Richter / Schwedt EMC 2008

1;Preface Volume 2: Materials Science;5
2;Content;6
3;Direct observation of atomic defects in carbon nanotubes and fullerenes;38
4;Atomic studies on ferroelectric oxides by aberration corrected transmission electron microscopy;40
5;Dark-field electron holography for the measurement of strain in nanostructures and devices;42
6;Some device challenges towards the 22nm CMOS technology;44
7;Off-axis electron holography for the analysis of nm- scale semiconductor devices.;46
8;Influence of the oxide thickness on the SiO2/ Si interface structure;48
9;Challenges to TEM in high performance microprocessor manufacturing;50
10;Strain study in transistors with SiC and SiGe source and drain by STEM nano beam diffraction;52
11;Cluster growth and luminescence in ion-implanted silica;54
12;Coherence Measurements of Bulk and Surface Plasmons in Semiconductors by Diffracted Beam Holography;56
13;Comparison of 3D potential structures at different pn- junctions in FIB- prepared silicon and germanium samples measured by electron- holographic tomography;58
14;EELS analyses of metal-inserted high-k dielectric stacks;60
15;Low voltage SEM observations of the dopant contrast in semiconductors;62
16;NiSi2/ Si interface chemistry and epitaxial growth mode;64
17;Detailed investigation of a tunnel oxide defect in a flash memory cell using TEM- tomography;66
18;Overgrowth of the Mn4Si7 phase on/ around the hexagonal SiC and cubic MnSi impurity phases in the Mn4Si7/ Si films;68
19;HR-STEM EELS analysis of silicon 32 nm technology using a TITAN with a probe Cs corrector;70
20;Tomographic analysis of a FinFET structure;72
21;STEM EELS/EDX dopant analysis of nm-scale Si devices;74
22;Electron beam induced damage: An atom- by- atom investigation with TEAM0.5;76
23;The atomic structure of GaN-based quantum wells and interfaces;78
24;Using TEM to investigate antiphase disorder in GaP films grown on Si( 001);80
25;TEM characterization of InAs/GaAs quantum dots capped by a GaSb/ GaAs layer;82
26;The microstructure of (0001)GaN films grown by molecular beam epitaxy from a nanocolumn precursor layer;84
27;Compositional and Morphological Variation in GaN/ AlN/ AlGaN Heterostructures;86
28;TEM/STEM/EFTEM imaging and Valence Electrons Spectroscopy analysis of Ultra Low- K dielectrics;88
29;Epitaxial Orientations of GaN Grown on R-plane Sapphire;90
30;Microstructure and growth model of MBE- grown InAlN thin films;92
31;Silicon carbide modulated structures as a result of the introduction of 8H bands in a 4H matrix;94
32;HRTEM study of AlN/ 3C- SiC heterointerfaces grown on Si( 001) and Si( 211) substrates;96
33;Electron microscopy of GaAs/AlGaAs quantum cascade laser;98
34;Solving the crystal structure of highly disordered Sn3P4 by HRTEM;100
35;Determination of In-distribution in InGaAs quantum dots;102
36;Nanoanalytical investigation of the dielectric gate stack for the realisation of III- V MOSFET devices.;104
37;Phase mapping of uncapped InN quantum dots;106
38;STEM investigations of (In,Ga)N/GaN quantum wells;108
39;Defects in m-plane GaN layers grown on (100) .-LiAlO2;110
40;Improvements on InP epilayers by the use of monoatomic hydrogen during epitaxial growth and successive annealing;112
41;Study of microstructure and strain relaxation on thin InXGa1-xN epilayers with medium and high In contents;114
42;Convergence of microscopy techniques for nanoscale structural characterization: an illustration with the study of AlInN;116
43;TEM analyses of microstructure and composition of AlxGa1-xN/GaN distributed Bragg reflectors;118
44;TEM study of quaternary InGaAsN/GaAs quantum well structures grown by molecular beam epitaxy;120
45;Lattice polarity and capping of GaN dots studied by Z- contrast imaging;122
46;Investigation of swift ions damage in wide band gap wurtzite semiconductors;124
47;A TEM analysis of the damage formation in thin GaN and AlN layers during rare earth ion implantation at medium range energy;126
48;Characterization and modelling of semiconductor quantum nanostructures grown by droplet epitaxy;128
49;Transmission Electron Microscopy Investigation of Self- Organized InN Nano- columns;130
50;Investigations on a dilute magnetic semicondutor (Ga1-xMnxAs) by conventional TEM and EELS;132
51;About the determination of optical properties using fast electrons;134
52;Mapping uncompensated spins in exchange-biased systems by high resolution and quantitative magnetic force microscopy;136
53;Ferroelectric materials and structures suitable for data storage: The role of microscopies in establishing preparation- microstructure- property relations;138
54;Electronic structures at Magnetic Tunnel Junction interfaces: EELS experiments and FEFF calculations;140
55;Stability and reaction of magnetic sensor materials studied by atom probe tomography;142
56;Transmission Electron Microscopy Analysis of Tunnel Magneto Resistance Elements with Amorphous CoFeB Electrodes and MgO Barrier;144
57;Study of the intermixing of Fe–Pt multilayers by analytical and high- resolution transmission electron microscopy;146
58;Exploring structural dependence of magnetic properties in FePt nanoparticle by Cs- corrected HRTEM;148
59;Understanding the Chemistry of Molecules in Nanotubes by Transmission Electron Microscopy;150
60;Electrical and mechanical property studies on individual low- dimensional inorganic nanostructures in HRTEM;152
61;Atomic structure of SW-CNTs: correlation with their growth mechanism and other electron diffraction studies;154
62;TEM investigation ofSe nanostructures in/on Acetobacter xylinum cellulose gel- film;156
63;In-situ electron irradiation studies of metal- carbon nanostructures;158
64;Application of 80kV Cs-corrected TEM for nanocarbon materials;160
65;Control of gold surface diffusion on Si nanowires;162
66;Nanowires of Semiconducting Metal-oxides and their Functional Properties;164
67;Phase relations in the Fe–Bi–O system under hydrothermal conditions;166
68;Dose dependent crystallographic structure of InAs nanowires;168
69;HRTEM simulations of planar defects in ZnTe nanowires;170
70;A universal method for determination of helicities present in unidirectional groupings of graphitic or graphitic- like tubular structures;172
71;Microstructure of (112) GaAs nanorods grown by MBE;174
72;Structural characterization of ZnO nanorods grown on sapphire substrate by MOCVD;176
73;Nucleation of Metal Clusters on Carbon Nanotubes;178
74;EDX and linescan modelling for core/shell GaN/AlGaN nanowire analysis;180
75;Mo6S9-xIx nanowires: structure studies by aberration corrected high resolution TEM and STEM;182
76;Discrete Atom Imaging in Carbon Nanotubes and Peapods Using Cs- Corrected TEM Operated at 100keV;184
77;Extended Defects in Semiconductor Nanowires;186
78;Surface chemistry along a single silicon nanowire: Quantitative x- ray photoelectron emission microscopy ( XPEEM) of the metal catalyst diffusion;188
79;TEM characterization of metallic Ni nanoshells grown on gold nanorods and on carbon nanotubes;190
80;Electron Irradiation Effects in Carbon Nanostructures: Surface Reconstruction, Extreme Compression, Nanotube Growth and Morphology Manipulation;192
81;Crystallographic phase and orientation analysis of GaAs nanowires by ESEM, EDS, TEM, HRTEM and SAED;194
82;3-Dimensional Morphology of GaP-GaAs nanowires;196
83;Characteristics of Indium-Catalyzed Si Nanowires;198
84;HRTEM contribution to the study of extraterrestrial nanocarbons and some earth materials analogues;200
85;Time resolved in-situ TEM observations of Carbon Nanotube growth;202
86;Insulator-Metal transition: formation of Diamond Nanowires in n- type Conductive UNCD films;204
87;Field emission from iron-filled carbon nanotubes observed in-situ in the scanning electron microscope;206
88;Templated ordering of fullerenes on nanostructured oxide surfaces;208
89;Carbon nanostructures produced by chlorination of Cr3C2 and Cr(acac);210
90;Structural peculiarities of carbon onions, formed by different methods;212
91;Electron Energy Loss Spectroscopy of La@ C82 peapods;214
92;HRTEM studies of Y-junction bamboo-like CN-nanotubes;216
93;EF-TEM observation of biological tissue for risk assessment of fullerene nanoparticles;218
94;Looking at the surface of catalysts nanopowders;220
95;Gathering structural and analytical information on catalysts at sub- nanometer level with TEM;222
96;Size effect and influence of nanoparticles thickness on order/ disorder phenomena in CoPt nanoparticles;224
97;L10 ordering of FePt nanoparticles;226
98;Characterization of indium doped zinc oxide nanorods;228
99;Adsorbate-induced restructuring on Pt nanoparticles studied by environmental transmission electron microscopy;230
100;EELS in monochromated and Cs probe corrected TEM: a relevant alternative to soft- XAS in synchrotron to investigate nanostructures;232
101;Atomic-resolution Electron Microscopy at Ambient Pressure;234
102;Development of a system for TEM/STEM investigation of air- sensitive materials: Preliminary results on CeO2 reduction behaviour;236
103;Characterization of two new zeolites by combining Electron Microscopy and X- Ray Powder Diffraction analyses;238
104;Electron beam-induced effects on copper nanoparticles: coarsening and generation of twins;240
105;Role of the catalyst and substrate in nucleation and growth of Single Wall Carbon Nanotubes in HFCVD;242
106;PEMFC degradation phenomena studied by electron microscopy;244
107;TEM investigation of magnetite nanoparticles for biomedical applications;246
108;Catalytic soot oxidation studied by Environmental Transmission Electron Microscopy;248
109;Surface and interface structure of ceria supported ruthenium;250
110;Characterisation of materials with applications in the photocatalytic activation of water;252
111;Complementary EM study on highly active nanodendritic Raney- type Ni catalysts with hierarchical build- up;254
112;Structural properties of sol-gel synthesized Li+-doped titania nanowhisker arrays;256
113;Quantitative strain determination in nanoparticles using aberration- corrected HREM;258
114;Morphological characterization by HRTEM and STEM of Fe3O4 hollow nano- spheres;260
115;Direct observation of surface oxidation of Rh nanoparticles on ( 001) MgO;262
116;Characterization of catalyst poisoning in biodiesel and conventional diesel fuelled vehicles;264
117;TEM Characterisation of Highly Luminescent CdS Nanocrystals;266
118;Structure and composition of dilute Co-doped BaTiO3 nanoparticles;268
119;CoxFe3-xO4 catalytic materials for gaz sensors;270
120;(S)TEM investigation on the role of alumina dopants to prevent redox activity decay at high temperature in CePrOx / doped- Al2O3 catalysts;272
121;Sulfated Zirconia Catalysts: Structure and Performance Relationship, a TEM Study;274
122;A novel procedure for an accurate estimation of the lattice parameter of supported metal nanoparticles from the analysis of plan view HREM images;276
123;Microstructure of Pt particles and aggregates deposited on different carbon materials for fuel cells application;278
124;Low-loss-energy EFTEM imaging of triangular silver nanoparticles;280
125;Microstructure of cobalt nanocluster arrays fabricated by solid- state dewetting;282
126;Size Effect in Gold Nanoparticles Investigated by Electron Holography and STEM;284
127;Post-Mortem investigation of Fischer Tropsch catalysts using cryo- transmission electron microscopy;286
128;TEM Investigations on Cu-impregnated Zeolite Y catalysts via chloride free preparation;288
129;Coarsening of mass-selected Au clusters on amorphous carbon at room temperature;290
130;TEM investigations on Ni clusters electrodeposited on Carbon substrate;292
131;Near-surface structure of FePt nanoparticles;294
132;Overgrowth of gold nanorods: From rods to octahedrons;296
133;Reactive Diffusion under Laplace Tension in Spherical Nanostructures;298
134;Preparation and characterization of palladium nanoparticles with various size distributions;300
135;Electron microscopy for the characterization of nanoparticles;302
136;Titanium dioxide nanoparticles prepared from TiOSO4 aqueous solutions;304
137;Exploring nanoscale ferroelectricity in isolated and interacting colloidal ferroelectric nanocrystals using electron holography;306
138;STEM investigation on the one-pot synthesis of nanostructured CexZr1-xO2-BaO·nAl2O3 catalytic materials;308
139;Enhanced stability against oxidation due to 2D self- organisation of hcp cobalt nanocrystals;310
140;Loaded porous Zn4O(bdc)3 (metal@MOF-5) frameworks characterised by TEM;312
141;Growth behaviour of sub-nm sized focused electron beam induced deposits;314
142;Ruthenium deposition on CO2 - treated and untreated carbon black investigated by electron tomography;316
143;Size-dependent crystallinity and relative orientations of nano-Pt/.-Al2O3;318
144;Formation of nanometer-sized porous GaSb particles by vacancy clustering induced by electronic excitation;320
145;Structural investigations of membrane electrode assemblies in fuel cells via environmental scanning electron microscopy;322
146;In situ TEM nanocompression testing;324
147;Physical measurements on an individual nanostructure in a TEM nanolaboratory;326
148;TEM study of nanostructured BZO templates in ( 001)- LAO and ( 001)- STO substrates for the growth of superconducting YBCO films;328
149;Hydrothermal synthesis and characterisation of single crystal a-Fe2O3 nanorods;330
150;GaAs NWs and Related Quantum Heterostructures Grown by Ga- Assisted Molecular Beam Epitaxy: Structural and Analytical Characterization;332
151;A method for in-situ electrical measurements of thin film heterostructures using TEM and SEM;334
152;Electron Beam Nanofabrication and Characterization of Iron Compounds;336
153;TEM analysis of the chemical gradient in ( Zn, Mn) Te/ ZnTe nanowires;338
154;Structural and morphological characterization of GaN/ AlGaN quantum dots by transmission electron microscopy;340
155;Structure and stability of core-shell AuAg nanopartciels;342
156;In-situ studies on electrical and mass transport in multi- wall carbon and vanadium oxide nanotubes;344
157;Electron microscopy of nano-magnesium produced by Inert Gas Condensation for hydrogen storage;346
158;Two Different Structures of Crystalline Mesoporous Indium Oxide Obtained by Nanocasting Process;348
159;Measuring electrical properties of carbon nanotubes using liquid metal immersion, an in situ scanning electron microscopy study;350
160;TEM characterization of biogenic metal nanoparticles;352
161;On the structure of VxOy supported on multiwalled carbon nanotubes;354
162;Hexahedral nano-cementites catalysing the growth of carbon nanohelices;356
163;Investigation of organic/inorganic interfaces using nano- analytical transmission electron microscopy;358
164;Cationic ordering and interface effects in superlattices and nanostructured materials;360
165;Strain in SrTiO3 layers embedded in a scandate/ titanate multilayer system;362
166;Anisotropic growth of CGO islands on the ( 001)- LaAlO3 surface;364
167;Diffraction contrast imaging and high resolution transmission electron microscopy of multiferroic thin films and heterostructures;366
168;Imaging of compositional defects at silicide-silicon interfaces using aberration corrected HAADF;368
169;Characterization of nanometric oxide particles extracted from a steel surface onto a carbon replica;370
170;TEM characterization of textured silicon heterojunction solar cells;372
171;Investigation of the change in the microstructure of thin p- type Bi- Sb- Te thermoelectric films after heat treatment;374
172;EM study on forming Inorganic film with Periodically Organized Mesopores upon Polymer film;376
173;Nanointerface analysis of hard coatings deposited by IBAD;378
174;Transrotational crystals growing in amorphous Cu-Te film;380
175;TEM investigation of sputtered indium oxide layers on silicon substrate for gas sensors;382
176;Microstructure of Sr4Ru2O9 thin films and Bi3.25La0.75Ti3O12/ Sr4Ru2O9 bilayers;384
177;Analysis of the LSM/YSZ interface on micro- and nano- scale by SEM, FIB/ SEM and ( S) TEM;386
178;ESI and HRTEM of chemical solution deposited (CSD)YBa2Cu3O7- d coated conductors;388
179;CTEM diffraction contrast of biaxially-textured La2Zr2O7 buffer layers on nickel substrates;390
180;TEM sample preparation of YBCO-coated conductors: conventional method and FIB;392
181;Nucleation and evolution of biepitaxial YBa2Cu3O7-d thin film grown on SrTiO3 and MgO substrates;394
182;An investigation of Al-Pb interfaces using probe- corrected high- resolution STEM;396
183;Spectrometric Full-Color Cathodoluminescence Electron Microscopy Study of Grain Boundaries of ZnO Varistor;398
184;Study of structural properties of Mo/ CuInS2/ ZnS used in solar cells by TEM;400
185;Texture analysis of silicide thin films: combining statistical and microscopical information;402
186;Statistical Tomography of 3D Thin Film Structure using Transmission Electron Microscopy;404
187;Analytical TEM investigations of Pt/YSZ interfaces;406
188;Microstructure and self-organization of nano-engineered artificial pinning centers in YBa2Cu3O7-x coated conductors;408
189;The determination of the interface structure between ionocovalent compounds: the general case study of the Al2O3- ZrO2 large misfit system;410
190;Simple method to improve quantification accuracy of energy- dispersive X- ray spectroscopy in an analytical transmission electron microscope by specimen tilting;412
191;Comparison of transmission electron microscopy methods to measure layer thicknesses to sub- monolayer precision;414
192;Determination of interface structure of YBCO/LCMO by a spherical aberration- corrected HRTEM;416
193;HREM characterization of BST-MgO interface;418
194;TEM investigations on novel shape memory systems with Ni- depletions;420
195;Crystalline-to-amorphous transformation in intermetallic compounds by severe plastic deformation;422
196;EELS quantification of complex nitrides in a 12 % Cr steel;424
197;Formation of ordered solid solution during phase separation in Cu- Ag alloy films;426
198;Precipitates and magnetic domains in an annealed Co38Ni33Al29 shape memory alloy studied by TEM;428
199;On the gallium accumulation at the boundaries of Al layers in FIB prepared TEM specimens;430
200;Precipitation in an Al-Mg-Ge Alloy;432
201;Interaction between dislocations and oxide precipitates in an aluminium containing ferritic stainless steel;434
202;Voids Associated with Nano-Particles of Tin in Aluminium;436
203;Influence of thermal treatments in microstructure and recrystallization peak energy of P/ M Al- Mg- X alloys;438
204;Analytical TEM of Nb3Sn Multifilament Superconductor Wires;440
205;3D Reconstruction of Ni4Ti3 Precipitates in Ni- Ti by FIB/ SEM Slice- and- View;442
206;Electron microscopy study of Mg78.5Pd21.5: a phase with nanothin 120 ° rotational twin domains;444
207;Analysing small precipitates in a ferritic steel matrix;446
208;Failure analysis of first stage land-based gas turbine blades;448
209;TEM investigation of microstructures in low-hysteresis Ti50Ni50-xPdx alloys with special lattice parameters;450
210;Evidence of silica layer at the interface between ferrite and the chromium oxide scale in oxidized Fe- Cr- Si alloys;452
211;Applying a classical 2 beam diffraction contrast method for measuring nanoprecipitate misfit;454
212;Microstructure and interface composition of .-phase in Co38Ni33Al29 shape memory alloy;456
213;Microstructural characterization of the aluminum alloy 6063 after work hardening treatments;458
214;Microstructure- mechanical property relationships in dual phase automotive strip steels;460
215;Electron diffraction analysis of nanocrystalline Fe-Al;462
216;Dual Beam and TEM characterisation of deformation structures in fatigued austenitic stainless steel;464
217;Microstructural characterisation of steel heat-treated by the novel quenching and partitioning process;466
218;Martensite tempering behaviour relevant to the quenching and partitioning process;468
219;Chemical and structural analysis of NiAl- Al2O3 interface by FETEM and STEM;470
220;TEM investigations of aluminum precipitate in eutectic Si of A356 based alloys;472
221;Microstructure of slow-cooled wedge-cast Cu58Co42 alloy with a metastable liquid miscibility gap;474
222;TEM investigations of Elektron 21 magnesium alloy after long- term annealing;476
223;Microstructure of AJ62 magnesium alloy after long- term annealing;478
224;EELS characterisation of the interface between nanoscaled ODS particles and matrix in advanced fusion steels;480
225;Microstructure-mechanical property relationships in a maraging 250 steel;482
226;Microstructure of Co-Ni based superalloys;484
227;Precipitation reactions in superferritic stainless steels;486
228;Effect of ageing in cold rolled superaustenitic stainless steels;488
229;Structure and properties of P/M material of AlMg – SiO2 system processed by mechanical alloying;490
230;Extrusion of rapidly solidified 6061 + 26 wt% Si alloy;492
231;TEM and EELS study of carbide precipitation in low alloyed steels;494
232;Microstructural analysis of plastically deformed complex metallic alloy .-AlMnNi;496
233;Electron microscopy analysis of Mn partitioning in retained austenite- martensite- bainite islands;498
234;TEM characterization of microstructures in a Ni2MnGa alloy;500
235;Nanocrystalline FeAl produced by high pressure torsion studied by TEM in 3D;502
236;HRTEM study of precipitates in Al-Mg-Si-(Ag, Cu) alloys;504
237;Martensite structure of non-stoichiometric Co2NiGa ferromagnetic shape memory alloy;506
238;Electron microscopy of Fe and FeB atomic clusters in the Fe- based amorphous alloys structure;508
239;Core/Shell Precipitates in Al-Li-Sc-Zr Alloys;510
240;Analysis of basic mechanisms of hardening in ODS EUROFER97 steel using in-situ TEM;512
241;TEM investigation on the acicular ferrite precipitation in .’-Fe4N nitride;514
242;Orientation Relationships between the d-ferrite Matrix in a Duplex Stainless Steel and its Decomposition Products: the Austenite and the . and R Frank-Kasper Phases;516
243;TEM study of localized deformation-induced disorder in intermetallic alloys of L12 structure;518
244;SEM and TEM study of dynamic recrystallisation of zirconium alloy;520
245;Effects of solution treatment and test temperature on tensile properties of high strength high Mn austenitic steels;522
246;Microstructure evolution during Ni/Al multilayer reactions;524
247;TEM investigation of severely deformed NiTi and NiTiHf shape memory alloys;526
248;TEM studies of nanostructured NiTiCo shape memory alloy for medical applications;528
249;TEM investigations of microalloyed steels with Nb, V and Ti after different treatments;530
250;Initial Stages of the . Phase Transformation;532
251;TEM study of the Ni-Ti shape memory micro-wire;534
252;Multi-scale observations of deformation twins in Ti6Al4V;536
253;Nd:YAG laser joining between stainless steel and nickel- titanium shape memory alloys;538
254;Focused Ion Beam application on the investigation of tungsten- based materials for fusion application;540
255;HRTEM of NiTi shape memory alloys made amorphous by high pressure torsion;542
256;Is the lattice structure of the martensite in nanocrystalline NiTi base centred orthorhombic?;544
257;TEM study of the NiTi shape memory thin film;546
258;Sub-nano analysis of fine complex carbide in high strength steel with probe Cs ( S) TEM;548
259;Characterization of morphology and microstructure of different kinds of materials at NTNU Mater Sci EM Lab;550
260;Characterization of a Ti64Ni20Pd16 thin film by transmission electron microscopy;552
261;Analytical electron microscopy investigations of a microstructure of single and polycrystalline ß-Mg2Al3 Samson phase;554
262;Grain boundary interfaces in ceramics;556
263;Structure and chemistry of nanometer-thick intergranular films at metal- ceramic interfaces;558
264;Studying nanocrystallization behaviour of different inorganic glasses using Transmission Electron Microscopy;560
265;HRTEM and Diffraction Analysis of Surface Phases in Nanostructured LiMn1.5Ni0.5O4 Spinel;562
266;The structural origin of the antiferroelectric properties and relaxor behavior of Na0.5Bi0.5TiO3;564
267;Electron beam probing of insulators;566
268;Characterization of Ge-based clathrates oxidized in air by means of TEM and SEM;568
269;Microstructure analysis of thin Cr2AlC films deposited at low temperature by magnetron sputtering;570
270;Study of structural variation in YBaCo4O7+ by electron diffraction;572
271;Exsolution phenomena in glass-ceramic systems;574
272;Transmission Electron Microscopy Studies of Lead- Free Ferroelectrics in the System BNT- BT-KNN;576
273;ReO3- related aluminum tungsten oxides showing a novel type of crystallographic shear structure;578
274;Structural Characterisation by TEM of a New Homologous Series Bi2n+4MonO6(n+1); n=3,4,5 and 6;580
275;Structural characterisation of a new rich iron layered oxide TleSr25-eFe30O76-x;582
276;EBSD studies of stress concentrations in ferroelectrics;584
277;High-resolution pictures of nucleation growth triangle of 180 ° ferroelectric domain wall in a thin film of LiTaO3 obtained by Lorentz DPC- STEM;586
278;Size and structure of barium halide nano-crystals in optically active fluorozirconate- based glasses;588
279;Domain Structure And Microstructure Development of BaTiO3 Doped With Rare- Earth Dopants;590
280;SEM and EDS Analysis of BaTiO3 Doped With Yb2O3 and Ho2O3;592
281;Structure and superconductivity of Pr-Ba-Cu-O crystals prepared by ambient pressure synthesis using citrate pyrolysis method;594
282;Electron Diffuse Scattering in epitaxially grown SrTiO3 thin film;596
283;Investigation of the hydration of calciumsulfate hemihydrates with different microscopic methods;598
284;Investigation of holes in calciumsulfate-hemihydrate crystals by different microscopic methods;600
285;Analytical and high-resolution TEM investigation of Boron- doped CeO2;602
286;Accommodation of the compositional variations in the Ca1-xSrxMnO3-d (0=x=1, 0=d=0.5) system;604
287;Evidence of SrO(SrTiO3)n Ruddlesden-Popper Phases by High Resolution Electron Microscopy and Holography;606
288;New Barium Antimony Aluminates evidenced by TEM techniques;608
289;(Multi-)ferroic domain walls– a combined ab-initio and microscopical investigation;610
290;Diagnostic of Li battery cathode by EELS, first principles calculation and spectrum- imaging with multi- variate analysis;612
291;Local electronic structure analysis on Ce3+-containing materials by TEM- EELS and first principles calculations;614
292;Local chemical inhomogeneities in NaNb1-xTaxO3 as observed by HRTEM and HAADF-STEM;616
293;The influence of lanthanum doping on the structure of PbZr0.9Ti0.1O3 ceramics;618
294;Anomalous absorption of electrons during electron diffraction on BaTiO3 single crystals near phase transition at 120 ° C;620
295;Template-assisted synthesis and characterization of SrTiO3 nanostructures;622
296;(S)TEM/EELS characterisation of a multilayer C/ Cr PVD coating;624
297;High resolution imaging of magnetic structures in a TEM – what is possible?;626
298;Phase segregation leading to spontaneous outcropping of (Sr,La)Ox dots in La1-xSrxMnO3 films;628
299;Microstructure of epitaxially strained LaCoO3 thin films;630
300;Are the samples really flat? Influence of the supporting membrane on the magnetization of patterned micromagnets;632
301;HRTEM characterization of core-shell Fe@C and Fe@ SiO2 magnetic nanoparticles prepared by the arc- discharge plasma method;634
302;Nanofabrication of ferromagnetic nanotips and nanobridges by 2D and 3D electron- beam cutting;636
303;An investigation into the crystallization of the MgO barrier layer of a magnetic tunnel junction;638
304;FeCoAlN films with induced magnetic anisotropy;640
305;The martensitic microstructure of 5M and NM martensites in off- stoichiometric Ni2MnGa ferromagnetic shape memory alloys;642
306;TEM characterization of nanometer-sized Fe/MgO granular multilayer thin films grown by pulsed laser deposition;644
307;Structural modification and self-assembly of nanoscale magnetite synthesised in the presence of an anionic surfactant;646
308;Electron microscopy phase retrieval of perpendicular magnetic anisotropy ( PMA) FePd alloys;648
309;Magnetic domain wall propagation in nanostructures of alloys with perpendicular magnetic anisotropy;650
310;The effect of annealing in the microstructure and magnetic properties of NiCuZn ferrites;652
311;Microstructural and compositional analyses of nano- structured Co- Pt thin films;654
312;L10- type ordered structure of FePd nanoparticles studied by high- resolution transmission electron microscopy;656
313;Structural and chemical characterization of Co- doped ZnO layers grown on Si and sapphire;658
314;TEM studies of cobalt-doped zinc oxide films;660
315;Nanocrystallization of amorphous Fe40Ni38B18Mo4 alloy;662
316;Structural and compositional properties of Sm- Fe- Ta magnetic nanospheres prepared by pulsed- laser deposition at 157 nm in a N2 atmosphere;664
317;Characterization of Ni-Mn-Ga magnetic shape memory alloys using electron holography and Lorentz microscopy;666
318;Energy Loss Magnetic Chiral Dichroïsm (EMCD) for magnetic material;668
319;Determining the nanoscale chemistry and behavior of interfaces and phases in Al- Si(- Cu- Mg) nanoparticles using in- situ TEM;670
320;Dislocations in AlPdMn quasicrystals: contrast in TEM and physical properties;672
321;Characterization of a-plane GaN films grown on r- plane sapphire substrate by electron microscopy;674
322;A method for atomistic/continuum analysis of defects in large HRTEM images;676
323;High resolution electron microscopy of interfaces in ultrafine microstructures of Zr and Ti based alloys;678
324;Anisotropic strain relaxation in (110) La2/3Ca1/3MnO3 thin films;680
325;Metadislocations in complex metallic alloys: core structures investigated by aberration- corrected scanning transmission electron microscopy;682
326;TEM of high pressure torsion processed intermetallic Zr3Al;684
327;Multiscale characterisation of the plasticity of Fe- Mn- C TWIP steels;686
328;Misfit analysis of the InN/GaN interface through HRTEM image simulations;688
329;Application of TEM for Real Structure Determination of Rare Earth Metal Compounds;690
330;Quantitative Dislocation Analysis of 2H AlN:Si grown on ( 0001) Sapphire;692
331;Transrotational crystals in crystallizing amorphous films: new solid state order or novel extended imperfection;694
332;Determination of precise orientation relationships between surface precipitates and matrix in a duplex stainless steel;696
333;Interfaces in Cu(In,Ga) Se2 thin film solar cells;698
334;In-situ electron beam irradiation of nanopipes in GaN;700
335;The atomic structure of an incommensurate (001)-(110) Si grain boundary resolved thanks to a probe Cs- corrector;702
336;Atomic structure and dopant segregation of [0001] tilt grain boundaries in ZnO bicrystals;704
337;TEM study of strain and defect engineering with diluted nitride semiconductors;706
338;Investigation of the Co-Precipitation of Copper and Nickel in Silicon by Means of Transmission Electron Microscopy;708
339;Micro-structure analysis of a friction-stir welded 2024 aluminium alloy using electron microscopy;710
340;Deformation defects in a metastable ß titanium alloy;712
341;Defect generation and characterization in 4H-SiC;714
342;Investigation of defects in polymorph B enriched zeolite Beta;716
343;Optimizing electron diffraction and EDS for phase identification in complex structures: application to multilayered Ti- Ni- P coatings;718
344;Advanced analytical transmission electron microscopy to investigate the nano- graded materials properties;720
345;Characterisation of Nickel Nanocomposites by SEM, TEM and EBSD;722
346;Characterisation of Gold Nanocomposites by SEM, TEM and EBSD;724
347;Alumina Coatings as Protection against Corrosive Atmosphere;726
348;Advanced Multilayer Systems for X-ray Optics: Quality Assessment by TEM;728
349;Surface investigation of SU-8 by atomic force and scanning electron microscopy;730
350;SEM and TEM investigations of electrophoretical deposited Si3N4 and SiC particles in siloxane of steel substrate;732
351;Contribution of electron microscopy techniques to the chemical and structural characterization of TiC/ a- C nanocomposite coatings;734
352;TEM investigations of the Ti/TiN multilayered coatings deposited on the Ti- 6Al- 7Nb alloy;736
353;Microstructural examination of Al and Cr alloyed zinc coatings on low carbon steels;738
354;Study of the structure and high temperature oxidation resistance of high alloyed tool steels;740
355;A comparative study of NiCrBSi and Al coated steels with thermal spray process in different environments;742
356;Microscopical study of the influence of zinc addition on the structure of WO3;744
357;Microstructural Studies by Electron Microscopy Techniques of TiAlSiN Nanostructured Coatings;746
358;Structural and interface studies of a nano-scale TiAlYN/ CrN/ alumina coating;748
359;An investigation of SiC-fiber coatings;750
360;HRTEM-EELS study of atomic layer deposited thin rare earth oxide films for advanced microelectronic devices;752
361;New Fullerene like materials for tribological applications: TEM and EELS study;754
362;Phase determination of nanocrystalline Al-Cr-O coatings by analytical TEM;756
363;Bioinspired synthesis of nanostructures based on S- layer lattices;758
364;Direct Imaging of Carbon Nanoparticles inside Human Cells;760
365;Micro- and Nano-Textured Surfaces on Ti-Implants Made by Various Methods;762
366;Determination of the biocompatibility of biomaterials by scanning electron microscopy ( SEM);764
367;Quantitative evaluation of the long-term marginal behaviour of filling restorations of human teeth using three- dimensional scanning electron microscopy;766
368;The analysis of Si doped hydroxyapatite coatings using FIBSEM, TEM and RHEED;768
369;Electron microscopic investigations of the polymer/mineral composite material nacre;770
370;Studies on the microstructure of fresh-cut melon;772
371;Ceramic-loaded mineralizing bioresorbable polymers for orthopaedic applications;774
372;AFM and TEM study of Ag coated insulin-derived amyloid fibrils;776
373;Transmission Electron Microscopy studies of bio-implant interfaces using Focused Ion Beam microscopy for sample preparation;778
374;AFM and SEM of Wax Crystallisation on Artificial Surfaces Controlled by Temperature and Solvents;780
375;Characterization of layer-by-layer microcapsules made of hyaluronic acid by CLSM, SEM and TEM;782
376;Atomic force microscopy analysis of crystalline silicon functionalization with oligonucleotides;784
377;Hidden hierarchy of microfibrils within fluorapatite gelatine nanocomposites induced by intrinsic electric dipole fields;786
378;Self-assembled block copolymer structures studied by transmission electron microtomography;788
379;Quantitative chemistry and orientation of polymers in 2- d and 3- d by scanning transmission X- ray microscopy;790
380;Characterization of cavitation processes in filled semi- crystalline polymers;792
381;Quantitative analysis of protein gel structure by confocal laser scanning microscopy;794
382;Thermal stability of organic solar cells: the decay in photocurrent linked with changes in active layer morphology;796
383;Determining absorptive potential variation in electron beam sensitive specimens using a single energy- filtered bright- field TEM image;798
384;Elemental distribution of soft materials with newly designed 120kV TEM/ STEM;800
385;Preparation of titanate nanotubes and their polymer composites;802
386;Nanometer size wear debris generated from ultrahigh molecular weight polyethylene;804
387;Analysis of nano-composites based on carbon nanoparticles imbedded in polymers;806
388;New developments in SEM for in situ tensile tests on polymers;808
389;A study of the spatial distributions of the carbon blacks in polypropylene composites using TEM- Tomography and quantitative image analysis;810
390;A study of the chain-folded lamellae structure and its array in the isotactic polypropylene spherulites by HAADF- STEM and HV- TEM Tomography techniques;812
391;Microstructural analysis of ultra-thin nanocomposite layers fabricated by Cu+ ion implantation in inert polymers;814
392;In-situ experiments on soft materials in the environmental SEM – Reliable results or merely damage?;816
393;Structural studies on V-amylose inclusion complexes;818
394;Multilamellar nanoparticles from PS-b-PVME copolymers;820
395;TEM/SEM characterisation of hybrid titanoniobiates used as fillers for thermoplastic nanocomposites;822
396;Phase transitions and ordering in liquid crystals – a case study;824
397;Study of degradation and regeneration of silicon polymers using cathodoluminescence;826
398;Orthogonal self-assembly of surfactants and hydrogelators: towards new nanostructures;828
399;Structure of particles formed during Se redox process in aqueous polymer solutions;830
400;Exploring the 3D organisation of high-performance organic solar cells;832
401;Morphological study on three kinds of two- dimensional spherulites of PBT;834
402;Solution-Grown Crystals of Optically Active Propene – Carbon Monoxide Copolymer;836
403;New insights into ultra-high pressure metamorphism from TEM studies;838
404;Characterization of a (021) twin in coesite using LACBED and precession electron diffraction;840
405;Rubens in the Prado National Museum: analytical characterization of ground layers;842
406;Development of the FIB-cryo-SEM approach for the in- situ investigations of the elusive nanostructures in wet geomaterials;844
407;TEM applied on the interface characterisation of the replacement reaction chlorapatite by hydroxyapatite;846
408;Quantitative study of valence states of zirconolites;848
409;Study of Organic Mineralogical Matter by Scanning Probe Microscopy;850
410;Research of Nanoparticle Aggregates from Water Colloidal Solutions of Natural Carbon Substances and Fullerenes by Atomic Force Microscopy;852
411;Diffusion in Synthetic Grain Boundaries;854
412;An examination of Van Gogh’s painting grounds using analytical electron microscopy – sem/ fib/ tem/ edx;856
413;Amorphisation in fresnoite compounds – a combined ELNES and XANES study;858
414;TEM study of Comet Wild 2 pyroxene particles collected during the stardust mission;860
415;The mechanism of ilmenite leaching during experimental alteration in HCl- solution;862
416;Microstructure and Texture from Experimentally Deformed Hematite Ore;864
417;Identifying pigments in the temple of Seti I in Abydos ( Egypt);866
418;Nanostructural study of ground layers of canvas of Rubens at “ El Prado” National Museum;868
419;Micro- and nano-diamond particles in carbon spherules found in soil samples;870
420;The use of FIB/TEM for the study of radiation damage in radioactive/ non- radioactive mineral assemblages;872
421;Non-destructive 3D measurements of sandstone’s internal micro- architecture using high resolution micro- CT;874
422;Author Index;876
423;Subject Index;896