David Emin

Adjunct Professor of Physics and Astronomy
University of New Mexico
MSC07 4220
PAÍS 3310
210 Yale Blvd NE
Albuquerque, NM 87106, USA

Phone: 505-232-2128
Fax: 505-277-1520
Email: emin@unm.edu

David Emin's Invited Publications

Book Chapters and Review Articles

  1. ASPECTS OF THE THEORY OF SMALL-POLARONS IN DISORDERED MATERIALS, David Emin in Electronic and Structural Properties of Amorphous Semiconductor, P. G. LeComber and J. Mort, eds. (Academic Press, London, 1973), Chap. 7, pp. 261-328.
  2. TRANSPORT PROPERTIES OF SMALL-POLARONS, David Emin in Proc. International Symposium on Electronic Properties of Oxides/Applications and Science, J. of Solid State Chem. 12, 246 (1975).
  3. COMMENTS ON THE THEORY OF LOCALIZED STATES IN NONCRYSTALLINE SEMICONDUCTING SOLIDS, David Emin in Physics of Structurally Disordered Solids, S. S. Mitra, ed. (Plenum Press, New York, 1976) pp. 385-410.
  4. ELECTRICAL TRANSPORT IN SEMICONDUCTING NONCRYSTALLINE SOLIDS, David Emin in Physics of Structurally Disordered Solids, S. S. Mitra, ed. (Plenum Press, New York, 1976) pp. 461-506.
  5. THE FORMATION AND MOTION OF SMALL POLARONS, David Emin in Linear and Nonlinear Electronic Transport in Solids, J. T. Devresse and V. E. van Doren, eds. (Plenum Press, New York, 1976) pp. 409-433.
  6. THE HALL EFFECT IN AMORPHOUS SEMICONDUCTORS, David Emin in Amorphous and Liquid Semiconductors, W. E. Spear, ed. (Edinburgh, Dundee, 1977), pp. 249-260.
  7. ELECTRICAL AND OPTICAL PROPERTIES OF AMORPHOUS THIN FILMS, David Emin in Amorphous Thin Films and Devices, L. L. Kazmerski, editor (Academic Press, New York, 1980), pp. 17-57.
  8. THE HALL EFFECT IN HOPPING CONDUCTION, David Emin in The Hall Effect and its Applications, C. L. Chien and C. R. Westgate, eds. (Plenum Press, New York, 1980) pp. 281-298.
  9. SMALL-POLARON FORMATION AND MOTION IN MAGNETIC SEMICONDUCTORS, David Emin, J. de Physique 41, C5-277 (1980).
  10. THE POSITIVE MUON AS A SMALL POLARON, David Emin in Hyperfine Interactions 8 515-523 (1981).
  11. SMALL POLARON, David Emin in the Fifth Edition of the McGraw Hill Encyclopedia of Science and Technology (McGraw Hill, New York, 1982).
  12. SMALL POLARONS, David Emin in Physics Today, (American Institute of Physics, New York) 35:6, 34-40 (June 1982).
  13. BASIC ISSUES IN ELECTRONIC CONDUCTION IN AMORPHOUS SEMICONDUCTORS I: SMALL-POLARON FORMATION, David Emin in Comments on Solid State Physics, (Gordon and Breach, New York) 11, 35-46 (1983).
  14. BASIC ISSUES IN ELECTRONIC CONDUCTION IN AMORPHOUS SEMICONDUCTORS II: ELECTRONIC TRANSPORT PROPERTIES, David Emin in Comments on Solid State Physics, (Gordon and Breach, New York) 11, 59-72 (1983).
  15. FUNDAMENTAL MODELS OF ELECTRONIC TRANSPORT IN AMORPHOUS SEMICONDUCTORS, David Emin in Proc. 2nd Intl. Otto-Schott Colloquium, 303-315 (1983).
  16. SMALL-POLARON ELECTRONIC TRANSPORT IN BORON CARBIDES, David Emin and Charles Wood in Proc. of 18th Intersociety Energy Conversion Conference (McGregor-Werner, Washington, DC), 222-226 (1983).
  17. ELECTRON-LATTICE-INTERACTION INDUCED LOCALIZATION IN SOLIDS, David Emin in Localization and Metal-Insulator Transitions, H. Fritzsche and D. Adler, eds. (Plenum, New York, 1985) 323-335.
  18. ICOSAHEDRAL BORON-RICH SOLIDS FOR VERY HIGH TEMPERATURE SEMICONDUCTORS, David Emin and Charles Wood in Communications on the Materials Sciences and Engineering Study (For the National Research Council), (Materials Research Society, Pittsburgh, 1986).
  19. BASIC ISSUES OF ELECTRONIC TRANSPORT IN INSULATING POLYMERS, David Emin in Handbook of Conducting Polymers, T. Skotheim, ed. (Marcel Dekker, New York, 1986) pp. 915-936.
  20. ELECTRONIC TRANSPORT IN BORON CARBIDES, David Emin in Boron-Rich Solids, D. Emin, T. L. Aselage, C. L. Beckel, I. A. Howard and C. Wood, eds. (American Institute of Physics, New York, 1986) p.189.
  21. TODAY'S SMALL POLARON, David Emin in Condensed Matter Physics: the Theodore D. Holstein Symposium, R. L. Orbach, ed. (Springer-Verlag, New York, 1987) pp. 16-34.
  22. ICOSAHEDRAL BORON-RICH SOLIDS, David Emin in Physics Today (American Institute of Physics, New York) 40:1, pp. 55-62 (January 1987.
  23. ICOSAHEDRAL BORON-RICH SOLIDS (in Japanese), David Emin in Parity Physical Science Magazine 02, Number 10 p. 10 (1987).
  24. SMALL POLARON, David Emin in Sixth Edition of the McGraw-Hill Encyclopedia of Science and Technology, 1987.
  25. ICOSAHEDRAL BORON-RICH SOLIDS AS REFRACTORY SEMICONDUCTORS, David Emin in Novel Refractory Semiconductors, D. Emin, T. L. Aselage and C. Wood, eds. (Materials Research Society, Pittsburgh, 1987) pp. 3-16.
  26. DRAMATIC EFFECTS OF DISORDER ON SMALL-POLARON FORMATION AND MOTION, David Emin in Disordered Semiconductors, M. A. Kastner, G. A. Thomas and S. R. Ovshinsky, eds. (Plenum, New York, 1987) pp. 751-760.
  27. ELECTRONIC TRANSPORT IN ICOSAHEDRAL BORON-RICH SOLIDS, David Emin in Boron, Borides and Related Compounds, H. Werheit, ed. (Universitat Duisburg, Duisburg, 1987) pp. 154-165.
  28. THEORY OF ELECTRONIC AND THERMAL TRANSPORT IN BORON CARBIDES, David Emin in The Physics and Chemistry of Carbides, Nitrides and Borides, R. Freer, Editor (Kluwer Academic Publishers, London, 1990) pp. 691-704.
  29. LARGE BIPOLARONS: FORMATION, MOTION AND SUPERCONDUCTIVITY, David Emin in Hopping and Related Phenomena, H. Fritzsche and M. Pollak, editors (World Publishing, 1990) 349-375.
  30. FORMATION, MOTION AND SUPERCONDUCTIVITY OF LARGE BIPOLARONS, David Emin in Ferroelectrics 117, (Special Issue), S. R. Kurtz, editor, (1991) pp. 277-301.
  31. LARGE BIPOLARONS AND SUPERCONDUCTIVITY, David Emin in Strongly Correlated Electron Systems and High-Temperature Superconductivity, E. Zipper, R. Manka and M. Maska, editors (World Scientific, London, 1991)  pp. 139-154.
  32. PROPERTIES AND SUPERCONDUCTIVITY OF LARGE BIPOLARONS, David Emin in High Temperature Superconductivity: Physical Properties, Microscopic Theory and Mechanisms, J. Ashkenazi, S. E. Barnes, F. Zuo, G. C. Vezzoli and B. M. Klein, editors (Plenum, New York, 1991) pp. 319-329.
  33. FORMATION, MOTION AND SUPERCONDUCTIVITY OF LARGE BIPOLARONS, David Emin in Physics of High Temperature Superconductivity, S. Maekawa and M. Sato, editors (Springer-Verlag, Heidelberg, 1992) pp. 125-135.
  34. LARGE BIPOLARONS AND SUPERCONDUCTIVITY, David Emin in Physics and Materials Science of High Temperature Superconductors - II, R. Kossowsky, B. Raveau, D. Wohlleben and S. Patapis, editors (Kluwer, Netherlands, 1992) pp.27-52.
  35. LARGE BIPOLARONS AND SUPERCONDUCTIVITY, David Emin in Lattice Effects in High Temperature Superconductors, Y. Bar-Yam, editor (World Scientific, New York, 1992) pp. 377-388.
  36. COMMENTS ON THE FORMATION, MOTION AND SUPERCONDUCTIVITY OF SMALL BIPOLARONS, David Emin in Lattice Effects in High Temperature Superconductors, Y. Bar-Yam, editor (World Scientific, New York, 1992) pp.402-406.
  37. REPLY TO COMMENTS OF ALEXANDROV AND RANNINGER, David Emin in Lattice Effects in High Temperature Superconductors, Y. Bar-Yam, editor (World Scientific, New York, 1992)  pp.416-421.
  38. BORON CARBIDES, T. L. Aselage and D. Emin in CRC Handbook of Thermoelectrics, D. M. Rowe, editor (CRC Press, Boca Raton, 1995) Chap. 31, pp. 373-386.
  39. DISORDER EFFECTS ON SMALL-POLARON FORMATION AND HOPPING, David Emin in International Journal of Modern Physics B 8, 819-827 (1994).
  40. EFFECTS OF DISORDER ON SELF-TRAPPING AND SUBSEQUENT HOPPING IN BORON CARBIDES, David Emin in Boron, Borides and Related Materials, JJAP Series 10, R. Uno and I Higashi, eds. (Japanese Journal of Applied Physics, Tokyo, 1994) p. 62.
  41. STRUCTURE AND ELECTRONIC TRANSPORT OF UNDOPED AND PHOSPHORUS-DOPED BORON CARBIDES, T. L. Aselage, D. R. Tallant, D. Emin, S. B. Van Duesen and P. Yang, in Boron, Borides and Related Materials, JJAP Series 10, R. Uno and I Higashi, eds. (Japanese Journal of Applied Physics, Tokyo, 1994) p. 58.
  42. FORMATION, PHASE SEPARATION AND SUPERCONDUCTIVITY OF LARGE BIPOLARONS, David Emin in Polarons and Bipolarons in High-Tc Superconductors and Related Materials, E. S. H. Salje, A. S. Alexandrov and W.Y. Liang, eds., (Cambridge University Press, 1995) pp. 80-109.
  43. LARGE BIPOLARONS AND SUPERCONDUCTIVITY, David Emin, Journal of Superconductivity, 8, 523 (1995).
  44. LARGE BIPOLARONS AND SUPERCONDUCTIVITY, David Emin in Molecular Physics Reports 11 (1995) pp. 33-45
  45. POLARON FORMATION AND MOTION IN MAGNETIC SOLIDS, David Emin in Science and Technology of Magnetic Oxides, M. F. Hundley, J. H. Nickel, and R. Ramesh and Y. Tokura, eds. Materials Research Society Symposium Proceedings Vol. 494 (Materials Research Society, Pittsburgh, 1998), pp. 163-174.
  46. Charge carrier’s deformability: CARRIER-INDUCED VIBRATIONAL SOFTENING, David Emin, Physica Status Solidi (b) 218, 259-265 (2000).
  47. SINGLET PAIRING AMONGST DEGENERATE ELECTRONIC STATES: “SOFTENING BIPOLARONS” David Emin in Vibronic Interactions: Jahn-Teller Effect in Crystals and Molecules, Michael D. Kaplan and George O. Zimmerman, editors (Kluwer, New York, 2001) pp. 123-132.
  48. SEEBECK EFFECT, David Emin in Wiley Encyclopedia of Electrical and Electronics Engineering Online, John G. Webster, Editor (Wiley, New York, 2002) 44 pages on-line.
  49. BORON CARBIDES: UNCONVENTIONAL HIGH-TEMPERATURE THERMOELECTRICS, T. L. Aselage and D. Emin, in Chemistry, Physics and Materials’ Science of Thermoelectric Materials: Beyond Bismuth Telluride, Mercouri Kanatzidis, Timothy P. Hogan and S. D. Mahanti (Kluwer Academic/Plenum Press, 2002) 16 pages.
  50. OVERVIEW OF THE THEORY OF THE SUPERCONDUCTIVITY OF LARGE BIPOLARONS, David Emin in Models and Methods of High-Tc Superconductivity: Some Frontal Aspects, Volume 2, J. K. Srivastava and S. M. Rao, editors [Nova Science Publishers Inc., (Hauppauge) New York, 2003] Chapter 11, pp. 343-367.
  51. EFFECTS OF CHARGE CARRIERS’ INTERACTIONS ON SEEBECK COEFFICIENTS, D. Emin in CRC Thermoelectrics Handbook: Macro to Nano, D. M. Rowe, editor (CRC Press, Boca Raton, 2005) Chapter 5.
  52. UNUSUAL PROPERTIES OF ICOSAHEDRAL BORON-RICH SOLIDS, David Emin, Journal of Solid State Chemistry 179, 2791-2798 (2006).
  53. POLARON, David Emin in Volume 14 of 10th edition of McGraw Hill Encyclopedia of Science and Technology pages 125-127 (McGraw Hill, New York, 2007).
  54. LOCALIZED ELECTRONS AND PHONON-INDUCED LASER COOLING OF SOLIDS, David Emin, SPIE Proceeding 6461, 64610C (2007) 9 pages.
  55. THEORY OF MEYER-NELDEL COMPENSATION FOR ADIABATIC CHARGE TRANSFER, David Emin, Monatshefte für Chemie – Chemical Monthly, 144, 3-10 (2013) DOI 10.1007/s00706-012-0836-z. 
  56. SEEBECK EFFECT, David Emin in Wiley Encyclopedia of Electrical and Electronics Engineering Online, John G. Webster, Editor (Wiley, New York, 2013) 33 pages.
  57. UNRAVELLING SMALL-POLARON TRANSPORT IN METAL OXIDE PHOTOELECTRODES, Alexander J. E. Rettie, William D. Chemelewski, David Emin and C. Buddie Mullins, Perspective in Journal of Physical Chemistry Letters, 7, 471-479 (2016).
  58. LARGE BIPOLARONS AND OXIDE SUPERCONDUCTIVITY, David Emin, SPIE Proceeding 10105: Oxide-based Materials and Devices VIII, (2017) doi:10.1117/12.2261717 (16 pages).
  59. CHARGE-CARRIER RECOMBINATION IN HALIDE PEROVSKITES, Dane W. deQuilettes, Kyle Frohna, David Emin, Thomas Kirchartz, Vladimir Bulovic, David S. Ginger, Samuel D. Stranks, Focus Review in Chemical Reviews, 119, 11007-11019 (2019).
  60. LARGE (BI)POLARONS FOR NOVEL ENERGY-CONVERSION AND SUPERCONDUCTIVITY, David Emin, Journal of Superconductivity and Novel Magnetism: 33, 35-42 (2020), DOI: 10.1007/s10948-019-05299-y.
  61. POLARONS IN CONDENSED MATTER, David Emin in Encyclopedia of condensed matter physics (2nd Edition) T. Chrakraborty, Ed. (Elsevier, Amsterdam, 2024) pp. 427-445.