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1 t the transition has not been resolved on an atomic scale.
2 ase (PRK) has yet to be characterized at the atomic scale.
3 oviding access to picosecond dynamics at the atomic scale.
4 , phonon oscillations can be observed on the atomic scale.
5 are not fully understood, especially at the atomic scale.
6 ramolecular structures with precision on the atomic scale.
7 their formation is poorly understood at the atomic scale.
8 gh-density data storage at the molecular and atomic scale.
9 ature of MG structure and deformation at the atomic scale.
10 films on Al2 O3 and InGaAs substrate at the atomic scale.
11 insight into how the process proceeds at the atomic scale.
12 abricate DQDs are difficult to extend to the atomic scale.
13 quires controlling self-assembly down to the atomic scale.
14 d time scale, with spatial resolution on the atomic scale.
15 ctic Si in hypereutectic Al-Si alloys at the atomic scale.
16 logical states to magnetic impurities at the atomic scale.
17 s never been directly seen and understood at atomic scale.
18 with the precise control of thickness at the atomic scale.
19 ocrystals during mechanical straining on the atomic scale.
20 ities"), enabling optical experiments on the atomic scale.
21 molecules to be both gated and imaged at the atomic scale.
22 trinsic chiral properties of the film on the atomic scale.
23 lattice oxygen atoms/oxygen vacancies at the atomic scale.
24 dy the electronic structure of matter at the atomic scale.
25 -dimensional reconstruction of matter at the atomic scale.
26 roup indium catalysts for CO(2) reduction at atomic scale.
27 e mechanism of this phenotypic change at the atomic scale.
28 and the design of efficient catalysts at the atomic scale.
29 t the mesoscale and inorganic epitaxy at the atomic scale.
30 ed to describe early-stage nucleation at the atomic scale.
31 y and partially ordered nanoparticles at the atomic scale.
32 understanding of molecular transport at the atomic scale.
33 ng of the initial steps of nucleation at the atomic scale.
34 o understand the initiation mechanism on the atomic scale.
35 ciprocal mechanism that persists down to the atomic scale.
36 mation on the distribution of dopants on the atomic-scale.
37 ight prospects for observing dynamics at the atomic-scale.
38 e of growth of twins are investigated at the atomic scales.
39 s, and, ultimately, energy harvesting at the atomic scales.
40 ethod of fabricating artificial sequences of atomic-scale 2D layers, structurally independent of thei
47 e their structure, including defects, at the atomic scale and develop a detailed understanding of the
48 eveal the detailed transition process at the atomic scale and reproduce this numerically using phase-
49 of function of such electrocatalysts at the atomic scale and under realistic working conditions is a
50 ng sufficient freedom to design catalysts at atomic-scale and explore the unique catalytic properties
51 d shape chirality and mixed contributions of atomic-scale and shape chirality to the chiroptical prop
52 of Fe(II)-catalyzed recrystallization at the atomic scale, and substantiate speculation regarding the
53 investigation of their catalytic sites at an atomic scale, and to an in-depth understanding of the bi
54 Lunar and asteroidal materials, meaning this atomic-scale approach holds great potential in establish
55 alline hybrid--where mixtures of two or more atomic-scale ( approximately 3 nm or less) polar dielect
56 d conformal iron oxide nanotube arrays on an atomic scale are successfully prepared by atomic layer d
57 ch allow fine control over the motion on the atomic scale because of self-alignment mechanisms and fo
58 few-layer micas that are rather thick on the atomic scale become excellent proton conductors if nativ
60 and biomineral crystal imperfections at the atomic scale; biopolymer fibril reconfiguration/deformat
61 highly ordered pyrolytic graphite, utilizing atomic-scale 'blisters' created in the top layer by neon
62 orientations and is further validated at the atomic scale by recourse to molecular dynamics simulatio
63 chemical, electronic, and spin phenomena at atomic scales can manifest in their collective propertie
64 sembly of two-dimensional crystals to create atomic-scale capillaries and study condensation within t
65 pected from the commensurability between the atomic-scale capillaries and water molecules(20,21).
66 nalysis methods, the E-CNA method allows for atomic scale characterization of the structure of differ
67 probe tomography (APT) facilitates nano- and atomic-scale characterization and analysis of microstruc
69 electron microscopy techniques have allowed atomic-scale characterization of edge dislocations from
73 edge-mode electrical transport in suspended atomic-scale constrictions of single and multilayer grap
75 ovskite nickelates using a strategy based on atomic-scale control of inversion-preserving (centric) d
76 ation of spatially uniform chiral films with atomic-scale control of their handedness could provide a
78 urthermore, by confining the filament to the atomic scale, current switching characteristics are obse
80 x Hfx NiSn1-y Sby alloys containing inherent atomic-scale defect disorders are produced in one hour b
81 raction of external magnetic fields with the atomic scale defects intrinsic to the semiconductor.
82 defects directly is described and disordered atomic-scale defects are demonstrated to be responsible
83 ecause inter-valley scattering is induced by atomic-scale defects at real bilayer graphene edges.
86 suspended monolayers that have few, if any, atomic-scale defects, as shown by gas permeation tests,
89 ents in chemistry and material sciences, the atomic-scale description of the initial photoinduced pro
91 ding of core-shell formation is critical for atomic-scale design and control of the platinum shell, w
92 uirements pose considerable difficulties for atomic-scale design strategies such as magnetic ion subs
95 ust originate from subtle differences in the atomic-scale details of their solid-liquid interfaces, i
97 between two arbitrary paths and extract the atomic-scale determinants responsible for their differen
98 elling spectroscopy) enabled the unambiguous atomic-scale determination of fourteen hexagonal grid is
100 and precipitates, and their relation to the atomic scale diffusion mechanisms of solute-vacancy clus
101 e the unique dynamical feature of a BP as an atomic scale discrete spin texture and allude its influe
102 magentism to ferromagnetism is attributed to atomic-scale disorder in chromium nanoparticles, leading
104 pervised learning approach for understanding atomic scale dynamics in arbitrary phases and environmen
107 energy and makes it possible to observe the atomic-scale dynamics in a timescale of picoseconds.
108 ly scaled towards the one-dimensional limit, atomic-scale effects become increasingly important.
109 bination of machine-learning analysis of the atomic-scale electron microscopy imaging data and phenom
112 he effects of crystal-plastic deformation on atomic-scale elemental distributions in zircon revealing
113 canning transmission electron microscopy and atomic scale energy-dispersive X-ray mapping, we observe
114 er nature of atomic-layer deposition enables atomic scale engineering of the gain layer properties an
115 ow Ti/Ge disorder, as it is sensitive to the atomic scale environment without long-range periodicity
117 er dimension (n) and strain; however, direct atomic-scale evidence for such competing states is curre
124 se behaviour in terms of thermally activated atomic-scale fluctuations that make and break a quantum
127 particle porosity and fractal arrays at the atomic scale for the S-Mo-S(Co) 2D- layers that conform
128 aphical and chemical information at the nano/atomic scale from ambient to ultrahigh-vacuum and electr
130 giant AMR is an indispensable combination of atomic scale giant-MR-like effect and magnetocrystalline
131 , however, and does not typically lead to 2D atomic-scale growth of anisotropic platelet crystals, bu
132 e dynamic process of Li-ion transport at the atomic scale has long been attempted in solid state ioni
134 mental data were used to generate an average atomic-scale helical filament model, which anticipated a
137 Furthermore, we also propose a new type of atomic-scale hybrid--the crystalline hybrid--where mixtu
139 distances projected on different planes, the atomic-scale images of several different orientations, e
140 this work, using a combination of real-space atomic scale imaging with atomic pair distribution funct
141 d Raman spectroscopy (UHV-TERS) combines the atomic-scale imaging capability of scanning probe micros
147 the interface structure and dynamics on the atomic-scale, including that of the liquid electrolyte i
148 eady needed for qubit manipulation to obtain atomic scale information about donor quantum dots and th
149 ecific remains undetermined, through lack of atomic-scale information on the behavior of FGs and thei
150 ations throughout the self-assembly provided atomic-scale information on the thickness of the [(SnSe(
151 rearrangements in Pt3Co nanoparticles at the atomic scale: initial random (alloy) elemental distribut
153 soluble ligand-binding domain have provided atomic-scale insights into receptor-ligand interactions,
154 rcooled liquid metal in terms of few crucial atomic-scale interaction and anharmonicity parameters.
157 ceptionally powerful tool for the systematic atomic-scale interrogation of molecular adsorbates.
158 face structures under reaction conditions at atomic scale is critical for understanding reactivity.
160 y highlights that designing interface at the atomic scale is of general importance for functional spi
162 on structural features at the molecular and atomic scales is reviewed, namely, the structure-relaxiv
163 of defect annihilations, particularly at the atomic scale, is important for the preparation of high-q
165 show for the first time that non-equilibrium atomic-scale lattice defects can be detected in nanopart
167 in ferecrystals: turbostratically disordered atomic-scale layered structures of single-, bi- and tril
168 nderstanding how these materials assemble at atomic scale limits fundamental insights needed to impro
169 study sheds light on deeper understanding of atomic-scale local configuration in TMDs and a methodolo
174 ties for studying the emergent properties of atomic-scale mechanical and physicochemical interactions
176 s and theoretical modeling, we delineate the atomic-scale mechanisms associated with the nucleation,
177 highly active, and we delineate the specific atomic-scale mechanisms associated with their nucleation
182 stigate the twinning behavior as well as the atomic scale micromechanisms of growth of tension and co
183 and a carbonate electrolyte through combined atomic-scale microscopy and in situ and operando techniq
187 es and node vacancies, because, in prospect, atomic-scale modulation of the composition, areal densit
188 ning probe imaging, electrical transport and atomic-scale molecular dynamics, we demonstrate that con
190 ings a very promising prospect for resolving atomic-scale motions that were not accessible by previou
191 impede photon collection, and the emitters' atomic scale necessitates the use of free space optical
193 ole that oxygen has on Eu in GaN, as well as atomic scale observation of diffusion and local concentr
195 scuss the future challenges and prospects of atomic-scale observation of catalysts in understanding o
196 Here we resolve this long-standing puzzle by atomic-scale observation of electron-gas formation for s
200 Overall, our results provide insights at the atomic scale on the effects of charge distributions over
201 s elemental distribution of Co and Fe at the atomic-scale optimized BMOF and Co/Fe ratio of 9:1.
203 etric spinel structure (AB2O4), in which the atomic-scale ordering is conventionally described accord
204 are employed to identify the 3D nature of an atomic-scale ordering of liquid Ga in contact with solid
205 ly and structurally dissimilar solids toward atomic-scale ordering, and offer an alternative to conve
207 redict that diffraction can reveal localised atomic-scale origins of optical and electronic phenomena
209 but abundant at graphene's edges, switchable atomic-scale phonon emitters provide the dominant dissip
211 a oxidation method is developed to fabricate atomic-scale pores in the basal planes of electrochemica
212 the reduction of material dimensions to the atomic scale poses a challenge for traditional measureme
213 h vertical compositions that are designed to atomic-scale precision provide the foundation for modern
216 atment is provided: matching polarity at the atomic scale prevents lignin aggregation and disrupts ce
217 velength radiation can be used as a powerful atomic-scale probe for light-matter interactions and for
218 lo (KMC) simulation method provides detailed atomic scale processes during a solid growth over realis
219 ssion electron microscopy to investigate the atomic scale processes of silver-based nanoparticles, wh
220 boratory-based studies have shown that these atomic-scale processes can profoundly influence the arch
222 -decorated F-actin-tropomyosin together with atomic scale protein-protein docking of tropomyosin to t
223 ion about biological macromolecules near the atomic scale provides important insight into the functio
224 Direct visualization of vortex strings at atomic scale provides insight into the mechanisms and ma
231 single-crystal graphene TEM grids, in which atomic-scale resolution imaging and temporal evolution o
232 s on the polymers to obtain information with atomic-scale resolution on how the monomer structure aff
233 hen the nanorod is annealed, we observe with atomic-scale resolution the transformation from twinned-
236 t termed a ripplocation-best described as an atomic scale ripple-was proposed to explain deformation
240 The statistical uniformity of the inherent, atomic-scale roughness of readily-available photomask bl
241 atibility of emerging layered materials with atomic-scale sensitivity under experimentally less strin
244 imental and theoretical approach reveals the atomic-scale singlet fission mechanism and can be genera
245 surfaces, and the changes are attributed to atomic-scale "smoothing" of the surface by preferential
247 g time-domain control of quantum states with atomic-scale spatial resolution in nanostructures is a l
249 f electronic and optical spectroscopies with atomic-scale spatial resolution is able to provide a com
250 section for electron/matter interaction, the atomic-scale spatial resolution, and the ultrafast tempo
251 smission electron microscopy (STEM) provided atomic-scale, spatially resolved images, and high-energy
252 y, ultrafast electron diffraction (UED) with atomic-scale spatiotemporal resolution has been employed
253 ecting and coherently controlling individual atomic-scale spin centres for sensitive local magnetomet
256 ling microscopy and spectroscopy, we conduct atomic-scale structural and electronic studies on a cycl
257 erromagnetic ground states, arising from its atomic-scale structural features, such as rotational dis
258 few-nanometers-thick epitaxial oxide films, atomic-scale structural imperfections, such as the ubiqu
260 on energy loss spectroscopy to determine the atomic-scale structural, chemical and electronic propert
264 t and simulation to simultaneously image the atomic-scale structure of weakly scattering amorphous ca
265 independent reading and writing, we built an atomic-scale structure with two Ho bits, to which we wri
266 deformation of nanocrystalline C-S-H to its atomic-scale structure, which is changed by varying the
267 pe optimized force field (AWSEM), we predict atomic-scale structures for several tripartite SMC-kleis
268 By comprehensive characterizations from atomic-scale structures to large-scale device performanc
270 c acids, respectively, thus amplifying these atomic-scale surface processes in situ into macroscopic
272 This work provides a new insight into the atomic-scale surface structural modification using ALD a
275 uture miniaturized valleytronic devices with atomic-scale thickness for many applications such as chi
276 d their highly anisotropic shape and precise atomic-scale thickness remains unclear, and even counter
277 stacking of intrinsically layered crystals, atomic-scale thin film growth of complex materials has e
278 d, insulating, amorphous metal oxyhydroxide, atomic-scale thin interlayer (ca. 3 nm) between the TCO
279 catalytic activity of M-N-C catalysts at the atomic scale through a combination of experimentation an
281 situ magneto-structural characterization and atomic-scale tracking of hydrogen atoms reveal that the
282 molecular mechanisms and interactions on the atomic scale, translational applications of those approa
287 superconductor macroscopic characterization, atomic-scale ultra-low-temperature scanning tunnelling s
288 and to design better metal-based catalysts, atomic scale understanding of catalytic processes is hig
292 roperties of these films are designed at the atomic scale using layer-by-layer assembly of two-dimens
293 such suspended few-layered structures at the atomic scales using classic molecular dynamics (MD) simu
296 tu transmission electron microscopy (TEM) at atomic scale, we discover that, in stark contrast to tho
297 olution provided detailed information at the atomic scale, while also providing insight into native s
298 core-shell Pt3Co nanoparticles, seen at the atomic scale with in situ electron microscopy at ambient
300 ynamics of photon-matter interactions at the atomic scale with ultrafast resolution in image, diffrac