Andreas Offenhausser
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Explore the profile of Andreas Offenhausser including associated specialties, affiliations and a list of published articles.
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174
Citations
1157
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Recent Articles
1.
Ahmed A, Alegret N, Almeida B, Alvarez-Puebla R, Andrews A, Ballerini L, et al.
ACS Nano
. 2025 Mar;
PMID: 40063703
Interfacing artificial devices with the human brain is the central goal of neurotechnology. Yet, our imaginations are often limited by currently available paradigms and technologies. Suggestions for brain-machine interfaces have...
2.
Zhang Y, Liu Y, Offenhausser A, Mourzina Y
Biosensors (Basel)
. 2025 Feb;
15(2).
PMID: 39997026
The operating principle of a fuel cell is attracting increasing attention in the development of self-powered electrochemical sensors (SPESs). In this type of sensor, the chemical energy of the analyzed...
3.
Molina Ramirez S, Samiseresht N, Martinez-Roque M, Catania F, Graef K, Rabe M, et al.
Biosensors (Basel)
. 2025 Jan;
15(1).
PMID: 39852074
With the goal of fast and accurate diagnosis of infectious diseases, this study presents a novel electrochemical biosensor that employs a refined aptamer (C9t) for the detection of spike (S)...
4.
Shukla S, Schwartz J, Walsh C, Wong W, Patel V, Hsieh Y, et al.
Microsyst Nanoeng
. 2024 Dec;
10(1):184.
PMID: 39632788
The brain integrates activity across networks of interconnected neurons to generate behavioral outputs. Several physiological and imaging-based approaches have been previously used to monitor responses of individual neurons. While these...
5.
Lobosco A, Lubrano C, Rana D, Montes V, Musall S, Offenhausser A, et al.
Adv Mater
. 2024 Oct;
36(49):e2409614.
PMID: 39402777
The development of organic artificial synapses that exhibit biomimicry features also may enable a more seamless integration of neuroelectronic devices in the nervous system, allowing artificial neuromodulation to be perceived...
6.
Zhang Y, Offenhausser A, Mourzina Y
Biosensors (Basel)
. 2024 Sep;
14(9).
PMID: 39329827
In this published publication [...].
7.
Zhu R, Martinez-Roque M, Figueroa-Miranda G, Hu Z, Acunzo A, Li H, et al.
Talanta
. 2024 Sep;
281:126760.
PMID: 39226699
In this work, we combined plasmon-enhanced fluorescence and electrochemical (PEF-EC) transduction mechanisms to realize a highly sensitive dual-transducer aptasensor. To implement two traducers in one biosensor, a novel large-scale nanoimprint...
8.
Jessing M, Abuawad A, Bikulov T, Abresch J, Offenhausser A, Krause H
Sensors (Basel)
. 2024 Jul;
24(14).
PMID: 39065876
Sensitive magnetic nucleic acid (NA) detection via frequency mixing magnetic detection (FMMD) requires amplified NA samples for which a reliable temperature control is necessary. The feasibility of recombinase polymerase amplification...
9.
Zhou L, Zhu R, Figueroa-Miranda G, Neis M, Offenhausser A, Mayer D
Anal Chim Acta
. 2024 Jul;
1317:342823.
PMID: 39029996
Background: Diabetes patients suffer either from insulin deficiency or resistance with a high risk of severe long-term complications, thus the quantitative assessment of insulin level is highly desired for diabetes...
10.
Zhang Y, Offenhausser A, Mourzina Y
Biosensors (Basel)
. 2024 Jun;
14(6).
PMID: 38920594
Conventional electrochemical sensors use voltammetric and amperometric methods with external power supply and modulation systems, which hinder the flexibility and application of the sensors. To avoid the use of an...