, Phys. Lett. A 372, 6705 (2008) [pdf]
  • J. Pritz and L.M. Woods, Surface Plasmon Polaritons in Concentric Cylindrical Structures, Solid State Communications 146, 345 (2008) [pdf]
  • A. Popescu, L.M. Woods, and I.V. Bondarev, Simple Model of Van der Waals Interactions between two Radially Deformed Single-Wall Carbon Nanotubes, Physical Review B 77, 115443 (2008) [pdf]
  • L.M. Woods, T.L. Reinecke, and A.K. Rajagopal, Electron Spin Dynamics due to Hyperfine Coupling in Quantum Dots, Physical Review B 77, 073313 (2008) [pdf]
  • Y.V. Shtogun, L.M. Woods, and G.I Dovbeshko, Adsorption of Adenine and Thymine and their Radicals on Single Wall Carbon Nanotubes, Journal of Physical Chemistry C 111, 18174 (2007)  [pdf]
  • L.M. Woods, S. C. Badescu, and T.L. Reinecke, Adsorption of Simple Benzene Derivatives on Carbon Nanotubes, Physical Review B 75, 155415 (2007) [pdf]
  • L.M. Woods and T.L. Reinecke, Electron-Spin Decoherence due to Hyperfine Coupling in Quantum Dots, AIP Conf. Proceedings 772, 1343 (2005) [pdf]
  • L. M. Woods, T. L. Reinecke, and R. Kotlyar, Hole Spin Relaxation in Quantum Dots, Physical Review B 69, 125330 (2004) [pdf]
  • L.M. Woods and T.L. Reinecke, Nonlinear Polaritonic Effects in Photonic Wires, Physical Review B 67, 115336 (2003) [pdf]
  • L.M. Woods and T.L. Reinecke, Spin Relaxation in Quantum Dots, Physical Review B 66, R161318 (2002) [pdf]
  • L.M. Woods, Magnon-Phonon Effects in Ferromagnetic Manganites, Physical Review B 65, 014409 (2002) [pdf]
  • D. Mandrus, J.R. Thompson, R. Gaal, L. Forro, J.C. Bryan, B.C. Chakoumakos, L.M. Woods, B.C. Sales, R.S. Fishman, and V. Keppens, Continuous Metal-Insulator Transition in Pyrochlore Cd2Os2O7, Physical Review B 63, 195104 (2001) [pdf]

1998-2000

  • L.M. Woods, Electronic structure of Ca2RuO4: A Comparison with the Electronic Structures of Other Ruthenates, Physical Review B 62, 7833 (2000) [pdf]
  • L. M. Woods and G. D. Mahan, Electron-Phonon Effects in Graphene and Armchair (10,10) Single-Wall Carbon Nanotubes, Physical Review B 61, 10 651 (2000) [pdf]
  • G.D. Mahan and L.M. Woods, Phonon Modulated Electron-Electron Interactions, Physical Review B 60, 5276 (1999) [pdf]
  • G. D. Mahan and L. M. Woods, Multilayer Thermionic Refrigeration, Physical Review Letters 80, 4016 (1998) [pdf]
  • L.M. Woods and G.D. Mahan, Nonlnear Electron-Phonon Heat Exchange, Physical Review B 57, 7679 (1998) [pdf]

Book Chapters

  • "The Bottom-Up Approach to Bulk Thermoelectric Materials with Nano-scale Domains", A. Datta, A. Popescu, L.M. Woods, and G.S. Nolas (2011 CRC Handbook, Taylor&Francis Group)
  • "Exciton-Plasmon Interactions in Individual Carbon Nanotubes", I.V. Bondarev, L.M. Woods, and A. Popescu (Chapter 7 in "Plasmons: Theory and Applications", Nova Publishers, 2010)
  • "Properties of Carbon Nanotubes under External Factors", Y.V. Shtogun and L.M. Woods (Chapter 1 in "Carbon Nanotubes", Intech, 2010)
  • "Nucleic Acid Interaction and Interfaces with Single-Walled Carbon Nanotubes", G. Dovbeshko, O. M. Fesenko, O. Gnatyk, Y. Shtogun, L.M. Woods, S. Bertarione, A. Damin, D. Scarano, and Z. Adriano (Chapter 34 in "Carbon Nanotubes", Intech, 2010)

Conference Proceedings

  • L.M. Woods, A. Popescu, A. Datta, and G.S. Nolas, Tailoring thermoelectric properties of Bismuth: Theoretical Investigations, Proceedings of the 9th European Conference on Thermoelectrics, ICT 2011
  • G. Dovbeshko, L.M. Woods, Y. Shtogun, and O. Fesenko, Modeling of DNA Base Interactions with Carbon Nanotubes: ab initio Calculations and SEIRA Data, Conference Proceedings to the 2008 International Conference of Computational Methods in Sciences and Engineering, ICCMSE 2008
  • Y. Shtogun and L.M. Woods, Mechanically Altered Carbon Nanotubes, 2008 MMM, Conference Proceedings of the Fourth International Conference on Multiscale Materials Modeling
  • Y. Shtogun and L.M. Woods, Electronic structure of single wall carbon nanotubes under transverse external electric field, radial deformations and defects, 2008 NSTI Nanotech Conference Technical Proceedings, p. 108
  • I.V. Bondarev, K. Tatur, and L.M. Woods, Strongly coupled surface Plasmon-exciton excitations in small diameter single walled carbon nanotubes, Conference on Lasers and Electro-Optics/Quantum Electronics and Laser Science Conference and Photonic Applications Systems Technologies 2008 Technical Digest (Optical Society of America, Washington, DC, 2008), QTuD4, CLEO/QELS 2008 Conference Proceedings
  • L.M. Woods and T.L. Reinecke, Electron-spin decoherence due to hyperfine coupling in quantum dots, 27th International Conference on the Physics of Semiconductors, ICPS 2004

 

 

Advanced Materials and Devices Theory Group of Prof. Lilia M. Woods
Funded by: