Martin Süess scite author profile

Heterogeneous composite materials with variable local stiffness are widespread in nature, but are far less explored in engineering structural applications. The development of heterogeneous synthetic composites with locally tuned elastic properties would allow us to extend the lifetime of functional devices with mechanically incompatible interfaces, and to create new enabling materials for applications ranging from flexible electronics to regenerative medicine. Here we show that heterogeneous composites with local elastic moduli tunable over five orders of magnitude can be prepared through the site-specific reinforcement of an entangled elastomeric matrix at progressively larger length scales. Using such a hierarchical reinforcement approach, we designed and produced composites exhibiting regions with extreme soft-to-hard transitions, while still being reversibly stretchable up to 350%. The implementation of the proposed methodology in a mechanically challenging application is illustrated here with the development of locally stiff and globally stretchable substrates for flexible electronics.

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A novel high resolution, wide swath SAR system

Süess¹,

Grafmueller²,

Zahn³

192

137

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Top-down fabricated silicon nanowires under tensile elastic strain up to 4.5%

et al. 2012

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strained si nanowires are among the most promising transistor structures for implementation in very large-scale integration due to of their superior electrostatic control and enhanced transport properties. Realizing even higher strain levels within such nanowires are thus one of the current challenges in microelectronics. Here we achieve 4.5% of elastic strain (7.6 GPa uniaxial tensile stress) in 30 nm wide si nanowires, which considerably exceeds the limit that can be obtained using siGe-based virtual substrates. our approach is based on strain accumulation mechanisms in suspended dumbbell-shaped bridges patterned on strained si-on-insulator, and is compatible with complementary metal oxide semiconductor fabrication. Potentially, this method can be applied to any tensile prestrained layer, provided the layer can be released from the substrate, enabling the fabrication of a variety of strained semiconductors with unique properties for applications in nanoelectronics, photonics and photovoltaics. This method also opens up opportunities for research on strained materials.

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Template-free co-assembly of preformed Au and TiO2 nanoparticles into multicomponent 3D aerogels

et al. 2011

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The miscibility window of poly(methylmethacrylate)/poly(styrene-co-acrylonitrile) blends

Süess

Kreßler

Kammer

1987

Polymer

194

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Assembly of BaTiO₃ Nanocrystals into Macroscopic Aerogel Monoliths with High Surface Area

et al. 2014

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Aerogels with their low density and high surface area are fascinating materials. However, their advantageous morphology is still far from being fully exploited owing to their limited compositional variety and low crystallinity. Replacing the sol-gel process by a particle-based assembly route is a powerful alternative to expand the accessible functionalities of aerogels. A strategy is presented for the controlled destabilization of concentrated dispersions of BaTiO3 nanoparticles, resulting in the assembly of the fully crystalline building blocks into cylindrically shaped monolithic gels, thereby combining the inherent properties of ternary oxides with the highly porous microstructure of aerogels. The obtained aerogels showed an unprecedentedly high surface area of over 300 m(2) g(-1).

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Short pulse generation and mode control of broadband terahertz quantum cascade lasers

Bachmann

Rösch

Süess

et al. 2016

Optica

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We report on a waveguide engineering technique that enables the generation of a bandwidth up to ∼ 1 THz and record ultra-short pulse length of 2.5 ps in injection seeded terahertz quantum cascade lasers. The reported technique is able to control and fully suppress higher order lateral modes in broadband terahertz quantum cascade lasers by introducing side-absorbers to metal-metal waveguides. The side-absorbers consist of a top metalization set-back with respect to the laser ridge and an additional lossy metal layer. In continuous wave operation the side-absorbers lead to octave spanning laser emission, ranging from 1.63 to 3.37 THz, exhibiting a 725 GHz wide flat top within a 10 dB intensity range as well as frequency comb operation with a bandwidth of 442 GHz. Numerical and experimental studies have been performed to optimize the impact of the side-absorbers on the emission properties and to determine the required increase of waveguide losses. Furthermore, these studies have led to a better understanding of the pulse formation dynamics of injection-seeded quantum cascade lasers.

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Martin Süess

Analysis of enhanced light emission from highly strained germanium microbridges

Stretchable heterogeneous composites with extreme mechanical gradients

A novel high resolution, wide swath SAR system

Top-down fabricated silicon nanowires under tensile elastic strain up to 4.5%

Template-free co-assembly of preformed Au and TiO2 nanoparticles into multicomponent 3D aerogels

The miscibility window of poly(methylmethacrylate)/poly(styrene-co-acrylonitrile) blends

Assembly of BaTiO₃ Nanocrystals into Macroscopic Aerogel Monoliths with High Surface Area

Short pulse generation and mode control of broadband terahertz quantum cascade lasers

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Resources

About

Martin Süess

Analysis of enhanced light emission from highly strained germanium microbridges

Stretchable heterogeneous composites with extreme mechanical gradients

A novel high resolution, wide swath SAR system

Top-down fabricated silicon nanowires under tensile elastic strain up to 4.5%

Template-free co-assembly of preformed Au and TiO2 nanoparticles into multicomponent 3D aerogels

The miscibility window of poly(methylmethacrylate)/poly(styrene-co-acrylonitrile) blends

Assembly of BaTiO3 Nanocrystals into Macroscopic Aerogel Monoliths with High Surface Area

Short pulse generation and mode control of broadband terahertz quantum cascade lasers

Contact Info

Product

Resources

About

Assembly of BaTiO₃ Nanocrystals into Macroscopic Aerogel Monoliths with High Surface Area