about
Detection of prostate cancer using a voltammetric electronic tongue.Molecular gates in mesoporous bioactive glasses for the treatment of bone tumors and infection.A voltammetric electronic tongue as tool for water quality monitoring in wastewater treatment plants.Evaluation of sea bream (Sparus aurata) shelf life using an optoelectronic nose.Proof of concept of using chromogenic arrays as a tool to identify blue cheese varieties.Monitoring of chicken meat freshness by means of a colorimetric sensor array.Colorimetric detection of hazardous gases using a remotely operated capturing and processing system.Development of a colorimetric sensor array for squid spoilage assessment.A novel colorimetric sensor array for monitoring fresh pork sausages spoilageMonitorization of Atlantic salmon (Salmo salar) spoilage using an optoelectronic noseTowards the potential use of 1H NMR spectroscopy in urine samples for prostate cancer detectionA humid electronic nose based on pulse voltammetry: A proof-of-concept designA method of pulse array design for voltammetric electronic tonguesA Novel Humid Electronic Nose Based on VoltammetryDiscrimination of nerve gases mimics and other organophosphorous derivatives in gas phase using a colorimetric probe arrayFish Freshness Decay Measurement with a Colorimetric ArraySilica nanoparticles functionalised with cation coordination sites and fluorophores for the differential sensing of anions in a quencher displacement assay (QDA)Use of a Voltammetric Electronic Tongue for Detection and Classification of Nerve Agent MimicsA new model based on experimental results for the thermal characterization of bricksUse of a voltammetric electronic tongue for predicting levels of nerve agent mimicsEnergy efficiency and thermal comfort in historic buildings: A reviewAssessing visitors' thermal comfort in historic museum buildings: Results from a Post-Occupancy Evaluation on a case studySolvatochromic and Single Crystal Studies of Two Neutral Triarylmethane Dyes with a Quinone Methide Structure
P50
Q39634745-B719076C-3E4E-476B-9170-3F8B461983EBQ40412756-8EEF3DF2-6B7F-48FE-BC72-5F2938F6E483Q43341697-8E508192-048C-4F86-B9B6-97B174B672F4Q45017467-DF3473F2-ADEE-42E0-8A30-586EC3CC8A9EQ45986267-AD781FEA-E992-4DF7-8340-70782EC111D1Q47412771-A951CCA7-4BC4-45B9-A8F6-77BE6C681649Q50208861-80218539-BE60-4198-B43B-48AC7F9E3965Q54591056-FDCB9D09-3A0B-4615-8A65-834EF24ACF80Q57401102-B288EBDC-E22D-47CC-B8DB-6C717135C3F1Q57401118-2C2D6012-BDD7-487C-9CB5-8B078E9D462AQ57401126-CBEF6F6B-E08B-4EA2-9546-3B168B64E3E1Q57401127-45C35761-2560-4178-8CA7-04B6C627D3C7Q57401147-C9B3DFC0-C56B-425E-8DDF-681C20E77909Q57401150-3CBBAC12-7929-49F6-B641-1B29912B547BQ57401158-70844653-F3EF-4638-B9CC-0A2B209F00D1Q57401161-8CAADFE0-692B-45BA-975D-576992C7991BQ57401186-C6A4ACB0-7ADB-4D81-B480-B1FBA60477D0Q57401206-FCFF474A-2780-488E-878B-2F5B41F4CC12Q57401208-F05CB46F-48FB-4432-A965-393F29B156C9Q57401226-98B89580-1719-4B3A-826E-1FB8D1A3EF6EQ57431140-5D245FD4-7A54-47A4-9732-FCF9CB416E17Q58203262-53A033DA-17B7-48FE-99F8-52B794E9D02EQ86814360-777DC524-FD17-41D1-8E3E-B38619FF86C2
P50
description
hulumtues
@sq
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
José-Luis Vivancos
@ast
José-Luis Vivancos
@en
José-Luis Vivancos
@es
José-Luis Vivancos
@nl
José-Luis Vivancos
@sl
type
label
José-Luis Vivancos
@ast
José-Luis Vivancos
@en
José-Luis Vivancos
@es
José-Luis Vivancos
@nl
José-Luis Vivancos
@sl
prefLabel
José-Luis Vivancos
@ast
José-Luis Vivancos
@en
José-Luis Vivancos
@es
José-Luis Vivancos
@nl
José-Luis Vivancos
@sl
P106
P1153
7004059367
P21
P31
P496
0000-0002-8524-5466