Advanced TEM Characterization for Single-atom Catalysts: from Ex-situ Towards In-situ

Wang, Guowei; Ke, Xiaoxing

doi:10.1007/s40242-022-2245-0

“…The activity and selectivity of the electrocatalytic reaction are essentially determined by the binding energy of the intermediate in multiple reaction steps. [126][127][128] The binding energies of different intermediates are proportional to each other through thermodynamic scaling. 129 For pure singlecenter catalysts, the chemical structure of the catalytic center is relatively simple, and it is difficult to optimize the binding energy of an intermediate without affecting other intermediates.…”

Section: Synergistic Mechanism Of Sa/pcsmentioning

confidence: 99%

Research progress on single atom and particle synergistic catalysts for electrocatalytic reactions

Xu

¹

,

Cao

²

,

Luo

³

et al. 2023

Mater. Chem. Front.

View full text Add to dashboard Cite

show abstract

“…Atomic‐level structure – property tracking . Modern analytical methods combine precise atomic‐level architecture manipulation with ex situ, in situ, or operando characterization to study the local chemical states, doping‐intercalation processes, and property–structure relationship, etc [108–111] . These advanced operator‐controlled characterization techniques enable atomic‐level structure–property understanding in monitoring, visualization, and analysis towards various energy/chemical‐related transformations [112–115] .…”

Section: Synergistic Human‐ai Platform For Sahcsmentioning

confidence: 99%

Single‐Atom Heterogeneous Catalysts: Human‐ and AI‐Driven Platform for Augmented Designs, Analytics and Reality‐Enabled Manufacturing

Cheng,

Tang,

Ostrikov

et al. 2023

Angew Chem Int Ed

4

0

View full text Add to dashboard Cite

Heterogeneous catalysts with targeted functionality can be designed with atomic precision, but it is challenging to retain the structure and performance upon the scaled‐up manufacturing. Particularly challenging is to ensure the “atomic economy”, where every catalytic site is most gainfully utilized. Given the emerging synergistic integration of human‐ and artificial intelligence (AI)‐driven augmented designs (AD), augmented analytics (AA), and augmented reality manufacturing (AM) platforms, this minireview focuses on single‐atom heterogeneous catalysts (SAHCs) and examines the current status, challenges, and future perspectives of translating atomic‐level structural precision and data‐driven discovery to next‐generation industrial manufacturing. We critically examine the atomistic insights into structure‐driven SAHCs functionality and discuss the opportunities and challenges on the way towards the synergistic human‐AI collaborative data‐driven platform capable of monitoring, analyzing, manufacturing, and retaining the atomic‐scale structure and functions. Enhanced by the atomic‐level AD, AA, and AM, evolving from the current high‐throughput capabilities and digital materials manufacturing acceleration, this synergistic human‐AI platform is promising to enable atom‐efficient and atomically precise heterogeneous catalyst production.

show abstract

“…Modern analytical methods combine precise atomic-level architecture manipulation with ex situ, in situ, or operando characterization to study the local chemical states, doping-intercalation processes, and property-structure relationship, etc. [108][109][110][111] These advanced operator-controlled characterization techniques enable atomic-level structure-property understanding in monitoring, visualization, and analysis towards various energy/chemical-related transformations. [112][113][114][115] For instance, except for metal atom re-dispersion or agglomeration that can sause the coexistence of clusters or nanoparticles in SAHCs system, the unsaturated local atomic configuration drives SAHCs themselves instability through dissociation and segregation proc- ess, thus leading structure reconstructions and deactivation.…”

Section: Augmented Analytics Of Sahcsmentioning

confidence: 99%

“…Atomic‐level structure – property tracking . Modern analytical methods combine precise atomic‐level architecture manipulation with ex situ, in situ, or operando characterization to study the local chemical states, doping‐intercalation processes, and property–structure relationship, etc [108–111] . These advanced operator‐controlled characterization techniques enable atomic‐level structure–property understanding in monitoring, visualization, and analysis towards various energy/chemical‐related transformations [112–115] .…”

Section: Synergistic Human‐ai Platform For Sahcsmentioning

confidence: 99%

Single‐Atom Heterogeneous Catalysts: Human‐ and AI‐Driven Platform for Augmented Designs, Analytics and Reality‐Enabled Manufacturing

Cheng,

Tang,

Ostrikov

et al. 2023

Angewandte Chemie

0

View full text Add to dashboard Cite

Heterogeneous catalysts with targeted functionality can be designed with atomic precision, but it is challenging to retain the structure and performance upon the scaled‐up manufacturing. Particularly challenging is to ensure the “atomic economy”, where every catalytic site is most gainfully utilized. Given the emerging synergistic integration of human‐ and artificial intelligence (AI)‐driven augmented designs (AD), augmented analytics (AA), and augmented reality manufacturing (AM) platforms, this minireview focuses on single‐atom heterogeneous catalysts (SAHCs) and examines the current status, challenges, and future perspectives of translating atomic‐level structural precision and data‐driven discovery to next‐generation industrial manufacturing. We critically examine the atomistic insights into structure‐driven SAHCs functionality and discuss the opportunities and challenges on the way towards the synergistic human‐AI collaborative data‐driven platform capable of monitoring, analyzing, manufacturing, and retaining the atomic‐scale structure and functions. Enhanced by the atomic‐level AD, AA, and AM, evolving from the current high‐throughput capabilities and digital materials manufacturing acceleration, this synergistic human‐AI platform is promising to enable atom‐efficient and atomically precise heterogeneous catalyst production.

show abstract

Advanced TEM Characterization for Single-atom Catalysts: from Ex-situ Towards In-situ

Cited by 13 publications

References 121 publications

Research progress on single atom and particle synergistic catalysts for electrocatalytic reactions

Research progress on single atom and particle synergistic catalysts for electrocatalytic reactions

Single‐Atom Heterogeneous Catalysts: Human‐ and AI‐Driven Platform for Augmented Designs, Analytics and Reality‐Enabled Manufacturing

Single‐Atom Heterogeneous Catalysts: Human‐ and AI‐Driven Platform for Augmented Designs, Analytics and Reality‐Enabled Manufacturing

Contact Info

Product

Resources

About