Dr. Alexander M. Panich

 Employment

1993 – present: Senior Research Scientist, KAMEA Fellow, grade Aleph, Department of Physics, Ben-Gurion University of the Negev, Beer Sheva, Israel

1971- 1992   - Engineer,  Research scientist, Senior Research scientist, Department of Solid State Physics, Institute of Inorganic Chemistry, Siberian Branch of the Academy of Sciences of the USSR, Novosibirsk, USSR.                              

 

Fields of expertise

 Nuclear Magnetic Resonance (NMR) and Nuclear Quadrupole Resonance (NQR) study of

(1) Nanomaterials (Nanodiamonds, Carbon onions, Carbon and Inorganic Fullerenes and Nanotubes, etc.)

(2) Low-dimensional solids

(3) Incommensurate states

(4) Graphite Intercalation Compounds

(5) Inclusion Compounds

(6) Phase transitions

 

Publications

(a) Monographs

A. M. Panich, R. M. Sardarly, "Physical Properties of the Low-Dimensional and  Compounds". Nova Science Publishers, Inc., New York, USA, 2010, 287 p.

https://www.novapublishers.com/catalog/product_info.php?products_id=10792

 

(b) Selected Articles in peer-reviewed scientific journals


15. E. V. Kholopov, A. M. Panich, N. K. Moroz and Yu. G. Kriger, 

Instability of the Quasi-One-Dimensional Atomic Chain in TlHF2.

           Sov. Phys. JETP 57,  632-635 (1983).

 

18. A. M. Panich, A. M. Danilenko, and S .P. Gabuda,

Orientational diffusion and structural mechanism of bromine fluoride (BrF3) intercalation into fluorographite.     

           Doklady Acad. Nauk USSR 281, 389-392 (1985) (in Russian).

 

22. A. M. Panich,

Theory and NMR Experiments for a Six-Spin System with Dipolar Interaction.

           J. Magn. Reson66, 9-13 (1986).

 

25. A. M. Panich, S. P. Gabuda, N. T. Mamedov and S. N. Aliev,

Nuclear Magnetic Resonance of 203Tl and 205Tl in the Ternary Layered Semiconductors    TlInS2, TlGaS2 and TlGaSe2.

           Sov. Phys. Solid State 29,  2114 (1987).

 

30. A. M. Panich

Nuclear Magnetic Shielding, Indirect Spin-Spin Interactions and Phase Transitions in the TlGaTe2 Single Crystal.

           Sov. Phys. Solid State 31, 1814-1815 (1989) - Fizika Tverdogo tela 31, 279-281 (1989).

 

37. A. M. Panich

Anomalies of Spin-Lattice Relaxation and NMR Spectra and Phase Transition in

Fluorinated Graphite Intercalation Compound.

           Phys. Stat. Sol. (b) 176, 55-62 (1993)

 

38. A. M. Panich, 

NMR Study of Fluorinated Graphite Intercalation Compounds: Dynamics, Structure and Bonding. (Review).

           Colloids and Surfaces 72, 19-27 (1993).

 

39. A. M. Panich

NMR Spectra of Oriented Samples of Intercalated Fluorographite and 19F Chemical 

Shielding Anisotropy of ClF3 Molecule.

           J. Magn. Reson. A 111, 37-42 (1994).

 

40. A. M. Panich, and E. A. Panich, 

NMR Line Shape of a Six-Spin System with Dipole-Dipole Interaction. Application to Benzene.

           J. Magn. Reson. A 116, 113-116 (1995).

 

41. A. M. Panich,

NMR Study of the F-H...F Hydrogen Bond. Relation Between Hydrogen Atom Position and

F-H...F Bond Length.

           Chem. Phys. 196, 511-519 (1995).

 

43. A. M. Panich,

Distinct Fine Structure in NMR Spectra of Diffusing Molecules in Solids: Applications to  Zeolites and Graphite Intercalation Compounds. (Invited article for the special issue of Applied Spectroscopy commemorated the 50th anniversary of NMR).

    Appl. Spectrosc. 50, 1452-1458 (1996).

 

44. G. B. Furman, A. M. Panich, A. Yochelis, E. M. Kunoff, and S. D. Goren,

Nuclear spin lattice relaxation of dipolar order caused by paramagnetic impurities.

           Phys. Rev. B 55, 439-444 (1997).

 

45. A. M. Panich , T. Nakajima , S. D. Goren,

19F NMR Study of C-F Bonding and Localization Effects in Fluorine-Intercalated Graphite.

           Chem. Phys. Lett. 271, 381-384 (1997).

 

47. A. M. Panich, T. Nakajima, H.-M. Vieth, A. Privalov and S. Goren,

Nuclear Magnetic Resonance Study of Fluorine-Graphite Intercalation Compounds.

     J. Phys.: Condens. Matter 10, 7633-7642 (1998).

 

49. A. M. Panich, Nuclear Magnetic Resonance Study of Fluorine-Graphite Intercalation Compounds and Graphite Fluorides. (Review). Synthetic Metals 100, 169-185 (1999).

 

50. A. M. Panich, A. R. Semenov, G. N. Chekhova, Ju. H. Krieger, and S. D. Goren

35Cl NQR Study of Incommensurate State in Thiourea-Hexachloroethane Inclusion Compound.

Solid State Commun. 110, 363-367 (1999).

 

53. G. N. Chekhova, S. D. Goren,  Ju. H. Krieger, D. Linsky, V. Lusternik, A. M. Panich, A.R. Semenov, and A. Voronel,

Specific Heat and Nuclear Quadrupole Resonance Study of Thiourea - Hexachloroethane Inclusion Compound.

 Z. Naturforschung 55a, 335-338 (2000).

 

 

56. A. M. Panich, and Th. Doert,

Indirect nuclear exchange and electronic structure of Tl2Te3 semiconductor: 203Tl and 205Tl NMR study.

Solid State Commun. 114, 371-375 (2000).

 

58. A. M. Panich,  Ju. H. Krieger, A. R. Semenov, S. D. Goren, and G. N. Chekhova,

35Cl NQR and 1H NMR Study of Guest Structure and Dynamics in Thiourea-Hexachloroethane Inclusion Compound.

J. Phys: Condens. Matter 12, 5765-5774 (2000).

 

59. A. M. Panich, L. A. Zemnukhova, and R. L. Davidovich,

Nuclear Quadrupole Resonance Study of Phase Transitions and Incommensurability in K2SbF5 

J. Phys.: Condensed Matter 13 (7), 1609-1616 (2001).

 

60. A. M. Panich, A. I. Shames, and T. Nakajima,

On Paramagnetism in Fluorinated Graphites: ESR and Solid State NMR study.

J. Phys. Chem. Solids 62 (5), 959-964 (2001).  (Erratum: J. Phys. Chem. Solids, 63 (3), 539 (2002)).

 

61. A. M. Panich, N. Gasanly,

Indirect Nuclear Exchange Coupling and Electronic Structure of the Chain Semiconductor TlSe:

A 203Tl and 205Tl NMR Study.

Physical Review B 63 (19), 195201/1-195201/7 (2001).

 

63. J.H. Krieger, A. M. Panich, and A. R. Semenov,

Ultraslow motion of domain wall in channel inclusion compound studied by means of NMR cross-relaxation.

Solid State Commun. 120, 69-72 (2001).

 

65. A. M. Panich, P. K. Ummat, and W. R. Datars,

NMR Study of Acceptor Doped Fullerenes (MF6)2C60 (M=As, Sb)

Solid State Commun. 121, 367-370 (2002).

 

66. A. M. Panich, and S. Kashida,

Thallium NMR Study of the Chain Semiconductor TlS.

 Physica B 318, 217-221 (2002).

 

67. A. M. Panich, J. H. Krieger, A. R. Semenov, and G. N. Chekhova,

NMR cross-relaxation study of ultraslow motion of the domain wall in channel inclusion compounds.

Z. Naturforsch. 57a (6/7), 395-398 (2002).

 

 

69.    A. I. Shames, A. M. Panich, W. Kempiński, A. E. Alexenskii, M.V. Baidakova, A.T. Dideikin, V. Yu. Osipov, V. I. Siklitski, E. Osawa, M. Ozawa and A. Ya. Vul’,

Defects and impurities in nanodiamonds: EPR, NMR and TEM study.

 J. Phys. Chem. Solids 63, 1993-2001 (2002).

 

70.  A. M. Panich, H.-M. Vieth, P. K. Ummat, and W. R. Datars.

Solid State 19F NMR study of acceptor-doped fullerenes (MF6)2C60 (M=As,Sb).

Physica B 327(1), 102-107 (2003).

 

72. A. M. Panich, I. Felner, A. I. Shames, S. Goren, P. K. Ummat, and W.R. Datars,

Magnetic Susceptibility and Magnetic Resonance Study of Acceptor Doped Fullerenes C60(MF6)2 (M=As, Sb, P).

Solid State Commun. 129 (2), 81-84 (2004).

 

 

74. A. M. Panich, and S. Kashida,

Indirect nuclear exchange coupling and electronic structure of the layered semiconductor TlS: NMR study and band structure calculation.

            J. Phys. Condens. Matter 16 (18), 3071 – 3080 (2004).

 

75. A. M. Panich, C. L. Teske, W. Bensch, A. Perlov, H. Ebert,

Thallium NMR study of the chain semiconductor TlTaS3

               Solid State Commun. 131 (3-4) 201-205 (2004).
 

 

 78. A. M. Panich,

Nuclear Exchange Coupling and Electronic Structure of Low Dinensional Semiconductors.

Appl. Magn. Reson. 27, 29-39 (2004).

 

 

79. J. Li, K. Naga, Y. Ohzawa, T. Nakajima, A. I. Shames, A. M. Panich, 
Effect of surface fluorination on the electrochemical behavior of petroleum cokes for lithium ion battery. 
              J. Fluorine Chem. 126, 265-73 (2005). 
 

80. A. M. Panich, A. I. Shames, N. Froumin, C. C. Tang, and Y. Bando,

Magnetic Resonance Study of Multiwall Boron Nitride Nanotubes.

Physical Review B, 72, 085307/1-085307/6 (2005).

 

82. A. M. Panich, C. L. Teske and W. Bensch,

Nuclear spin diffusion in the semiconductor TlTaS

Physical Review B 73(11), 115209/1-115209/4 (2006).

 

83. A. M. Panich, F. Kopnov, and R. Tenne,

Nuclear Magnetic Resonance Study of Fullerene-Like WS2.

J. Nanoscience and Nanotechnology 6(6), 1678–1683 (2006).

84.  S. Kashida, Y. Yanadori, Y. Otaki, Y. Seki and A. M. Panich,

Electronic structure of ternary thallium chalcogenide compounds.
            Physica Status Solidi (a) 203(11), 2666– 2669 (2006).

 

85. A. M. Panich, A. I. Shames, H.-M. Vieth, E. Ōsawa, M. Takahashi, A. Ya. Vul’,

Nuclear Magnetic Resonance Study of Ultrananocrystalline Diamonds.

The Europian Physical Journal B 52(3), 397–402 (2006).

 

87. A.M. Panich, M. Shao, C.L. Teske, W. Bensch,

Size-dependent properties of Tl2Se studied by NMR spectroscopy.
Physical Review B 74, 233305/1-233305/4 (2006).

 

 

88. A. M. Panich, N. A. Sergeev, and I. Shlimak, 

Long-lived spin echoes in a magnetically dilute system: An NMR study of Ge single crystals.

Physical Review B 76, 155201/1-155201/8 (2007).

 

90. A. M. Panich,

Solid State Nuclear Magnetic Resonance Studies of NanoCarbons. (Review).

Diamond and Related Materials 16(12), 2044-2049 (2007).

 

91. A. I. Shames, A. M. Panich, E. Mogilko, J. Grinblat, E.W. Prilutskiy, and E.A. Katz
Magnetic Resonance Study of Fullerene-Like Glassy Carbon                                            

Diamond and Related Materials 16(12), 2039-2043 (2007).

  

94. A. M. Panich

Electronic properties and phase transitions in low-dimensional semiconductors (Topical Review)

J. Phys.: Condens. Matter 20(29), 293202/1-42 (2008).

  96. A. M. Panich, S. Kashida,

Single-Crystal NMR for the Layered Semiconductor TlGaSe2

J. Phys.: Condens. Matter 20(39) 395211/1-8 (2008).

 

97. A. I. Shames, E. A. Katz, A. M. Panich, D. Mogilyansky, E. Mogilko, J. Grinblat, V. P. Belousov, I. M. Belousova, and A. N. Ponomarev,  Structural and Magnetic Resonance Study of Astralen Nanoparticles.

           Diamond and Related Materials 18, 505-510 (2009).

 

98. A. M. Panich, A. I. Shames, R. Rosentsveig, R. Tenne,

Magnetic resonance study of MoS2 fullerene-like nanoparticles.

J. Phys. Condensed Matter 21 (39), 395301/1-6 (2009).

 

99. A. M. Panich, A.I. Shames, O. Medvedev, V.Yu. Osipov, A. E. Alexenskii, A. Ya.Vul',

Magnetic Resonance Study of Detonation Nanodiamonds with Surface Chemically Modified by Transition Metal Ions.

Applied Magnetic Resonance 36, 317-329 (2009).

 

100. Alexander M. Panich, Hans-Martin Vieth, Alexander I. Shames, Natalya Froumin, Eiji Ōsawa, and Akifumi Yao,
Structure and bonding in fluorinated nanodiamond
J. Phys. Chem. C 114, 774-782 (2010).

 

101. A. I. Shames, A. M. Panich, V. Yu. Osipov, A. E. Aleksenskiy, A. Ya. Vul’, T. Enoki, and K. Takai,                                                                                                                          

Structure and Magnetic Properties of Detonation Nanodiamond Chemically Modified by Copper.                                  

J. Applied Physics 107, 014318/1-10 (2010).

 

102. A. M. Panich, N. A. Sergeev,

Nuclear spin-lattice relaxation in carbon nanostructures                                                                  

Physica B 405(8), 2034-2038 (2010).