Citări reprezentative

 

Luminescence of Nd+ in proton or helium implanted channel waveguides in Nd:YAG crystals

  • F. Chen “Construction of two-dimensional waveguides in insulating optical materials by means of ion beam implantation for photonic applications: Fabrication methods and research progress” Critical Reviews in Solid State and Materials Sciences 33 (3-4), pp. 165-182, 2008. IF=6,300
  • C. Grivas, “Optically pumped planar waveguide lasers, Part I: Fundamentals and fabrication techniques” Progress in Quantum Electronics 35 (6) , pp. 159-239, 2011. IF=7,000

Optical near-field measurements of guided modes in various processed LiNbO3 and LiTaO3 channel waveguides

  • R. Salas-Montiel, A. Apuzzo, C. Delacour, Z. Sedaghat, A. Bruyant, P. Grosse, A. Chelnokov, G. Lerondel, S. Blaize “Quantitative analysis and near-field observation of strong coupling between plasmonic nanogap and silicon waveguides”, Applied Physics Letters 100 (23) , art. no. 231109, 2012. IF=3,794
  • R.C. Word, J.P.S. Fitzgerald, R. Könenkamp, “Direct imaging of optical diffraction in photoemission electron microscopy”, Applied Physics Letters 103 (2), art. no. 021118, 2013. IF=3,794

Channel waveguides of Ca4GdO(BO3)3 by He+ implantation for blue-light generation by frequency doubling
F. Chen, ” Micro- and submicrometric waveguiding structures in optical crystals produced by ion beams for photonic applications”
Laser and Photonics Reviews 6 (5) , pp. 622-640, 2012. IF=7,976

Realization and infrared to green upconversion luminescence in Er3+:YAlO3 ion-implanted optical waveguides

  • J.D.B. Bradley, M. Pollnau, “Erbium-doped integrated waveguide amplifiers and lasers” Laser and Photonics Reviews 5 (3) , pp. 368-403, 2011. IF=7,388
  • F. Chen, “Micro- and submicrometric waveguiding structures in optical crystals produced by ion beams for photonic applications” Laser and Photonics Reviews 6 (5) , pp. 622-640, 2012. IF=7,976

High performance mode adapters based on segmented SPE:LiNbO3 waveguides
S. Tanzilli, A. Martin, F. Kaiser, M.P. de Micheli, O. Alibart, D.B. Ostrowsky “On the genesis and evolution of integrated quantum optics”
Laser and Photonics Reviews 6 (1), pp. 115-143, 2012. IF=7,976

A dense array of small coupled waveguides in fiber technology: Trefoil channels of microstructured optical fibers
Y. Guo, Oo M.K. Khaing, K. Reddy, X. Fan, “Ultrasensitive optofluidic surface-enhanced Raman scattering detection with flow-through multihole capillaries”,
ACS Nano 6 (1) , pp. 381-388 (2012). , IF 12.062, AIS 4.090

Controlling molecular organization for the realisation of sub-wavelength light sources
S. Clément, T. Goudreault, D. Bellows, D. Fortin, L. Guyard, M. Knorr, P.D. Harvey, “Probing excited state electronic communications across diethynyl-[2.2] paracyclophane-containing conjugated organometallic polymers”
Chemical Communications 4 (69), pp. 8640-8642 (2012)., IF 6.378, AIS 1.586

Dynamic phase transitions in the one-dimensional spin-phonon coupling model

  • D. Chiruta, J. Linares, Y. Garcia, P.R. Dahoo, M. Dimian, “Analysis of the hysteretic behaviour of 3D spin crossover compounds by using an ising-like model”, European Journal of Inorganic Chemistry (21), 3601-3608 (2013), IF 3.120, AIS 0.668
  • D. Chiruta, J. Linares, M. Dimian, M. Alayli, Y. Garcia, “Role of edge atoms in the hysteretic behaviour of 3D spin crossover nanoparticles revealed by an Ising-like model”, European Journal of Inorganic Chemistry (29), 5086-5093 (2013), IF 3.120, AIS 0.668

Citări F. Tudorache:

Jaymand Mehdi, Recent progress in chemical modification of polyaniline, Progress in Polymer Science 38 9 pp. 1287-1306 (2013). IF = 26.383; AIS = 8.28

R.K. Selvan, V. Krishnan, C.O. Augustin, H. Bertagnolli, C.S.C. Kim, A. Gedanken, Investigations on the structural, morphological, electrical, and magnetic properties of CuFe2O4-NiO nanocomposites, Chemistry of Materials 20 2 pp. 429-439 (2008). IF = 8.238; AIS = 2.032

W.L. Zhang, C.S. Lin, Z.Z. He, H. Zhang, Z.Z. Luo, W.D. Cheng, Syntheses of three members of A((II))M((IV))(PO4)(2): luminescence properties of PbGe(PO4)(2) and its Eu3+-doped powders, CRYSTENGCOMM 15 35 pp. 7089-7094 (2013). IF = 3.879; AIS = 0.749

S. Singh, A. Singh, B.C. Yadav, P.K. Dwivedi, Fabrication of nanobeads structured perovskite type neodymium iron oxide film: Its structural, optical, electrical and LPG sensing investigations, Sensors and Actuators B: Chemical 177 pp. 730-739 (2013). IF = 3.535; AIS = 0.757

C.J. Belle, A. Bonamin, U. Simon, J. Santoyo-Salazar, M. Pauly, S Bégin-Colin, G. Pourroy, Size dependent gas sensing properties of spinel iron oxide nanoparticles, Sensors and Actuators B: Chemical 160 1 pp. 942-950 (2011). IF = 3.535; AIS = 0.757

N. Varalaxmi, K.V. Sivakumar, Structural, magnetic, DC-AC electrical conductivities and thermo electric studies of MgCuZn Ferrites for microinductor applications, Materials Science and Engineering C 33  1 pp. 145-152 (2013). IF = 2.404; AIS = 0.611

B. Zhao, Z. Nan, Effects of CTAB on magnetic properties of ZnLa0.02Fe1.98O4 crystals, Journal of Alloys and Compounds 580 pp. 321-326 (2013). IF = 2.39; AIS = 0.548

A. B. Gadkari, T.J. Shinde, P.N. Vasambekar, Synthesis, characterization and magnetic properties of La3+ added Mg-Cd ferrites prepared by oxalate co-precipitation method, Journal of Alloys and Compounds 509 3 pp. 966-972 (2011). IF = 2.39; AIS = 0.548

S. Singh, N. Verma, B.C. Yadav, R.C. Prakash, A comparative study on surface morphological investigations of ferric oxide for LPG and opto-electronic humidity sensors, Applied Surface Science 258 22 pp. 8780-8789 (2012). IF = 2.112; AIS = 0.539

A.K.M. Akther Hossain, T.S. Biswas, T. Yanagida, H. Tanaka, H. Tabata, T. Kawai, Investigation of structural and magnetic properties of polycrystalline Ni0.50Zn0.50-xMgxFe2O4 spinel ferrites, Materials Chemistry and Physics 120 2-3 pp. 461-467 (2010). IF = 2.072; AIS = 0.591

Citări I. Petrila:

E. De Biasi, C.A. Ramos, R.D. Zysler, Comparative study of the thermal fluctuations effects on the classical Stoner–Wohlfarth and analytical vector hysteron models, Journal of Magnetism and Magnetic Materials 353 (2014) 105–109, IF 1.826, AIS 0.49.

E. Oniciuc, L. Stoleriu, A. Stancu, Landau-Lifshitz-Bloch-Slonczewski simulations of the spin-transfer-torque driven magnetization switching assisted by Joule heating, Applied Physics Letters 102 (2013) 022405, IF 3.794, AIS 1.351.

D. Cimpoesu, L. Stoleriu, A. Stancu, Generalized Stoner-Wohlfarth model accurately describing the switching processes in pseudo-single ferromagnetic particles, Journal of Applied Physics 114 (2013) 223901, IF 2.210, AIS 0.796.

CI. Dobrotă, A. Stancu, What does a first-order reversal curve diagram really mean? A study case: Array of ferromagnetic nanowires, Journal of Applied Physics 113, 043928 (2013), IF 2.210, AIS 0.796.

Citări A-P. Râmbu:

K.G. Saw, S.S. Tneh, G.L. Tan, F.K. Yam, S.S. Ng, Z. Hassan, „Ohmic-Rectifying Conversion of Ni Contacts on ZnO and the Possible Determination of ZnO Thin Film Surface Polarity”, PLOS ONE, 9 (1), article numbere 86544, 2014, I.F=3,730; AIS=1,545.

M.Thambidurai, J.Y.Kim, C.-M. Kang, N. Muthukumarasamy, H.-J. Song, J. Song, Y.Ko, D. Velauthapillai, C.Lee, ”Enhanced photovoltaic performance of inverted organic solar cells with In-doped ZnO as an electron extraction layer”, Renewable Energy, 66, pp.433-442, 2014, I.F=2,989; AIS=0,837.

Y.-H. Choi, D.-H. Kim, S.-H. Hong, K.S. Hong, ”H2 and C2H5OH sensing characteristics of mesoporous p-type CuO films prepared via a novel precursor-based ink solution route”, Sensors and Actuators, B: Chemical, 178, pp. 395-403, 2013, I.F=3,535; AIS=0,763.

C.-S. Lee, I.-D. Kim, J. H. Lee, ”Selective and sensitive detection of trimethylamine using ZnO-In2O3 composite nanofibers”, Sensors and Actuators, B: Chemical, 181, pp. 463-470, 2013, I.F=3,535; AIS=0,763.
X. Fu, J. Liu, T.Han, X. Zhang, F.Meng, J. Liu, ”A three-dimensional hierarchical CdO nanostructure: Preparation and its improved gas-diffusing performance in gas sensor”, Sensors and Actuators, B: Chemical, 184, pp. 260-267, 2013, I.F=3,535; AIS=0,763.

F. Bayansal, B. Şahin, M. Yüksel, N. Biyikli, H.A.Çetinkara, H.S.Güder, ”Influence of coumarin as an additive on CuO nanostructures prepared by successive ionic layer adsorption and reaction (SILAR) method”, Journal of Alloys and Compounds, 566, pp. 78-82, 2013, I.F=2,390; AIS=0,547.

H.-H. Park, X. Zhang, K.W. Lee, K.H.Kim, S.H. Jung, D.S. Park, Y.S. Choi, H.-B. Shin, H.K Sung, K.H. Park, H.K. Kang, H.-H Park, C.K. Ko, ”Position-controlled hydrothermal growth of ZnO nanorods on arbitrary substrates with a patterned seed layer via ultraviolet-assisted nanoimprint lithography”, CrystEngComm, 15(17), pp. 3463-3469, 2013, I.F=3,879; AIS=0,756.

C.-H. Lee, J.H. Han, S.C. Schneider, F. Josse, ”Suspended and localized single nanostructure growth across a nanogap by an electric field”, Nanotechnology, 22(40), article number 405301, 2011, I.F= 3,979; AIS=1,205.

J.H. Han, N. Yoshimizu, C. Jiang, A. Lal, C.H Lee, ”Electroluminescence from a suspended tip-synthesized nano ZnO dot, Applied Physics Letters, 98(12), article number 121113, 2011, I.F=3,844; AIS=1,355.

M. Wang, Z. Xu, L. Ge, E.J. Kim, , S.H. Hahn J.Yang, X. Cheng, ”Texture-controlled growth of ZnO nanorods/films by aluminum ion and solvent”, Journal of Alloys and Compounds, 507(2), pp. L21-L25, 2010, I.F=2,134; AIS=0,547.