Mercedes Crego-Calama
Overview
Explore the profile of Mercedes Crego-Calama including associated specialties, affiliations and a list of published articles.
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Articles
51
Citations
443
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Recent Articles
1.
Basabe-Desmonts L, van der Baan F, Zimmerman R, Reinhoudt D, Crego-Calama M
Sensors (Basel)
. 2017 Sep;
7(9):1731-1746.
PMID: 28903194
Fluorescent self assembled monolayers (SAMs) on glass were previouslydeveloped in our group as new sensing materials for metal ions. These fluorescent SAMs arecomprised by fluorophores and small molecules sequentially deposited...
2.
Pettine J, Petrescu V, Karabacak D, Vandecasteele M, Crego-Calama M, Van Hoof C
IEEE Trans Biomed Circuits Syst
. 2013 Jul;
6(6):542-51.
PMID: 23853255
This work presents a multichannel electronic nose system that enables a range of novel applications owing to high sensitivity, low form factor and low power consumption. Each channel is based...
3.
Berrier A, Cools R, Arnold C, Offermans P, Crego-Calama M, Brongersma S, et al.
ACS Nano
. 2011 Jul;
5(8):6226-32.
PMID: 21776964
We experimentally demonstrate the active control of the coupling strength between porphyrin dyes and surface plasmon polaritons supported by a thin gold layer. This control is externally exerted by a...
4.
Zevenbergen M, Wouters D, Dam V, Brongersma S, Crego-Calama M
Anal Chem
. 2011 Jul;
83(16):6300-7.
PMID: 21721532
We introduce an electrochemical ethylene sensor that employs a thin layer of ionic liquid as electrolyte. Ethylene is oxidized in a potential window starting ∼600 mV before the onset of...
5.
Knoben W, Brongersma S, Crego-Calama M
Nanotechnology
. 2011 Jun;
22(29):295303.
PMID: 21680962
The refractive index sensitivity of localized surface plasmon resonance sensors can be improved by placing the plasmonic metal particles on pillars instead of on a planar substrate. In this paper,...
6.
Offermans P, Schaafsma M, Rodriguez S, Zhang Y, Crego-Calama M, Brongersma S, et al.
ACS Nano
. 2011 May;
5(6):5151-7.
PMID: 21574624
We demonstrate an improvement by more than 1 order of magnitude of the figure of merit (FoM) of plasmonic nanoparticle sensors by means of the diffractive coupling of localized surface...
7.
Offermans P, Crego-Calama M, Brongersma S
Nano Lett
. 2010 May;
10(7):2412-5.
PMID: 20503976
Nanowire-based devices show great promise for next generation (bio)chemical sensors as evidenced by the large volume of high-quality publications. Here, a nanoscale gas sensing device is presented, based on gold-free...
8.
Karabacak D, Brongersma S, Crego-Calama M
Lab Chip
. 2010 May;
10(15):1976-82.
PMID: 20485770
Very high aspect (length/thickness) ratio doubly clamped beams with integrated piezoelectric transducers are demonstrated for low power sensing of volatiles. The described approach allows for high yield fabrication of a...
9.
Ishi-I T, Crego-Calama M, Timmerman P, Reinhoudt D, Shinkai S
Angew Chem Int Ed Engl
. 2009 Sep;
41(11):1924-9.
PMID: 19750635
No abstract available.
10.
Xu W, Dong M, Gersen H, Rauls E, Vazquez-Campos S, Crego-Calama M, et al.
Small
. 2008 Jul;
4(10):1620-3.
PMID: 18651628
No abstract available.