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Positive magnetoresistance behaviour in the insulating side of the metal-insulator transition in CdSeABDIA, R; EL KAAOUACHI, A; NAFIDI, A et al.Physica. B, Condensed matter. 2006, Vol 373, Num 1, pp 96-99, issn 0921-4526, 4 p.Article

Positive magnetoresistance in the variable range hopping regime in CdSeEL KAAOUACHI, Abdelhamid; ABDIA, Rachid; NAFIDI, Abdelhakim et al.Physica. E, low-dimentional systems and nanostructures. 2006, Vol 32, Num 1-2, pp 419-421, issn 1386-9477, 3 p.Conference Paper

Variable-range hopping conductivity in Cu2ZnGeSe4 single crystalsGUC, M; LISUNOV, K. G; HAJDEU, E et al.Solar energy materials and solar cells. 2014, Vol 127, pp 87-91, issn 0927-0248, 5 p.Article

Hopping conduction in In-doped CuO thin filmsYILDIZ, A; HORZUM, Ş; SERIN, N et al.Applied surface science. 2014, Vol 318, pp 105-107, issn 0169-4332, 3 p.Conference Paper

Features of the acceptor band and properties of localized carriers from studies of the variable-range hopping conduction in single crystals of p-Cu2ZnSnS4LISUNOV, K. G; GUK, M; NATEPROV, A et al.Solar energy materials and solar cells. 2013, Vol 112, pp 127-133, issn 0927-0248, 7 p.Article

Hopping conduction in disordered carbon nanotubesWANG, D. P; FELDMAN, D. E; PERKINS, B. R et al.Solid state communications. 2007, Vol 142, Num 5, pp 287-291, issn 0038-1098, 5 p.Article

dc-Sheet resistance as sensitive monitoring tool of protein immobilization on thin metal filmsNEFF, H; BEEBY, T; LIMA, A. M. N et al.Biosensors & bioelectronics. 2006, Vol 21, Num 9, pp 1746-1752, issn 0956-5663, 7 p.Article

Conduction in ultra-thin SOI nanowires prototyped by FIB millingPOTT, Vincent; IONESCU, Adrian M.Microelectronic engineering. 2006, Vol 83, Num 4-9, pp 1718-1720, issn 0167-9317, 3 p.Conference Paper

Synthesis and thermoelectric properties of the novel A-site deficient Zn0.5Rh2O4 compoundNAKAMURA, Yuta; KAKEMOTO, Hirofumi; NISHIYAMA, Shin et al.Journal of solid state chemistry (Print). 2012, Vol 192, pp 23-27, issn 0022-4596, 5 p.Article

Occupancy correlation functions for diffusion in the high-frequency limit of the simple hopping modelMACGILLIVRAY, I. R.Journal of physics. C. Solid state physics. 1985, Vol 18, Num 10, pp 2073-2079, issn 0022-3719Article

On the hopping conductivity in the presence of a magnetic fieldBANYAI, L; GARTNER, P.Journal of physics. A, mathematical and general. 1984, Vol 17, Num 8, pp 1745-1754, issn 0305-4470Article

Pool-Frenkel emission and hopping conduction in semiconducting carbon nanotube transistorPERELLO, David; YU, Woojong; DONG JAE BAE et al.Proceedings of SPIE, the International Society for Optical Engineering. 2009, Vol 7399, issn 0277-786X, isbn 978-0-8194-7689-0 0-8194-7689-7, 1Vol, 739907.1-739907.6Conference Paper

Solvated Electrons in High-Temperature Melts and Glasses of the Room-Temperature Stable Electride [Ca24Al28O64]4+.4eSUNG WNG KIM; SHIMOYAMA, Terumasa; HOSONO, Hideo et al.Science (Washington, D.C.). 2011, Vol 333, Num 6038, pp 71-74, issn 0036-8075, 4 p.Article

Variable range hopping applications and materials science in oxygen-exposed single-wall carbon nanotube networksMORGAN, C; ALEMIPOUR, Z; BAXENDALE, M et al.Physica status solidi. A, Applications and materials science (Print). 2008, Vol 205, Num 6, pp 1394-1398, issn 1862-6300, 5 p.Conference Paper

Calculation of hopping conductivity in aperiodic nucleotide base stacksYE, Y.-J; CHEN, R.-S; MARTINEZ, A et al.Solid state communications. 1999, Vol 112, Num 3, pp 139-144, issn 0038-1098Article

Electrical properties of carbon micro coilsKANETO, K; TSURUTA, M; MOTOJIMA, S et al.Synthetic metals. 1999, Vol 103, Num 1-3, pp 2578-2579, issn 0379-6779Conference Paper

Analytical procedures for the modelling of hopping transport in disordered semiconductorsMARSHALL, J. M.Philosophical magazine letters. 2000, Vol 80, Num 10, pp 691-701, issn 0950-0839Article

Magnetothermopower of single wall carbon nanotube newtworkCHOI, E. S; SUH, D. S; KIM, G. T et al.Synthetic metals. 1999, Vol 103, Num 1-3, pp 2504-2505, issn 0379-6779Conference Paper

Ionized oxygen vacancy-related electrical conductivity in (Pb1-xLax) (Zr0.90Ti0.10)1-x/4O3ceramicsPELAIZ-BARRANCO, A; GUERRA, J. D. S; LOPEZ-NODA, R et al.Journal of physics. D, Applied physics (Print). 2008, Vol 41, Num 21, issn 0022-3727, 215503.1-215503.5Article

Effect of quantum diffusion on hopping transportLIN, C.-H; WU, G. Y.Solid state communications. 2001, Vol 118, Num 11, pp 579-582, issn 0038-1098Article

Electrical properties of plasma-polymerized C:H filmsSTUNDZIA, V; BILKOVA, P; BIEDERMAN, H et al.Vacuum. 1998, Vol 50, Num 1-2, pp 23-25, issn 0042-207XConference Paper

Low-dimensional variable range hopping in conducting polymersEPSTEIN, A. J; LEE, W.-P; PRIGODIN, V. N et al.Synthetic metals. 2001, Vol 117, Num 1-3, pp 9-13, issn 0379-6779Article

Structural and thermoelectric properties of Cu6Fe4Sn12Se32 single crystalSUEKUNI, K; TSURUTA, K; FUKUOKA, H et al.Journal of alloys and compounds. 2013, Vol 564, pp 91-94, issn 0925-8388, 4 p.Article

Hopping Electrical Conductivity in Ferroelectric Pb[(Fe1/3Sb2/3)xTiyZrz]O3OSAK, Andrzej.Ferroelectrics (Print). 2011, Vol 418, pp 52-59, issn 0015-0193, 8 p.Conference Paper

The origin of anomalous optical conductivity in metallic polymers: A unified modelSHIMAKAWA, K; NAITO, H; KASAP, S. O et al.Philosophical magazine letters. 2009, Vol 89, Num 11, pp 673-681, issn 0950-0839, 9 p.Article

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