Anisotropic BeS cladding on a silicon microring enables TE and TM modes to produce a two-dimensional optical fingerprint that distinguishes acetone, isoprene, 4-hydroxyhexenal, 2-propenal, and benzene via differential resonance shifts.
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8 Pith papers cite this work, alongside 256 external citations. Polarity classification is still indexing.
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cond-mat.mtrl-sci 2 physics.chem-ph 2 cond-mat.soft 1 math.OC 1 physics.flu-dyn 1 physics.optics 1years
2026 8representative citing papers
PHNN learns transferable corrections to analytical continuum solvation parameters using a neural network to improve protein solvation energy predictions.
A structure-preserving low-rank factorization of 2RDMs achieves linear rank scaling with system size and ~99% compression while retaining chemical accuracy for correlated states.
Ab initio DFT calculations find zinc vacancies and interstitials dominate defects in Zn3P2, producing p-type behavior via shallow acceptors, with Frenkel pair formation partially compensating conductivity and thermodynamically limiting n-type doping.
Molecular dynamics of a ramp-shoulder fluid shows water-like anomalies arising from cooperative radial restructuring and amorphous radial frustration rather than shell competition alone.
A vectorized reformulation of global self-optimizing control makes structural causality constraints linear for batch processes and enables a shortcut method that yields simple, repetitive combination matrices for near-optimal control, shown on a fed-batch reactor.
3D-printed transparent vascular phantoms combined with microPIV produce velocity fields whose mean relative error versus Hagen-Poiseuille predictions ranges from 5 to 17 percent.
Bilayer NbOX2 (X=Cl, Br, I) prefer specific stackings, are stable, show decreasing band gaps from Cl to I, high anisotropic carrier mobility, and strong absorption suitable for visible and UV photocatalytic water splitting.
citing papers explorer
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Single-Device VOC Fingerprinting via Polarization-Selective Anisotropic BeS-Clad Silicon Microring Resonator
Anisotropic BeS cladding on a silicon microring enables TE and TM modes to produce a two-dimensional optical fingerprint that distinguishes acetone, isoprene, 4-hydroxyhexenal, 2-propenal, and benzene via differential resonance shifts.
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All-atomistic Transferable Neural Potentials for Protein Solvation
PHNN learns transferable corrections to analytical continuum solvation parameters using a neural network to improve protein solvation energy predictions.
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Low-rank compression of two-electron reduced density matrices
A structure-preserving low-rank factorization of 2RDMs achieves linear rank scaling with system size and ~99% compression while retaining chemical accuracy for correlated states.
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Intrinsic Point Defects and Frenkel Pair Formation in Photovoltaic Absorber Zn$_3$P$_2$: Regulating $p$-type Conductivity through Growth and Annealing Conditions
Ab initio DFT calculations find zinc vacancies and interstitials dominate defects in Zn3P2, producing p-type behavior via shallow acceptors, with Frenkel pair formation partially compensating conductivity and thermodynamically limiting n-type doping.
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Amorphous Radial Frustration and Water-Like Anomalies in a Ramp-Shoulder Fluid
Molecular dynamics of a ramp-shoulder fluid shows water-like anomalies arising from cooperative radial restructuring and amorphous radial frustration rather than shell competition alone.
-
Global self-optimizing control of batch processes
A vectorized reformulation of global self-optimizing control makes structural causality constraints linear for batch processes and enables a shortcut method that yields simple, repetitive combination matrices for near-optimal control, shown on a fed-batch reactor.
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Particle Image Velocimetry of 3D printed vascular fluidic phantom devices
3D-printed transparent vascular phantoms combined with microPIV produce velocity fields whose mean relative error versus Hagen-Poiseuille predictions ranges from 5 to 17 percent.
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A comparative first-principles investigation of bilayer NbOX2 (X=Cl, Br, I) for Photocatalytic water splitting applications
Bilayer NbOX2 (X=Cl, Br, I) prefer specific stackings, are stable, show decreasing band gaps from Cl to I, high anisotropic carrier mobility, and strong absorption suitable for visible and UV photocatalytic water splitting.