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1 ol exciton dynamics and transport, promising for realizing 2D materials-based excitonic devices such
2 hin-film formation mechanisms and strategies for realizing 2D TMD films with less-defective large dom
3 and topological states, opening a new route for realizing 2D topological superconductors with proxim
4 report that MnBi(2)Te(4) is a rare platform for realizing a canted-antiferromagnetic (cAFM) Chern in
5 nt, the device shows potential as a platform for realizing a compact, robust, transportable optical l
6 random number generator is thus well suited for realizing a continuously-operating, high-security an
8 o use an array of large-spin quantum magnets for realizing a device which has two modes of operation:
9 ach, we have developed an improved procedure for realizing a DNA microarray inside a microfluidic cha
10 scattering is a promising radiation process for realizing a gamma-ray vortex source based on current
11 racold temperatures is a promising technique for realizing a host of scientific and technological opp
12 improving ecosystem science, the opportunity for realizing a major breakthrough in reporting corporat
15 K, and appears to be an excellent candidate for realizing a quantum spin liquid ground state in a sp
17 and electric fields, laying the foundations for realizing a single-spin readout method with relaxed
19 ad-bearing efficiency and conductive network for realizing a synchronous improvement of the mechanica
20 fide (MoS2 ) offers intriguing possibilities for realizing a transformative new catalyst for driving
22 This work outlines a powerful new strategy for realizing a wide range of broadband optical devices
23 electrostatic sensing interface is proposed for realizing active eye tracking (AET) system based on
24 thin materials, thus opening up new avenues for realizing active metasurfaces and robust optoelectro
26 brication techniques that have been employed for realizing advanced biomimetic optical structures.
27 pment of titratable coions has paved the way for realizing all-atom molecular dynamics at constant pH
28 critical interdisciplinary environment both for realizing ambitious and complex technologies and for
29 The proposed approach has a great potential for realizing an accurate, sensitive, rapid, and low-cos
30 ctive, we summarize the fundamental criteria for realizing an altermagnetic phase and present a quali
31 for piezoelectric sustainable materials and for realizing an innovative class of practical component
32 onducting spintronics, and new possibilities for realizing and characterizing topological superconduc
33 n der Waals heterostructures are a new venue for realizing and controlling correlated electronic phen
34 rfaces appear to be ideal photonic platforms for realizing and designing miniaturized devices, their
35 work not only provides a realistic platform for realizing and tuning KNLs in layered materials, but
36 ng programmable photonic circuits that allow for realizing arbitrary discrete unitary operations with
37 tigate a general family of photonic circuits for realizing arbitrary unitaries based on a simple arch
38 dependent interactions are a promising route for realizing artificial materials that have the propert
39 terminations, thus providing a valuable tool for realizing atomically tailored graphene and facilitat
40 pological states here holds large potentials for realizing axion electrodynamics and advancing quantu
41 ith relaxed phase-matching conditions, ideal for realizing broadband frequency up- and down-conversio
46 , we present an efficient approximate method for realizing coalescence times under more general patte
48 ed lab-on-fiber nanoprobes will pave the way for realizing compact multiparameter sensing solutions c
49 winning are tuned via composition adjustment for realizing complex microstructures and beneficial mec
51 and stable O(2)-to-H(2)O(2) electrocatalyst for realizing continuous on-site production of neutral h
53 ormations, offers an unconventional approach for realizing cutting-edge optical nano-electromechanica
54 le assembly, we establish a general approach for realizing designed 3D ordered inorganic frameworks.
56 e then discussed to illustrate the potential for realizing devices based on this nanocomposite materi
57 everal promising 3D manufacturing techniques for realizing different classes of structures suitable f
58 onstrate a crystal-chemistry design approach for realizing digital TMOs without inversion symmetry by
60 s nanoparticles and may open up a new avenue for realizing diverse assembly structures with pre-engin
61 espread use of strand displacement reactions for realizing dynamic DNA nanostructures, variants on th
63 otonics, as it provides a versatile platform for realizing effective gauge potentials and topological
68 The HPhP electroluminescence offers avenues for realizing electrically pumped mid-infrared and terah
70 erves as a straightforward material platform for realizing emerging photonic space-time crystals and
72 f these magnetic states is of great interest for realizing energy-efficient and compact devices for i
75 ultiple principle elements provide an avenue for realizing exceptional mechanical, physical and chemi
76 tal dichalcogenide layer provides a platform for realizing exotic many-body systems, including couple
78 line semiconductors are a promising platform for realizing extremely sensitive spin- and orbital-depe
79 er heterostructure is an efficient technique for realizing fascinating properties and playing a key r
81 mpact of ionizing radiation will be critical for realizing fault-tolerant superconducting quantum com
82 These ultralow energy devices are promising for realizing femtojoule and sub-femtojoule electronic c
84 curvature near the magic angle holds promise for realizing fractional quantum anomalous Hall effect a
85 f macroinitiator-type oNPs a unique platform for realizing functional materials with a broad spectrum
86 local Hilbert space can also be advantageous for realizing gates and algorithms more efficiently(3-7)
87 kW g(-1)) indicates its remarkable potential for realizing gigawatt-scale H(2) production for the fir
91 transport, demonstrating great opportunities for realizing helicity control of optoelectronic and the
92 mide-based liquid electrolytes are promising for realizing high coulombic efficiency and long cycle l
93 involving Cl in the synthesis is another key for realizing high open-circuit voltage perovskite solar
94 F) is often desirable in glass microchannels for realizing high resolutions in capillary zone electro
95 he demonstration provides a general strategy for realizing high-density integrated circuits on random
96 ensional semiconductors have great potential for realizing high-performance electronic devices(1,3).
97 activity and surface stability is essential for realizing high-performance lithium-sulfur (Li||S) ba
99 uctor has several technological implications for realizing high-performance organic electronic device
100 uctive films have technological implications for realizing high-performance organic solar cells, with
101 establish NO doping as a promising technique for realizing high-performance p-type 2D transistors and
102 component systems offer expanded flexibility for realizing high-performance semiconducting architectu
103 on silicon (Si) substrates has been critical for realizing high-performance Si-based optoelectronic a
104 tism at nanometer length scales is essential for realizing high-performance spintronic, magneto-elect
106 se transformation route provides a mechanism for realizing high-rate capability of electrode material
107 anched hydrocarbon isomers and holds promise for realizing high-throughput and scalable production of
108 platform which serves as an ideal playground for realizing "high"-temperature superconductors are mat
109 n transport layer (ETL) interface is crucial for realizing highly efficient and stable next-generatio
110 in perovskites, but also a promising pathway for realizing highly efficient devices via dielectric re
111 quantum dots (QDs) are attractive materials for realizing highly flexible, solution-processable opti
112 is synthesis approach of particular interest for realizing hybrid systems in the search of 2D superco
114 s methodology has technological implications for realizing improved semiconductor devices and offers
115 ectively, is becoming increasingly important for realizing improved sensitivity in mass spectrometry.
119 e wide bandgap semiconductors are attractive for realizing integrated platforms for quantum applicati
120 oduce a novel platform and analytical theory for realizing interaction-induced Hall crystals, a class
121 ly porous hydroxide, as a proof of principle for realizing interlayer decoupling in bulk materials.
122 iled their potential as a promising platform for realizing Kitaev physics in honeycomb systems and th
126 latform is thus motivated by the urgent need for realizing large-scale information processing and com
127 wavelength scale paves a crucial foundation for realizing large-scale LN photonic integrated circuit
128 on- and off-diagonal deterministic disorders for realizing localized quantum walks deterministically.
130 tals and establish CsV(3)Sb(5) as a platform for realizing long-range coherent charge transport in th
131 phene nanoribbons (GNRs) is a versatile tool for realizing low-dimensional functional materials for n
132 ce the potential of optoplasmonic structures for realizing low-loss optical interconnects with high b
133 the next generation stretchable electronics for realizing low-power, stand-alone, self-sustainable s
134 agnetization, which would be more beneficial for realizing low-power-consumption memory devices.
135 interfaces is an attractive material system for realizing magnetic memory applications that require
136 oupling in FM/AFM/FE systems paves a new way for realizing magnetoelectric random access memories and
137 y thin materials, such as electrical control for realizing magnetoelectronics, and van der Waals engi
142 heterostructure is a highly tunable platform for realizing many-body electronic states and probing th
143 als represents a new and promising direction for realizing massive electrical energy storage at great
144 hene nanoribbons (GNRs) is a robust strategy for realizing materials with tailored electronic band st
145 of catalytic nucleic acids and the prospects for realizing maximum functionality from a given genetic
146 nd macroscopic size unveil a unique platform for realizing mechanical oscillators in both classical a
148 tic materials has been an effective approach for realizing microscopic artificial cilia; however, the
150 simple polarity control strategy is extended for realizing more complex logic functions such as NAND
156 tal environments can be considered an option for realizing negative CO2 emissions for climate mitigat
158 the potential that these materials may hold for realizing new and seemingly exotic electromagnetic p
159 molecular interactions is an attractive path for realizing new multifunctional materials built from t
160 lization approach will provide novel avenues for realizing new multifunctional materials with unusual
161 fulfilled its initial promise as a key tool for realizing new strategies for understanding host and
164 Si lattice in ZrSiS is an excellent template for realizing new types of two-dimensional Dirac cones r
165 lm transistor (TFT) performance is essential for realizing next-generation high-performance organic e
168 er moire system as a new exciting playground for realizing novel correlated states and engineering qu
170 oire heterostructures as promising platforms for realizing novel reentrant Hofstadter superconductors
171 on interaction as a promising hardware basis for realizing on-chip reservoir computing in future neur
175 y of a broken-symmetry order, paving the way for realizing other emergent states in strongly correlat
176 e also discuss explicit embedding strategies for realizing our Hamiltonian construction on the D-wave
179 aper presents two discrete circuit solutions for realizing passive, electronically adjustable constan
181 Weyl semimetal that may serve as a platform for realizing phenomena such as chiral magnetic effects,
182 emperatures above 425 degrees C are critical for realizing photoluminescent GaAs quantum dots, which
183 tal quality makes 2DGFs a promising platform for realizing plasmonic nanostructures with nanoscale op
184 theoretically demonstrate a rare opportunity for realizing polaritons with so-called 2D chirality by
185 l with highly anisotropic optical properties for realizing polarization-sensitive linear and nonlinea
187 d to modify interactions in ultracold gases, for realizing previously unknown Hamiltonians in quantum
188 involving a simple PHE device, hold promise for realizing programmable logic elements in magnetic el
189 n developing several different architectures for realizing programmable photonic circuits that allow
190 ctronic and optical properties are essential for realizing quantized electronic responses that can be
194 n transfers and for many applications, e.g., for realizing quantum gates, both for optical and microw
195 al, which provides a highly tunable platform for realizing quantum-spin Hall and interaction-induced
196 rit entanglement remains a central challenge for realizing qutrit processing in a transmon device.
197 ins similarly good batch-to-batch properties for realizing reproducible device performance, which is
198 ng the magnetic easy axis, which is critical for realizing reversible 180 degrees magnetization deter
202 vesting ambient mechanical energy is the key for realizing self-powered and autonomous electronics, w
203 e group-IV nanowire, which is a prerequisite for realizing silicon-compatible infrared nanolasers.
204 Fe(3-x)GaTe(2) as a promising building block for realizing skyrmion-based magneto-optical functionali
208 quantum dots (QDs) are attractive materials for realizing solution-processable laser diodes that cou
210 study provides a new and promising approach for realizing spatiotemporal-sensitive spectral splittin
213 imaging plasmonic nanostructures, as well as for realizing spontaneous emission control at the single
214 understanding the metamorphosis is essential for realizing stable and high-energy-density Li-S batter
215 ing these super-domains reliably is critical for realizing states with desired functional properties.
216 on sources and has wide-ranging implications for realizing strongly correlated photonic phases(6,7) a
217 -all-out magnetic order are prime candidates for realizing strongly correlated, topological phases of
221 electronic devices are promising candidates for realizing such device elements because the electroni
222 ystem presented here provides the foundation for realizing such larger scale systems using existing h
225 arrays are a promising alternative platform for realizing such simulators, due to their potential fo
228 Membrane-based technologies are essential for realizing sustainable ion-sieving processes such as
229 s highlight ScV(6)Sn(6) as a prime candidate for realizing symmetry-breaking phases driven by charge
230 mains in ferroelectric thin films is crucial for realizing technological applications including non-v
234 hotosynthesis has long been one of the ideas for realizing the conversion of solar energy into indust
235 tes, but also selects the local interactions for realizing the corresponding biological function.
236 onductors are promising experimental systems for realizing the elusive Majorana fermions, which, beca
237 sion of the key challenges and opportunities for realizing the exciting potentials of miniaturized MF
238 s effect on stability, seems to be important for realizing the full biological activity of the three-
239 for the preparation of high-quality crystals for realizing the full potential of 2D transition metal
240 lding on these proposed features, is crucial for realizing the full potential of AI in radiology and
242 c, genomic and biological data are essential for realizing the full potential of the mouse as an expe
243 mains and controlled morphology is necessary for realizing the full potential of their atomically pre
244 formation, which has important implications for realizing the impact of CH4 as a source for platform
245 ocomposite of polymer with ZnO are optimized for realizing the molecular imprinted layer of the senso
246 ution within tissues have provided the basis for realizing the molecular mechanisms underlying auxin
247 ing through ligand design thus appears vital for realizing the next generation of high-temperature si
248 bolomic profiling provides new opportunities for realizing the potential of omics-based precision med
249 ncolytic viruses is considered indispensable for realizing the potential of oncolytic virotherapy.
251 ll protein networks in vivo will be critical for realizing the promise of patient-tailored molecular
253 r of required gates and the processing time) for realizing the quantum gates and algorithms compared
254 rs, and technology experts will be essential for realizing the revolutionary promise that microarrays
256 es in stereochemically pure form is critical for realizing the substantial potential of such building
257 findings demonstrate an important mechanism for realizing the unprecedentedly giant electromechanica
258 tal-chromophore hybrid assemblies is crucial for realizing their photocatalytic and optoelectronic ap
259 ir uptake in biological systems is essential for realizing their potential as next-generation deliver
260 ling functionality with external stimuli and for realizing their potential for ultra-low power memory
261 (mDA) neurons from stem cells is fundamental for realizing their potential in biomedical applications
262 y in embryonic stem cells (ESCs) is critical for realizing their potential in medicine and science.
263 that regulate stem cell behaviour is crucial for realizing their potential in regenerative medicine.
264 a rich CBP phenomenology and propose setups for realizing them, including in anomalous Hall metals a
265 tively interface proteins with nanomaterials for realizing these applications continue to evolve.
266 outstanding challenges and future directions for realizing these gene circuit therapies in the clinic
268 ne-2-carboxylate as the mediator are crucial for realizing these two unprecedented meta-C-H transform
269 dented triazole-pyridone ligand is essential for realizing this "butenolide-oriented" C-H activation
271 technology emerges as a transformative tool for realizing this goal, yet its adoption remains limite
274 s of two or three birds and the requirements for realizing those benefits, using metabolic energy exp
276 are the key electronic properties component for realizing topological quantum computing bits with in
277 or-superconductor devices hold great promise for realizing topological quantum computing with Majoran
280 ablishes this system as a promising platform for realizing topological superconductivity and for crea
281 stal of Sr(0.1)Bi(2)Se(3), a prime candidate for realizing topological superconductivity by doping th
282 superconductor heterostructure as a platform for realizing topological superconductivity without appl
283 degenerate Fermi gas provides a new platform for realizing topological superfluids and related topolo
284 ry on TMD excitons and points to new avenues for realizing topologically non-trivial systems(16,17),
287 e systems renders them distinctive platforms for realizing tunable magnetism in solid-state materials
290 he proposed methodology opens up a new route for realizing ultra-wideband diffusion scattering of EM
292 d quasiparticles offers a promising platform for realizing unconventional many-body phenomena and pha
293 advantages of biopolymers as building blocks for realizing unique bioenabled photonic structures.
295 r-order structures has significant potential for realizing various biomimetic behaviors including alg
298 microscale design and fabrication techniques for realizing viable devices for long-term peripheral in
300 gth thickness are demonstrated as a platform for realizing waveguide modes, and cathodoluminescence s