Carlos Filipe
Carlos Filipe
Professor of Chemical Engineering, McMaster University
Verified email at
Cited by
Cited by
Biological wastewater treatment
CPL Grady Jr, GT Daigger, NG Love, CDM Filipe
CRC press, 2011
Intelligent food packaging: A review of smart sensing technologies for monitoring food quality
H Yousefi, HM Su, SM Imani, K Alkhaldi, CD M. Filipe, TF Didar
ACS sensors 4 (4), 808-821, 2019
Development of a bioactive paper sensor for detection of neurotoxins using piezoelectric inkjet printing of sol− gel-derived bioinks
SMZ Hossain, RE Luckham, AM Smith, JM Lebert, LM Davies, RH Pelton, ...
Analytical chemistry 81 (13), 5474-5483, 2009
Identification of a novel group of bacteria in sludge from a deteriorated biological phosphorus removal reactor
AT Nielsen, WT Liu, C Filipe, L Grady Jr, S Molin, DA Stahl
Applied and Environmental Microbiology 65 (3), 1251-1258, 1999
A metabolic model for acetate uptake under anaerobic conditions by glycogen accumulating organisms: stoichiometry, kinetics, and the effect of pH
CDM Filipe, GT Daigger, CPL Grady Jr
Biotechnology and bioengineering 76 (1), 17-31, 2001
pH as a key factor in the competition between glycogen‐accumulating organisms and phosphorus‐accumulating organisms
CDM Filipe, GT Daigger, CPL Grady Jr
Water Environment Research 73 (2), 223-232, 2001
Tools for water quality monitoring and mapping using paper-based sensors and cell phones
C Sicard, C Glen, B Aubie, D Wallace, S Jahanshahi-Anbuhi, K Pennings, ...
Water research 70, 360-369, 2015
Stoichiometry and kinetics of acetate uptake under anaerobic conditions by an enriched culture of phosphorus‐accumulating organisms at different pHs
CDM Filipe, GT Daigger, CPL Grady Jr
Biotechnology and bioengineering 76 (1), 32-43, 2001
Characterization of the denitrifying fraction of phosphate accumulating organisms in biological phosphate removal
J Meinhold, CDM Filipe, GT Daigger, S Isaacs
Water Science and Technology 39 (1), 31-42, 1999
Algae-mediated biosynthesis of inorganic nanomaterials as a promising route in nanobiotechnology–a review
SA Dahoumane, M Mechouet, K Wijesekera, CDM Filipe, C Sicard, ...
Green Chemistry 19 (3), 552-587, 2017
Composite materials comprising supported porous gels
RF Childs, AM Mika, J Zhou, EN Komkova, M Kim, TK Dey
US Patent 7,316,919, 2008
Hydrophobic sol–gel channel patterning strategies for paper-based microfluidics
J Wang, MRN Monton, X Zhang, CDM Filipe, R Pelton, JD Brennan
Lab on a Chip 14 (4), 691-695, 2014
Microgel-based inks for paper-supported biosensing applications
S Su, MM Ali, CDM Filipe, Y Li, R Pelton
Biomacromolecules 9 (3), 935-941, 2008
Effects of pH on the rates of aerobic metabolism of phosphate‐accumulating and glycogen‐accumulating organisms
CDM Filipe, GT Daigger, CPL Grady Jr
Water Environment Research 73 (2), 213-222, 2001
Sentinel wraps: real-time monitoring of food contamination by printing DNAzyme probes on food packaging
H Yousefi, MM Ali, HM Su, CDM Filipe, TF Didar
ACS nano 12 (4), 3287-3294, 2018
DNAzyme-based biosensors: Immobilization strategies, applications, and future prospective
S Khan, B Burciu, CDM Filipe, Y Li, K Dellinger, TF Didar
Acs Nano 15 (9), 13943-13969, 2021
A DNAzyme‐Based Colorimetric Paper Sensor for Helicobacter pylori
MM Ali, M Wolfe, K Tram, J Gu, CDM Filipe, Y Li, JD Brennan
Angewandte Chemie 131 (29), 10012-10016, 2019
Self-cleavable stimulus responsive tags for protein purification without chromatography
X Ge, DSC Yang, K Trabbic-Carlson, B Kim, A Chilkoti, CDM Filipe
Journal of the American Chemical Society 127 (32), 11228-11229, 2005
Creating fast flow channels in paper fluidic devices to control timing of sequential reactions
S Jahanshahi-Anbuhi, P Chavan, C Sicard, V Leung, SMZ Hossain, ...
Lab on a Chip 12 (23), 5079-5085, 2012
Target‐induced and equipment‐free DNA amplification with a simple paper device
M Liu, CY Hui, Q Zhang, J Gu, B Kannan, S Jahanshahi‐Anbuhi, ...
Angewandte Chemie 128 (8), 2759-2763, 2016
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