All Stories

  1. General inverse-cube thickness scaling of projectile penetration energy in ultrathin films
  2. From gold to superconductor: Modern alchemy at the nanoscale
  3. Ionic glass formers show an inverted relation between fragility and non-exponential alpha-relaxation
  4. Geometric indicators of local plasticity in glasses measured by scanning small-beam diffraction
  5. Phonon-confinement theory of thermal conductivity in ultrathin silicon films
  6. A unified picture of phonon anomalies in crystals and glasses
  7. Shear-induced diffusivity in supercooled liquids
  8. Viscosity of polymer melts using non-affine theory based on vibrational modes
  9. Analytical solution for the polydisperse random close packing problem in 2D
  10. Microscopic mechanism of electric-field-induced superconductivity suppression in metallic thin films
  11. Quantum confinement theory of ultra-thin films: electronic, thermal and superconducting properties
  12. Fragility and thermal expansion control crystal melting and the glass transition
  13. Possible Superconductivity in Very Thin Magnesium Films
  14. Complete mathematical theory of the jamming transition: A perspective
  15. Experimental identification of topological defects in 2D colloidal glass
  16. Taming the diffusiophoretic convective instability in colloidal suspensions
  17. Time-Scale Bridging in Atomistic Simulations of Epoxy Polymer Mechanics Using Nonaffine Deformation Theory
  18. Hyperballistic transport in dense systems of charged particles under ac electric fields
  19. Quantitative Eliashberg theory of the superconductivity of thin films
  20. Relativistic theory of the viscosity of fluids across the entire energy spectrum
  21. Can the noble metals (Au, Ag, and Cu) be superconductors?
  22. Low-temperature heat transport under phonon confinement in nanostructures
  23. Convective Instability Driven by Diffusiophoresis of Colloids in Binary Liquid Mixtures
  24. Correlation between optical phonon softening and superconducting T ...
  25. Clustering of negative topological charges precedes plastic failure in 3D glasses
  26. Unveiling the asymmetry in density within the shear bands of metallic glasses
  27. Quantum confinement theory of the heat capacity of thin films
  28. Shear flow of non-Brownian rod-sphere mixtures near jamming
  29. Theory of superconductivity in thin films under an external electric field
  30. Explaining the thickness-dependent dielectric permittivity of thin films
  31. Theory of heavy-quarks contribution to the quark-gluon plasma viscosity
  32. Unifying Physical Framework for Stretched-Exponential, Compressed-Exponential, and Logarithmic Relaxation Phenomena in Glassy Polymers
  33. Anharmonic theory of superconductivity and its applications to emerging quantum materials
  34. Translation-invariant relativistic Langevin equation derived from first principles
  35. General theory of the viscosity of liquids and solids from nonaffine particle motions
  36. Molecular-Level Relation between the Intraparticle Glass Transition Temperature and the Stability of Colloidal Suspensions
  37. Glassy heat capacity from overdamped phasons and hypothetical phason-induced superconductivity in incommensurate structures
  38. Experimental and Theoretical Investigation of Nonclassical Shear-Induced Nucleation Mechanism for Small Molecule
  39. Generalized Langevin equation with shear flow and its fluctuation-dissipation theorems derived from a Caldeira-Leggett Hamiltonian
  40. Dynamical indistinguishability and statistics in quantum fluids
  41. Possible enhancement of the superconducting T <...
  42. Thermal expansion and the glass transition
  43. Estimating random close packing in polydisperse and bidisperse hard spheres via an equilibrium model of crowding
  44. Extended analytical BCS theory of superconductivity in thin films
  45. Direct observation of heterogeneous formation of amyloid spherulites in real-time by super-resolution microscopy
  46. Theory of superconductivity mediated by topological phonons
  47. The ω3 scaling of the vibrational density of states in quasi-2D nanoconfined solids
  48. Predicting plasticity of amorphous solids from instantaneous normal modes
  49. Solution to the two-body Smoluchowski equation with shear flow for charge-stabilized colloids at low to moderate Péclet numbers
  50. Structural modification enhances the optoelectronic properties of defect blue phosphorene thin films
  51. Theory of sound attenuation in amorphous solids from nonaffine motions
  52. Local symmetry predictors of mechanical stability in glasses
  53. Analytical theory of enhanced Bose–Einstein condensation in thin films
  54. Deformations, relaxation, and broken symmetries in liquids, solids, and glasses: A unified topological field theory
  55. Superconducting dome in ferroelectric-type materials from soft mode instability
  56. Correlation between vibrational anomalies and emergent anharmonicity of the local potential energy landscape in metallic glasses
  57. Explicit Analytical Solution for Random Close Packing in d=2 and
  58. Relativistic Langevin equation derived from a particle-bath Lagrangian
  59. Baggioli and Zaccone Reply:
  60. Machine-learning integrated glassy defect from an intricate configurational-thermodynamic-dynamic space
  61. Explaining the specific heat of liquids based on instantaneous normal modes
  62. Impact of High Pressure on Reversible Structural Relaxation of Metallic Glass
  63. Plasticity in Amorphous Solids Is Mediated by Topological Defects in the Displacement Field
  64. Unexpected thermo-elastic effects in liquid glycerol by mechanical deformation
  65. Slow stretched-exponential and fast compressed-exponential relaxation from local event dynamics
  66. Plasmon energy losses in shear bands of metallic glass
  67. Soft mode theory of ferroelectric phase transitions in the low-temperature phase
  68. Universal L−3 finite-size effects in the viscoelasticity of amorphous systems
  69. Reply to Angelani et al.: The G ′ ∼ L −3 law for the elasticity of confined liquids can be proved exactly
  70. New paradigm for glassy-like anomalies in solids from fundamental symmetries
  71. Universal law for the vibrational density of states of liquids
  72. Theory of Pressure-Induced Rejuvenation and Strain Hardening in Metallic Glasses
  73. Physics of phonon-polaritons in amorphous materials
  74. Universal G′ ∼ L–3 Law for the Low-Frequency Shear Modulus of Confined Liquids
  75. Explaining the low-frequency shear elasticity of confined liquids
  76. Nonequilibrium master kinetic equation modeling of colloidal gelation
  77. Atomic-scale expressions for viscosity and fragile-strong behavior in metal alloys based on the Zwanzig-Mountain formula
  78. Scaling up the lattice dynamics of amorphous materials by orders of magnitude
  79. Nonequilibrium continuous phase transition in colloidal gelation with short-range attraction
  80. Rheology of hard glassy materials
  81. Effective theory of superconductivity in strongly coupled amorphous materials
  82. Pair correlation function of charge-stabilized colloidal systems under sheared conditions
  83. Secondary relaxation in the terahertz range in 2-adamantanone from theory and experiments
  84. Unified theory of vibrational spectra in hard amorphous materials
  85. Relaxation and vibrational properties in metal alloys and other disordered systems
  86. Atomistic structural mechanism for the glass transition: Entropic contribution
  87. Analytical prediction of logarithmic Rayleigh scattering in amorphous solids from tensorial heterogeneous elasticity with power-law disorder
  88. Vibrational density of states and specific heat in glasses from random matrix theory
  89. Nonaffine lattice dynamics with the Ewald method reveals strongly nonaffine elasticity of α-quartz
  90. Theory of the phonon spectrum in host-guest crystalline solids with avoided crossing
  91. Low-energy optical phonons induce glassy-like vibrational and thermal anomalies in ordered crystals
  92. Identifying Nonaffine Softening Modes in Glassy Polymer Networks: A Pathway to Chemical Design
  93. Ultrafast extreme rejuvenation of metallic glasses by shock compression
  94. Theory of elastic constants of athermal amorphous solids with internal stresses
  95. Radial distribution function of Lennard-Jones fluids in shear flows from intermediate asymptotics
  96. Universal Origin of Boson Peak Vibrational Anomalies in Ordered Crystals and in Amorphous Materials
  97. Structural Parameter of Orientational Order to Predict the Boson Vibrational Anomaly in Glasses
  98. Live-cell super-resolution microscopy reveals a primary role for diffusion in polyglutamine-driven aggresome assembly
  99. Possible origin of β -relaxation in amorphous metal alloys from atomic-mass differences of the constituents
  100. Reply to ‘Comment on “Temperature dependence of nuclear fission time in heavy-ion fusion-fission reactions” '
  101. Nonequilibrium free energy of colloidal glasses under shear
  102. Reply to “Comment on ‘Disentangling interatomic repulsion and anharmonicity in the viscosity and fragility of glasses’ ”
  103. Generalized Langevin equation and fluctuation-dissipation theorem for particle-bath systems in external oscillating fields
  104. Disentangling α and β relaxation in ...
  105. Unifying model for random matrix theory in arbitrary space dimensions
  106. Ethanol Controls the Self-Assembly and Mesoscopic Properties of Human Insulin Amyloid Spherulites
  107. Interpretation of the Vibrational Spectra of Glassy Polymers Using Coarse-Grained Simulations
  108. Harnessing Entropy in Single-Molecule Force Spectroscopy with Semiconducting Polymers
  109. Parameter-free predictions of the viscoelastic response of glassy polymers from non-affine lattice dynamics
  110. Linking slow dynamics and microscopic connectivity in dense suspensions of charged colloids
  111. A well defined glass state obtained by oscillatory shear
  112. Temperature dependence of nuclear fission time in heavy-ion fusion-fission reactions
  113. Atomic theory of viscoelastic response and memory effects in metallic glasses
  114. Nonmonotonic dependence of polymer-glass mechanical response on chain bending stiffness
  115. Dissociation rates from single-molecule pulling experiments under large thermal fluctuations or large applied force
  116. Shear banding in metallic glasses described by alignments of Eshelby quadrupoles
  117. Nanoparticle amount, and not size, determines chain alignment and nonlinear hardening in polymer nanocomposites
  118. Effect of Hydrodynamic Interactions on the Lifetime of Colloidal Bonds
  119. Disentangling interatomic repulsion and anharmonicity in the viscosity and fragility of glasses
  120. Direct Observation of Entropic Stabilization of bcc Crystals Near Melting
  121. Direct link between boson-peak modes and dielectricα-relaxation in glasses
  122. The relation between stretched-exponential relaxation and the vibrational density of states in glassy disordered systems
  123. Atomic-scale origin of dynamic viscoelastic response and creep in disordered solids
  124. Long-Lived Neighbors Determine the Rheological Response of Glasses
  125. Nonaffine deformation and tunable yielding of colloidal assemblies at the air–water interface
  126. Non-affine lattice dynamics of defective fcc crystals
  127. Local inversion-symmetry breaking controls the boson peak in glasses and crystals
  128. Interatomic repulsion softness directly controls the fragility of supercooled metallic melts
  129. Sharp symmetry-change marks the mechanical failure transition of glasses
  130. Size-dependent reinforcement of composite rubbers
  131. Microscopic Origin of the Hofmeister Effect in Gelation Kinetics of Colloidal Silica
  132. Ligand-free Gold Nanoparticles as a Reference Material for Kinetic Modelling of Catalytic Reduction of 4-Nitrophenol
  133. Fragmentation and depolymerization of non-covalently bonded filaments
  134. Microscopic origin of nonlinear nonaffine deformation in bulk metallic glasses
  135. Linking self-assembly, rheology, and gel transition in attractive colloids
  136. Kinetic Analysis of the Catalytic Reduction of 4-Nitrophenol by Metallic Nanoparticles
  137. Analytical Model of Fractal Aggregate Stability and Restructuring in Shear Flows
  138. Short-range correlations control the G/K and Poisson ratios of amorphous solids and metallic glasses
  139. Flow-Induced Aggregation and Breakup of Particle Clusters Controlled by Surface Nanoroughness
  140. Ratcheted diffusion transport through crowded nanochannels
  141. Electrostatics Controls the Formation of Amyloid Superstructures in Protein Aggregation
  142. Note: Slowing-down of diffusion-controlled reactions in dense liquid matter
  143. Disorder-Assisted Melting and the Glass Transition in Amorphous Solids
  144. Mechanism of flow-induced biomolecular and colloidal aggregate breakup
  145. Colloidal gelation with variable attraction energy
  146. ELASTIC DEFORMATIONS IN COVALENT AMORPHOUS SOLIDS
  147. Unexpected Decoupling of Stretching and Bending Modes in Protein Gels
  148. Theory of molecular crowding in Brownian hard-sphere liquids
  149. Analytical theory of polymer-network-mediated interaction between colloidal particles
  150. Theory of Thermally Activated Ionization and Dissociation of Bound States
  151. Network disorder and nonaffine deformations in marginal solids
  152. Quantifying the Reversible Association of Thermosensitive Nanoparticles
  153. Crowding, Intermolecular Interactions, and Shear Flow Effects in the Diffusion Model of Chemical Reactions
  154. Approximate analytical description of the nonaffine response of amorphous solids
  155. Shear-Driven Solidification of Dilute Colloidal Suspensions
  156. Shear-induced reaction-limited aggregation kinetics of Brownian particles at arbitrary concentrations
  157. On mean coordination and structural heterogeneity in model amorphous solids
  158. Criticality for shear-induced gelation of charge-stabilized colloids
  159. Theory of activated-rate processes under shear with application to shear-induced aggregation of colloids
  160. Elasticity of Arrested Short-Ranged Attractive Colloids: Homogeneous and Heterogeneous Glasses
  161. Effect of Temperature on High Shear-Induced Gelation of Charge-Stabilized Colloids without Adding Electrolytes
  162. The shear modulus of metastable amorphous solids with strong central and bond-bending interactions
  163. Breakup of dense colloidal aggregates under hydrodynamic stresses
  164. High Shear-Induced Gelation of Charge-Stabilized Colloids in a Microchannel without Adding Electrolytes
  165. Mechanically stirred single‐stage column for continuous gelation of colloidal systems
  166. Charged Molecular Films on Brownian Particles: Structure, Interactions, and Relation to Stability
  167. Correlation between Colloidal Stability and Surfactant Adsorption/Association Phenomena Studied by Light Scattering
  168. Rheological Properties and Structure of Gels Generated from Stable Polymer Colloids through High Shear in a MicroChannel
  169. Theoretical elastic moduli for disordered packings of interconnected spheres
  170. Drop breakage in liquid–liquid stirred dispersions: Modelling of single drop breakage
  171. Experimental Investigations and Modelling of Breakage Phenomena in Stirred Liquid/Liquid Systems