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Nikhil Carneiro
Nikhil Carneiro
Graduate Student at Purdue University
Email verificata su purdue.edu
Titolo
Citata da
Citata da
Anno
Modifying the surface chemistry and nanostructure of carbon nanotubes facilitates the detection of aromatic hydrocarbon gases
JN Hodul, AK Murray, NF Carneiro, JR Meseke, J Morris, X He, ...
ACS Applied Nano Materials 3 (10), 10389-10398, 2020
162020
Poly (5-carboxyindole)–β-cyclodextrin composite material for enhanced formaldehyde gas sensing
JN Hodul, NF Carneiro, AK Murray, W Lee, KM Brayton, X He, ...
Journal of Materials Science 57 (24), 11460-11474, 2022
32022
Nanoparticle-functionalized microsensors for room-temperature hydrogen detection
S Debnath, C Flores-Hansen, NF Carneiro, WA Swann, ZA Siefker, ...
Journal of Materials Science 59 (15), 6436-6445, 2024
2024
INVESTIGATING POLY (5-CARBOXYINDOLE) BETACYCLODEXTRIN NANOCOMPOSITE FOR THE ENHANCED INDOOR DETECTION OF FORMALDEHYDE GAS
JN Hodul, NF Carneiro, AK Murray, W Lee, KM Brayton, X He, ...
NEXT GENERATION OF MASS RESONANCE GAS SENSING AT ROOM TEMPERATURE, 82, 2023
2023
THE DEVELOPMENT OF CHEMI-SELECTIVE SENSORS TO DETECT VOLATILE ORGANIC COMPOUNDS AND FLAMMABLE REFRIGERANTS
NF Carneiro
Purdue University Graduate School, 2022
2022
Poly (5-Carboxyindole)–β-Cyclodextrin Composite Material for Poly (5-Carboxyindole)–-Cyclodextrin Composite Material for Enhanced Formaldehyde Gas Sensing
JN Hodul, NF Carneiro, AK Murray, W Lee, KM Brayton
Il sistema al momento non può eseguire l'operazione. Riprova più tardi.
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