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Atom Probe Tomography: a Local Probe for Chemical Bonds in Solids

Oana Cojocaru‐Mirédin, Yuan Yu, Jan Köttgen, Tanmoy Ghosh, Carl‐Friedrich Schön, Shuai Han, Chongjian Zhou, Min Zhu, Matthias Wuttig

2024Advanced Materials28 citationsDOIOpen Access PDF

Abstract

Atom probe tomography is frequently employed to characterize the elemental distribution in solids with atomic resolution. Here the potential of this technique to locally probe chemical bonds is reviewed and discussed. Two processes characterize the bond rupture in laser-assisted field emission, the probability of molecular ions (PMI), i.e., the probability that molecular ions are evaporated instead of single (atomic) ions, and the probability of multiple events (PME), i.e., the correlated field-evaporation of more than a single fragment upon laser- or voltage pulse excitation. Here it is demonstrated that one can clearly distinguish solids with metallic, covalent, and metavalent bonds based on their bond rupture, i.e., their PME and PMI values. These findings open new avenues in understanding and designing advanced materials, since they allow a quantification of bonds in solids on a nanometer scale, as will be shown for several examples. These possibilities would even justify calling the present approach bonding probe tomography (BPT).

Topics & Concepts

Atom probeMaterials scienceTomographyAtom (system on chip)Chemical bondChemical physicsNanotechnologyAtomic physicsMolecular physicsCrystallographyOpticsOrganic chemistryPhysicsComputer scienceEmbedded systemChemistryTransmission electron microscopyAdvanced Materials Characterization TechniquesDiamond and Carbon-based Materials ResearchForce Microscopy Techniques and Applications
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