Daniil Karnaushenko

Overview

Explore the profile of Daniil Karnaushenko including associated specialties, affiliations and a list of published articles.

Snapshot

Articles 42

Citations 508

Followers 0

Related Specialties

Biology

Biotechnology

Science

Top 10 Co-Authors

Oliver G Schmidt

Dmitriy D Karnaushenko

Denys Makarov

Stefan Baunack

Christian Becker

Minshen Zhu

Rudolf Schafer

Vineeth Kumar Bandari

Tong Kang

Feng Zhu

Published In

Adv Mater

Nat Commun

Sci Adv

ACS Nano

Nano Lett

Affiliations

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Recent Articles

21.

Self-assembly of highly sensitive 3D magnetic field vector angular encoders

Becker C, Karnaushenko D, Kang T, Karnaushenko D, Faghih M, Mirhajivarzaneh A, et al.

Sci Adv . 2020 Feb; 5(12):eaay7459. PMID: 32064322

Novel robotic, bioelectronic, and diagnostic systems require a variety of compact and high-performance sensors. Among them, compact three-dimensional (3D) vector angular encoders are required to determine spatial position and orientation...

22.

Self-Assembled Flexible and Integratable 3D Microtubular Asymmetric Supercapacitors

Li F, Wang J, Liu L, Qu J, Li Y, Bandari V, et al.

Adv Sci (Weinh) . 2019 Oct; 6(20):1901051. PMID: 31637162

The rapid development of microelectronics has equally rapidly increased the demand for miniaturized energy storage devices. On-chip microsupercapacitors (MSCs), as promising power candidates, possess great potential to complement or replace...

23.

3D Self-Assembled Microelectronic Devices: Concepts, Materials, Applications

Karnaushenko D, Kang T, Bandari V, Zhu F, Schmidt O

Adv Mater . 2019 Sep; 32(15):e1902994. PMID: 31512308

Modern microelectronic systems and their components are essentially 3D devices that have become smaller and lighter in order to improve performance and reduce costs. To maintain this trend, novel materials...

24.

Magnetic origami creates high performance micro devices

Gabler F, Karnaushenko D, Karnaushenko D, Schmidt O

Nat Commun . 2019 Jul; 10(1):3013. PMID: 31285441

Self-assembly of two-dimensional patterned nanomembranes into three-dimensional micro-architectures has been considered a powerful approach for parallel and scalable manufacturing of the next generation of micro-electronic devices. However, the formation pathway...

25.

Self-Assembly of Integrated Tubular Microsupercapacitors with Improved Electrochemical Performance and Self-Protective Function

Wang J, Bandari V, Karnaushenko D, Li Y, Li F, Zhang P, et al.

ACS Nano . 2019 Jul; 13(7):8067-8075. PMID: 31274285

Inspired by origami art, we demonstrate a tubular microsupercapacitor (TMSC) by self-assembling two-dimensional (2D) films into a "swiss roll" structure with greatly reduced footprint area. A polymeric framework consisting of...

26.

Three-Dimensional Microtubular Devices for Lab-on-a-Chip Sensing Applications

Wang J, Karnaushenko D, Medina-Sanchez M, Yin Y, Ma L, Schmidt O

ACS Sens . 2019 May; 4(6):1476-1496. PMID: 31132252

The rapid advance of micro-/nanofabrication technologies opens up new opportunities for miniaturized sensing devices based on novel three-dimensional (3D) architectures. Notably, microtubular geometry exhibits natural advantages for sensing applications due...

27.

Magnetosensitive e-skins with directional perception for augmented reality

Canon Bermudez G, Karnaushenko D, Karnaushenko D, Lebanov A, Bischoff L, Kaltenbrunner M, et al.

Sci Adv . 2018 Jan; 4(1):eaao2623. PMID: 29376121

Electronic skins equipped with artificial receptors are able to extend our perception beyond the modalities that have naturally evolved. These synthetic receptors offer complimentary information on our surroundings and endow...

28.

Addressable and Color-Tunable Piezophotonic Light-Emitting Stripes

Chen Y, Zhang Y, Karnaushenko D, Chen L, Hao J, Ding F, et al.

Adv Mater . 2017 Mar; 29(19). PMID: 28295692

Piezophotonic light-emitting devices have great potential for future microelectromechanical systems (MEMS) and nanoelectromechanical systems (NEMS) due to the added functionality provided by the electromechanical transduction coupled with the ability of...

29.

Self-Assembled On-Chip-Integrated Giant Magneto-Impedance Sensorics

Karnaushenko D, Karnaushenko D, Makarov D, Baunack S, Schafer R, Schmidt O

Adv Mater . 2015 Sep; 27(42):6582-9. PMID: 26398863

A novel method relying on strain engineering to realize arrays of on-chip-integrated giant magneto-impedance (GMI) sensors equipped with pick-up coils is put forth. The geometrical transformation of an initially planar...

30.

Biomimetic Microelectronics for Regenerative Neuronal Cuff Implants

Karnaushenko D, Munzenrieder N, Karnaushenko D, Koch B, Meyer A, Baunack S, et al.

Adv Mater . 2015 Sep; 27(43):6797-805. PMID: 26397039

Smart biomimetics, a unique class of devices combining the mechanical adaptivity of soft actuators with the imperceptibility of microelectronics, is introduced. Due to their inherent ability to self-assemble, biomimetic microelectronics...