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Every paper Pith has read. Search by title, abstract, or pith.
3305 papers in cond-mat.mtrl-sci · page 27
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Sponge networks are disordered single-gyroids
Topological and morphological signatures of disorder in a self-assembled, soft matter sponge network
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Metamaterial geometry trained to boost sensing accuracy fivefold
Sensing Intelligence as a Trainable Metamaterial Property
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Naph-doped PVT keeps more light yield after proton exposure
Ultraviolet plastic scintillators based on naphthalene-doped polystyrene and polyvinyltoluene
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Quantum effects shift graphene backscattering at 400 eV
Ultrafast electron dynamics of electron-irradiated graphene
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GND hardening yields finite-width shear bands in polycrystals
Finite-width adiabatic shear banding and dislocation patterning in mesoscale polycrystalline aggregates
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Altermagnet junction shows low-bias negative differential resistance
Negative Differential Resistance and Ultra-High TMR in Altermagnetic Tunnel Junctions
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Helicity reversal steers hyperbolic plasmons on demand
On-demand steering of hyperbolic chiral polaritons
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AFM writes sub-10 nm graphene FETs via electrochemical bias
Direct-write electrochemical nanofabrication of ultrasmall graphene devices
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Model predicts disorder-driven shift from crack weakening to toughening
Bridging perturbation and variational approaches in brittle fracture
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PbTaSe2 shows natural hyperbolic response in visible-NIR
Visible-NIR-Frequency Hyperbolic Response in Nodal-Line Semimetal PbTaSe$_2$
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Machine learning automates phase identification in powder diffraction
Automated multiphase identification and refinement in powder diffraction using mismatch-tolerant machine learning
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Equivariant framework builds n-dependent Hamiltonians for magnets
Equivariant Space Group and Hamiltonian for Collinear Magnetic Systems
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Fixed electronic shape plus recoil kernel fits graphene spectra to 8 keV
Graphene lattice recoil in hard X-ray photoemission: Experiment and Theory
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Phase ordering sets FePt Janus reversal
Phase ordering governs curvature-insensitive magnetization reversal in FePt Janus particles
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Ordering sets magnetism in FePt Janus particles
Phase ordering governs curvature-insensitive magnetization reversal in FePt Janus particles
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S-doping shifts few-layer graphene from linear to flat bands
Engineering few-layer graphene by S-doping: from sustaining linear dispersion to flat bands
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Machine learning turns XPCS data into grain boundary kinetics
Probing Non-Equilibrium Grain Boundary Dynamics with XPCS and Domain-Adaptive Machine Learning
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17 nm oxide thickness cuts variability in silicon quantum dot arrays
Understanding oxide-thickness-dependent variability in dense Si-MOS quantum dot arrays
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17 nm oxide thickness minimizes quantum dot variability
Understanding oxide-thickness-dependent variability in dense Si-MOS quantum dot arrays
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Thermal history tunes cold crystallization energy in 10OS5
Competing crystallization pathways and cold crystallization kinetics in 10OS5 liquid crystal
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AFM dissipation detects sub-band mobilities in SrTiO3 2DEG
Mechanical detection of sub-band mobilities of two-dimensional electron gas on reduced SrTiO$_3$(001) surface
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Alternating layers raise impact energy dissipation by over 50%
Enhanced Impact Mitigation via 3D-Multilayered Material Architectures
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Two quantum materials deliver 4-volt magnesium cathodes
Discovery of High-Voltage Magnesium-Ion Cathodes using Machine Learning and First-Principles Calculations
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Stretched lattice material acts as dipolar paramagnet without ordering
Magnetism and spin dynamics of Na$_5$Yb(MoO$_4$)$_4$: A weakly interacting rare-earth stretched diamond lattice
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Kitaev interactions stabilize vortex lattice in GeCo2O4
Emergent Vortex Ordering in a Multiflavor Pyrochlore-Lattice Compound GeCo$_2$O$_4$
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Vacancies stabilize N-N complexes that trap carriers deep in Ga2O3 gap
Vacancy-Enhanced $N-N$ Bonding and Deep Level Complex Defect Formation in $\beta-Ga_2O_3$
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Simulations map rod geometry and grain tilt to higher Alnico coercivity
Tailoring the material properties, nanostructure and grain alignment of Alnico magnets through micromagnetic simulations
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Fe3Sn2 susceptibility isotherms collapse at isosbestic points
Universality of magnetic susceptibility in the conical state of kagome ferromagnet Fe$_3$Sn$_2$
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Leakage in quasi-BICs triggers supercritical coupling for diverging quality factor
Theory of Supercritical Coupling And Generalized Bound States in the Continuum
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Ti-based glass sets new specific strength record at 13% strain
Synergistic improvement of specific strength and plasticity achieved in Ti-based metallic glass designed based on quasicrystal structure
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Descriptors from theory identify new inorganic electrides
Theory and Discovery of Electrides
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ML surrogates cut lattice thermal conductivity prediction costs by orders of magnitude
Fast and Accurate Prediction of Lattice Thermal Conductivity via Machine Learning Surrogates
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Binding descriptor tracks heavy-metal trapping in cement nanopores
Gel-Chemistry-Dependent Heavy-Metal Ion Transport and Immobilization in Cementitious Nanopores: A Molecular Dynamics Study
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G0W0 in numerical atomic orbitals matches plane-wave accuracy
$G^0W^0$ implementation based on the pseudopotential and numerical-atomic-orbital basis-set framework: Algorithms and benchmarks
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Bilayer NbOX2 drives visible-light water splitting
A comparative first-principles investigation of bilayer NbOX2 (X=Cl, Br, I) for Photocatalytic water splitting applications
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EMFC method now exceeds 1000 tesla for material studies
Bridging the Gap between Extreme Environments and Precision Measurements: Recent Progress in Megagauss Physics
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EMFC technique reaches magnetic fields above 1000 T
Bridging the Gap between Extreme Environments and Precision Measurements: Recent Progress in Megagauss Physics
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Framework assembles metamaterials from four microstructure classes
A Design Framework for Compositional Hierarchical Mechanical Metamaterials via a Qualitative Unit-Cell Library
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GW method cuts DC conductivity in warm dense beryllium
Capturing many-body effects in electrical conductivity of warm dense matter
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Embedding method tracks superconducting proximity over hundreds of nanometers
First-principles real-space embedding theory of the superconducting proximity effect
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Magnetic field induces tunable hyperbolic polaritons in semimetals
Magnetic-field-tunable cyclotron hyperbolic polaritons
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Periodic defects open band gap in graphene only for multiples of three
Symmetry Guided Band-Gap Opening via Periodic Topological Defects in Graphene
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Dual doping yields 11 GPa hardness in nanocrystalline nickel
Synergistic doping of the grain interior and grain boundary alters deformation mechanisms and enables extreme strength in nanocrystalline Ni-Cr-Y alloys
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CrCl3 stays reversible while α-RuCl3 degrades across shared transition
Contrasting structural reversibility and magnetic correlations in isostructural honeycomb magnets CrCl$_3$ and $\alpha$-RuCl$_3$
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NA effects alter dielectric screening in pentacene crystal
Application of the exact-factorization density-functional perturbation approach to pentacene crystal and monolayer MoS2
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Parity forbids optical transition in 4H-Ge
Optical selection rules in hexagonal Ge polytypes and their lifting by symmetry perturbation
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Strained superconductors produce magnetism perpendicular to the field
Transverse Magnetic Response from Orbitally Polarized Cooper Pairs in Elemental Superconductors
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Confinement shortens coherence length in superconducting thin films
Ginzburg-Landau Theory for Confined Thin-Film Superconductors
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Confinement renormalizes coherence length in thin-film superconductors
Ginzburg-Landau Theory for Confined Thin-Film Superconductors
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Adamantane films flip triboelectric sign via plasma orientation
Adamantane plasma polymers: fluorine-free vacuum-processable triboelectric thin films for all-triboelectric nanogenerator configurations