-41-
A study into evaluating the location of fingermarks on letters given activity level propositions
-40-
Imaging-assisted hydrogel formation for single cell isolation
-39-
Co-deposition of silica and proteins at the interface between two immiscible electrolyte solutions
-38-
Positive control tests for fingermark development reagents
-37-
Analysis of amino acid enantiomers from aged fingerprints
-36-
Classification of condom lubricants in cyanoacrylate treated fingerprints by desorption electrospray ionization mass spectrometry
Mark Begieneman, Ward van Helmond, Roos Kniest and Marcel de Puit, Forensic Science International, 2019, 305, 110005.
-35-
Chemical profiling of fingerprints using mass spectrometry
Wardvan Helmond, Annemijn W.van Herwijnen, Joëlle J.H.van Riemsdijk, Marc A.van Bochove, Christianne J.de Poot, Marcel de Puit, Forensic Chemistry, 2019, 100183
-34-
The evaluation of fingermarks given activity level propositions
Anouk de Ronde, Bas Kokshoorn, Christianne J. de Poot, and Marcel de Puit, Forensic Science International, 2019, 109904.
-33-
Amino acid profiling from fingerprints, a novel methodology using UPLC-MS
Amino Acid Analysis, Methods in Molecular Biology, Springer Protocols, 2019
Ward van Helmond and Marcel de Puit
-32-
Collection of Amino Acids and DNA from Fingerprints using Hydrogels
Amino Acid Analysis, Methods in Molecular Biology, Springer Protocols, 2019
Ward van Helmond, Vincent O’Brien, Robin de Jong, Jan van Esch, Sander Oldenhof and Marcel de Puit.
-31-
Electrochemical cocaine (bio)sensing. From solid electrodes to soft junctions.
Lukasz Poltorak, Ernst Sudhölter, Marcel de Puit, Trends in Analytical Chemistry, 2019, 114, 48.
-30-
A study into fingermarks at activity level on pillowcases at the Dutch music festival Lowlands
Anouk de Ronde, Marja van Aken, Christianne de Poot, Marcel de Puit, Forensic Science International, 2019, 295, 113.
-29-
Proteomics as a new tool to study fingermark ageing in forensics
Tom Schuurmans , Martin Pabst , Louis de Smet , Marcel de Puit, Nature Sci. Rep., 8,16425. DOI:10.1038/s41598-018-34791-z
-28-
Hydrogel micro-patterning for embedding purposes
Marcel de Puit, Jan van Esch, Sander Oldenhof, Serhii Mytnyk
Patent NL201783B1
-27-
Fluorescent Metal Organic Frameworks for the visual enhancement of latent fingermarks
Robin de Jong and Marcel de Puit, Forensic Science International, 2018, 291, 12
-26-
Acid phosphatase behavior at the electrified soft junction and its interfacial co-deposition with silica
Lukasz Poltorak, Nienke van der Meijden, Stijn Oonk, Ernst J. R. Sudhölter, Marcel de Puit, Electrochemistry Communications, 2018, 94, 27
-25-
Fingerprint Development Techniques: Theory and Application
-24-
Electrified soft interface as a selective sensor for cocaine detection in street samples
Lukasz Poltorak, Irene Eggink, Marnix Hoitink, Ernst Sudholter, Marcel de Puit, Analytical Chemistry, 10.1021/acs.analchem.8b00916
-23-
Non-invasive detection of cocaine and heroin use using single fingerprints – determination of an environmental cut-off
Mahado Ismail, Derek Stevenson, Catia Costa, Roger Webb, Marcel de Puit, Melanie Bailey, Clinical Chemistry, 64, 4, 10.1373/clinchem.2017.281469.
-22-
Collection of Amino Acids and DNA from Fingerprints using Hydrogels
Ward van Helmond, Vincent O’Brien, Robin de Jong, Jan van Esch, Sander Oldenhof and Marcel de Puit. Analyst, 2018,143, 900-905.
-21-
Rapid, Secure Drug Testing Using Fingerprint Development and Paper Spray Mass Sspectrometry
-20-
Amino acid profiling from fingerprints, a novel methodology using UPLC-MS
Ward van Helmond, Chris-Jan Kuijpers, Elise van Diejen, Jincey Spiering, Brent Maagdelijn and Marcel de Puit. Analytical Methods, 2017, Advance Article, 10.1039/C7AY01603D
-19-
Analysis of Urine, Oral fluid and Fingerprints by Liquid Extraction Surface Analysis Coupled to High Resolution MS and MS/MS – Opportunities for Forensic and Biomedical Science
Melanie Bailey, Elizabeth C. Randall, Catia Costa, Tara Salter, Alan M. Race, Marcel de Puit, Mattijs Koeberg, Mark Baumert and Josephine Bunch. Analytical Methods, 2016, 10.1039/C6AY00782A
-18-
Comparison of the Reagents SPR-W and Acid Yellow 7 for the Visualization of Blood Marks on a Dark Surface
Bouwmeester, M. A. C., Leegwater J., de Puit, M. Journal of Forensic Identification, 2016, 66, 4, 289.
-17-
Fluorescent polyelectrolyte for the visualization of fingermarks
van der Mee, L., Chow, E. S. Y., de Smet, L. C. P. M., de Puit, M., Sudhölter, E. J. R and Jager, W. F. Analytical Methods, 2015, 10.1039/C5AY02281A.
-16-
Detection and mapping of illicit drugs and their metabolites in fingermarks by MALDI MS and compatibility with forensic techniques. Groeneveld, G., de Puit, M., Bradshaw, R., Bleay, S., Francese, S., Nature Scientific Reports, 2015, 10.1038/srep11716.
-15-
Performance of 1,2-Indanedione and the need for sequential treatment of fingerprints.
Figuera, M. M., Xu, X., de Puit, M., Science and Justice, 2015, doi:10.1016/j.scijus.2015.04.002
-14-
Rapid Detection of Cocaine, Benzoylecgonine and Methylecgonine in Fingerprints using Surface Mass Spectrometry.
Bailey, M. J., Bradshaw, R., Francese, S., Salter, T. L., Costa, C., Ismail, M., Webb, R. P., Bosman, I., Wolff, K., de Puit, M., Analyst, 2015, 10.1039/C5AN00112A.
-13-
Extraction of fatty compounds from fingerprints for GCMS analysis.
S. J. Cadd, L. Mota, D. Werkman, M. Islam, M. Zuidberg and M. de Puit, Advance Article, Analytical Methods, 2015, DOI: 10.1039/C4AY02434F
-12-
Determining the chronology of deposition of natural fingermarks and inks on paper using secondary ion mass spectrometry.
N. Attard-Montalto, J. J. Ojeda, A. Reynolds, M. Ismail, M. Bailey, L. Doodkorte, M. de Puit and B. J. Jones, Analyst, 2014, 10.1039/C4AN00811A.
-11-
Immunolabeling and the compatibility with a variety of fingermark development techniques.
A. van Dam, M. C.G. Aalders, M. de Puit, S. M. Gorré, D. Irmak, T. G. van Leeuwen, S. A.G. Lambrechts, Science & Justice, 10.1016/j.scijus.2014.06.005
-10-
Effect of CBRN-E decontamination reagents on fingerprints,
M. Zuidberg, T. van Woerkom, K. de Bruin, R. Stoel, M. de Puit, Journal of forensic sciences, 2014, 59, 61–9.
-9-
LCMS analysis of fingerprints, the amino acid profile of twenty donors.
M. de Puit, M. Ismail, X. Xu, Journal of forensic sciences, 2014,59, 364–70.
-8-
One Step Fluorescent Cyanoacrylate Reagents and Formulations,
G. Groeneveld, S. Kuijer, M. de Puit, Science & Justice, 2014, 54, 42.
-7-
Enhanced Imaging of Developed Fingerprints using mass spectrometry imaging.
M. Bailey, R.P. Webb, D. Everson, M. de Puit, M. Ismail, S. Bleay, N.J. Bright, M. Elad, Y. Cohen, Analyst, 138 (2013) 6246.
-6-
Determination of efficacy of fingermark enhancement reagents; the use of propyl chloroformate for the derivatisation of fingermark amino acids extracted from paper.
M. de Puit, T. Mink, A. Voorhaar, R.D. Stoel, Science and Justice, 53 (2013) 301.
-5-
Studies toward the development of a positive control test for the cyanoacrylate fuming technique using artificial sweat.
M. de Puit, S. Veldhuis, Journal of Forensic Identification, 61 (2011), 16.
-4-
Use of physical developer for the visualisation of latent fingerprints.
M. de Puit, M. Bouwmeester, L. Koomen, J. van Wouw, M. de Gijt, C. Rodriguez, Journal of Forensic Identification, 61 (2011) 166.
-3-
A comparison of reagents for the visualisation of blood prints on knives with black handles.
M. Bouwmeester, M. de Puit, Journal of Forensic Identification, 61 (2011) 353.
-2-
Effect of common fingerprint detection techniques on subsequent STR profiling.
B. Bhoelai, B.J. de Jong, M. de Puit, T. Sijen, Forensic Sci Int, Genetic Supplement Series 3, (2011) e429–e430.
-1-
An alternative trinity, objectivity, subjectivity and transparency.
M. de Puit, Journal of Forensic Identification, 60 (2010) 1.