Ultra-low-density digitally architected carbon with a strutted tube-in-tube structure

Ye, Jianchao; Liu, Ling; Oakdale, James S.; Lefebvre, Joseph; Bhowmick, Sanjit; Voisin, Thomas; Roehling, John D.; Smith, William L.; Cerón, Maira R.; Ham, Jip van; Aji, L. B. Bayu; Biener, Monika M.; Wang, Y. Morris; Onck, Patrick; Biener, Juergen

doi:10.1038/s41563-021-01125-w

Cited by 34 publications

(29 citation statements)

References 57 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…The XRD spectra in Figs. S4 and S5, Supporting Information, shows similar graphitic carbon peaks between 20° and 30° while Ru or RuS 2 structures in aerogels were not found clearly (Ye et al 2021). This result was consistent with that of the XRD spectra of the composite polymer aerogel in Fig.…”

Section: Fine Structures Of the Ru/rus 2 -Basupporting

confidence: 89%

Biochar aerogel-based electrocatalyst towards efficient oxygen evolution in acidic media

Hui

Chen

Zhou

et al. 2022

Biochar

View full text Add to dashboard Cite

The controllable synthesis of oxygen evolution reaction (OER) electrocatalyst is an urgent need to advance the development of sustainable energy conversion and storage. However, the OER efficiency in acidic media is seriously hindered by slow reaction kinetics. The traditional acidic OER electrocatalysts are more prone to be oxidized and corroded as results of unstable carrier structures and variable electronic states of active species. Herein, a high-performing biochar aerogel (BA) based electrocatalyst were realistically designed and synthetized via joint utilization of the terrestrial lignin and seaweed polysaccharide as carbon sources. Originating from the induction effect of "egg-box" structure in alginate and the self-template effect of lignosulfonate, the BA decorated with Ru/RuS2 particles was synthesized triumphantly. The as-synthesized electrocatalyst required a low overpotential of 228 mV to attain 10 mA cm−2 in 0.5 M H2SO4 and exhibited a good stability for over 12,000 s. The good activity was strongly dependent on the assembled unique two-dimensional/three-dimensional (2D/3D) channels in carbon aerogels. Notably, the numerous defective sites at carbon could strongly interact with the Ru/RuS2 heterojunction for remarkably enhancing the catalytic activity and stability of whole catalytic system in acidic media. This work puts forward a novel and effective strategy towards the enhancement of the acidic OER process by rational regulations of the BA and the coupling effect in micro-interface. Graphical Abstract

show abstract

Section: Fine Structures Of the Ru/rus 2 -Basupporting

confidence: 89%

Biochar aerogel-based electrocatalyst towards efficient oxygen evolution in acidic media

Hui

Chen

Zhou

et al. 2022

Biochar

View full text Add to dashboard Cite

show abstract

“…Over years of evolution, nature creatures exhibit certain optimized structure and functionality to acclimatize to the environment. [1] For example, bamboos, bird's humerus, coral, and so on, are composed of cell structure to achieve properties such as low weight, [2,3] special mechanical properties, [4,5] and multi-functionality. [6] Besides, the sea cucumber can rapidly and reversibly alter the stiffness of its dermis for protection.…”

Section: Introductionmentioning

confidence: 99%

Lightweight Liquid Metal‐Elastomer Foam with Smart Multi‐Function

Yang

et al. 2022

Adv Funct Materials

View full text Add to dashboard Cite

Lightweight metal-polymer composited foam has drawn considerable attention in fields of wearable electronics, acoustic and electromagnetic shielding, automotive and aerospace manufacturing, owing to its unique advantages like electrical conductivity and mechanical properties. Herein, a facile strategy is studied for one-step fabrication of multifunctional liquid metal (LM) permeated expancel microspheres foam (EMLM foam) with controllable shape and size. Specifically, the formation process and mechanism of bicontinuous structure with polymer and liquid metal are explored by real-time monitoring and finite element simulation. Both experimental and simulating results confirmed a stable 3D metal interconnected network that can be constructed with lower limit of LM (3 vol.%). In addition, based on the unique features of reversible rigidity control, lightweight, electrical conductivity, and mechanical stability, the EMLM foam can exhibit intelligent performance in tunable acoustic, energy absorption, and thermal driving repair. Combined with EMLM foam's facile preparation process and versatility, it can provide the remarkable opportunity to develop the lightweight intelligent devices.

show abstract

“…Nanolattices have recently demonstrated several classically inaccessible properties, e.g., mechanical strength exceeding that of stateoftheart engineering materials at a fraction of their weight. With the pros pect of developing a superior future generation of highperformance lightweight materials, nanoarchitecture approaches are currently extensively studied within cellular metals (2)(3)(4) and ceramics (5)(6)(7)(8). However, the approach is unexplored in dense materials, such as metalceramic composites.…”

Section: Introductionmentioning

confidence: 99%

Nanoarchitected metal/ceramic interpenetrating phase composites

et al. 2022

View full text Add to dashboard Cite

Architected metals and ceramics with nanoscale cellular designs, e.g., nanolattices, are currently subject of extensive investigation. By harnessing extreme material size effects, nanolattices demonstrated classically inaccessible properties at low density, with exceptional potential for superior lightweight materials. This study expands the concept of nanoarchitecture to dense metal/ceramic composites, presenting co-continuous architectures of three-dimensional printed pyrolytic carbon shell reinforcements and electrodeposited nickel matrices. We demonstrate ductile compressive deformability with elongated ultrahigh strength plateaus, resulting in an extremely high combination of compressive strength and strain energy absorption. Simultaneously, property-to-weight ratios outperform those of lightweight nanolattices. Superior to cellular nanoarchitectures, interpenetrating nanocomposites may combine multiple size-dependent characteristics, whether mechanical or functional, which are radically antagonistic in existing materials. This provides a pathway toward previously unobtainable multifunctionality, extending far beyond lightweight structure applications.

show abstract

Ultra-low-density digitally architected carbon with a strutted tube-in-tube structure

Cited by 34 publications

References 57 publications

Biochar aerogel-based electrocatalyst towards efficient oxygen evolution in acidic media

Biochar aerogel-based electrocatalyst towards efficient oxygen evolution in acidic media

Lightweight Liquid Metal‐Elastomer Foam with Smart Multi‐Function

Nanoarchitected metal/ceramic interpenetrating phase composites

Contact Info

Product

Resources

About