Roald Tiggelaar
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Explore the profile of Roald Tiggelaar including associated specialties, affiliations and a list of published articles.
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11
Citations
149
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Recent Articles
1.
Martinussen S, Berenschot E, Bonneville D, Wang K, Dijkstra M, Tas N, et al.
Opt Express
. 2024 Nov;
32(21):36835-36847.
PMID: 39573563
Low-stress stoichiometric silicon nitride (SiN) waveguides with an unprecedented thickness of up to 1350 nm and a width in the range of 2.2 - 2.7 µm are fabricated using a...
2.
Bruijns B, Tiggelaar R, Knotter J, van Dam A
Sensors (Basel)
. 2023 Jul;
23(13).
PMID: 37448049
Already for some decades lateral flow assays (LFAs) are 'common use' devices in our daily life. Also, for forensic use LFAs are developed, such as for the analysis of illicit...
3.
Bruijns B, Knotter J, Tiggelaar R
Sensors (Basel)
. 2023 Feb;
23(3).
PMID: 36772114
This systematic review describes and discusses three commercially available integrated systems for forensic DNA analysis, i.e., ParaDNA, RapidHIT, and ANDE. A variety of aspects, such as performance, time-to-result, ease-of-use, portability,...
4.
Bruijns B, Folkertsma L, Tiggelaar R
Biosens Bioelectron X
. 2022 May;
11:100158.
PMID: 35619623
Since the start of the COVID-19 pandemic, 10 manufacturers of molecular tests for SARS-CoV-2 have received Emergency Use Authorizations from the U.S. Food and Drug Administration for point-of-care or over...
5.
Susarrey-Arce A, Hernandez-Sanchez J, Marcello M, Diaz-Fernandez Y, Oknianska A, Sorzabal-Bellido I, et al.
ACS Appl Bio Mater
. 2022 Jan;
1(5):1294-1300.
PMID: 34996233
Soft substrates decorated with micropillar arrays are known to be sensitive to deflection due to capillary action. In this work, we demonstrate that micropillared epoxy surfaces are sensitive to single...
6.
Bruijns B, Veciana A, Tiggelaar R, Gardeniers H
Biosensors (Basel)
. 2019 Jul;
9(3).
PMID: 31277382
Microfluidic devices offer important benefits for forensic applications, in particular for fast tests at a crime scene. A large portion of forensic applications require microfluidic chip material to show compatibility...
7.
Bruijns B, Tiggelaar R, Gardeniers H
Electrophoresis
. 2018 Aug;
39(21):2642-2654.
PMID: 30101986
DNA sequencing, starting with Sanger's chain termination method in 1977 and evolving into the next generation sequencing (NGS) techniques of today that employ massively parallel sequencing (MPS), has become essential...
8.
Bruijns B, Tiggelaar R, Gardeniers H
Data Brief
. 2016 Dec;
10:132-143.
PMID: 27957521
This article describes data related to a research article entitled "Fluorescent cyanine dyes for the quantification of low amounts of dsDNA" (B. Bruijns, R. Tiggelaar, J. Gardeniers, 2016) [1]. Six...
9.
Bruijns B, van Asten A, Tiggelaar R, Gardeniers H
Biosensors (Basel)
. 2016 Aug;
6(3).
PMID: 27527231
Microfluidic devices may offer various advantages for forensic DNA analysis, such as reduced risk of contamination, shorter analysis time and direct application at the crime scene. Microfluidic chip technology has...
10.
Costantini F, Tiggelaar R, Sennato S, Mura F, Schlautmann S, Bordi F, et al.
Analyst
. 2013 Jul;
138(17):5019-24.
PMID: 23831561
In this work we show the functionalization of the interior of microfluidic glass chips with poly(2-hydroxyethyl methacrylate) polymer brushes as anchors for co-immobilization of the enzymes glucose-oxidase and horseradish peroxidase....