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A Review of Breath Sensing for Disease Monitoring and Diagnosis: Breathomics, Artificial Intelligence, and Nanomaterials for the Future of Medicine

open access: yesAdvanced Sensor Research, Volume 5, Issue 7, July 2026.
Breathomics is established as a non‐invasive diagnostic strategy by combining volatile organic compound biomarkers, nanomaterial‐based sensor arrays, and AI‐driven classification. Key diseases, sensing materials, and analytical challenges are critically compared, revealing how portable, data‐enabled breath platforms are moving toward clinically useful ...
Anesu Nyabadza   +3 more
wiley   +1 more source

Optimized nanofluid coolants enhance thermal performance in ruffled fin automotive radiators. [PDF]

open access: yesSci Rep
Oshionebo FD   +6 more
europepmc   +1 more source

Synthesis of Ternary Metal Nitride Nanoparticles Using Mesoporous Carbon Nitride as Reactive Template

open access: yesACS Nano, 2008
Mesoporous graphitic carbon nitride was used as both a nanoreactor and a reactant for the synthesis of ternary metal nitride nanoparticles. By infiltration of a mixture of two metal precursors into mesoporous carbon nitride, the pores act first as a nanoconfinement, generating amorphous mixed oxide nanoparticles.
Anna Fischer   +2 more
exaly   +7 more sources

Synthesis of ternary nitrides by mechanochemical alloying

open access: yesJ. Mater. Chem., 2002
Ternary metal nitrides (of general formula MxM′yNz) attract considerable interest because of their special mechanical, electrical, magnetic, and catalytic properties. Usually they are prepared by ammonolysis of ternary oxides (MxM′yOm) at elevated temperatures.
Claus J. H. Jacobsen   +3 more
openaire   +2 more sources

Ordered structures in III-Nitride ternary alloys

Computational Materials Science, 2016
Abstract An efficient evolutionary structure prediction algorithm in combination with ab initio calculations is implemented in order to reveal energetically favorable superstructures of the III-Nitride ternary alloys. Several 2 × 2 × 2 32-atom supercells are used to explore the full range of concentrations, from x = 0 to 1.
Theodoros Pavloudis   +2 more
exaly   +2 more sources

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