Daniil Karnaushenko
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Explore the profile of Daniil Karnaushenko including associated specialties, affiliations and a list of published articles.
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42
Citations
508
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Recent Articles
31.
Karnaushenko D, Baraban L, Ye D, Uguz I, Mendes R, Rummeli M, et al.
Sci Rep
. 2015 Aug;
5:12878.
PMID: 26264183
We present a new approach to monitor microbial population dynamics in emulsion droplets via changes in metabolite composition, using an inductively coupled LC resonance circuit. The signal measured by such...
32.
Karnaushenko D, Ibarlucea B, Lee S, Lin G, Baraban L, Pregl S, et al.
Adv Healthc Mater
. 2015 May;
4(10):1517-25.
PMID: 25946521
A flexible diagnostic platform is realized and its performance is demonstrated for early detection of avian influenza virus (AIV) subtype H1N1 DNA sequences. The key component of the platform is...
33.
Melzer M, Karnaushenko D, Lin G, Baunack S, Makarov D, Schmidt O
Adv Mater
. 2015 Feb;
27(8):1333-8.
PMID: 25639256
A novel fabrication method for stretchable magnetoresistive sensors is introduced, which allows the transfer of a complex microsensor systems prepared on common rigid donor substrates to prestretched elastomeric membranes in...
34.
Melzer M, Kaltenbrunner M, Makarov D, Karnaushenko D, Karnaushenko D, Sekitani T, et al.
Nat Commun
. 2015 Jan;
6:6080.
PMID: 25607534
Future electronic skin aims to mimic nature's original both in functionality and appearance. Although some of the multifaceted properties of human skin may remain exclusive to the biological system, electronics...
35.
Melzer M, Monch J, Makarov D, Zabila Y, Canon Bermudez G, Karnaushenko D, et al.
Adv Mater
. 2014 Dec;
27(7):1274-80.
PMID: 25523752
Highly flexible bismuth Hall sensors on polymeric foils are fabricated, and the key optimization steps that are required to boost their sensitivity to the bulk value are identified. The sensor...
36.
Karnaushenko D, Makarov D, Stober M, Karnaushenko D, Baunack S, Schmidt O
Adv Mater
. 2014 Nov;
27(5):880-5.
PMID: 25366983
High-performance giant magnetoresistive (GMR) sensorics are realized, which are printed at predefined locations on flexible circuitry. Remarkably, the printed magnetosensors remain fully operational over the complete consumer temperature range and...
37.
Streubel R, Lee J, Makarov D, Im M, Karnaushenko D, Han L, et al.
Adv Mater
. 2013 Oct;
26(2):316-23.
PMID: 24136680
The magnetic microstructure of rolled-up magnetic nanomembranes is revealed both theoretically and experimentally. Two types of nanomembranes are considered, one with a non-magnetic spacer layer and the other without. Experimentally,...
38.
Lin G, Baraban L, Han L, Karnaushenko D, Makarov D, Cuniberti G, et al.
Sci Rep
. 2013 Aug;
3:2548.
PMID: 23989504
We realize a magnetoresistive emulsion analyzer capable of detection, multiparametric analysis and sorting of ferrofluid-containing nanoliter-droplets. The operation of the device in a cytometric mode provides high throughput and quantitative...
39.
Makarov D, Karnaushenko D, Schmidt O
Chemphyschem
. 2013 Apr;
14(9):1771-6.
PMID: 23568510
The field of printable electronics is well developed. A large variety of electronic components assembled as printable optoelectronic devices and communication modules are already available. However, the element responding to...
40.
Karnaushenko D, Makarov D, Yan C, Streubel R, Schmidt O
Adv Mater
. 2012 Jul;
24(33):4518-22.
PMID: 22761017
The first printable magnetic sensor relying on the giant magnetoresistance effect (GMR) is demonstrated. It is prepared in the form of magneto-sensitive inks adherent to any kind of arbitrarily shaped...