DEVELOPMENT OF PAPER-BASED, LASER INDUCED GRAPHENE NONENZYMATIC BIOSENSOR FOR GLUCOSE DETECTION
| Autor(a) principal: | |
|---|---|
| Data de Publicação: | 2024 |
| Tipo de documento: | Dissertação |
| Idioma: | eng |
| Título da fonte: | Repositórios Científicos de Acesso Aberto de Portugal (RCAAP) |
| Texto Completo: | http://hdl.handle.net/10362/183054 |
Resumo: | Diabetes mellitus is a persistent metabolic condition that endures throughout an indi- vidual's life. Glucose and insulin play a crucial role in the management and regulation of this illness. Frequently, a variety of laboratory tests are utilized for diagnosing and managing dia- betes. One of the key diagnostic criteria is the measurement of blood glucose concentration. New studies aim for a non-evasive testing of glucose concentration in other body fluids, spe- cifically sweat. This thesis addresses the issue of expensive glucose sensors by developing a sensor employing nickel nanoparticles (NiNPs), a more affordable transition metal, and inves- tigating a substitute for silver (the metal mainly used in biomedical applications), along with Laser-Induced Graphene (LIG), a fast and straightforward method for generating graphene, on paper substrates. To begin with, the LIG technique provides a quick and easy way to create highly conductive graphitized material, which is valuable for sensing applications, without re- quiring costly or complicated fabrication methods. Furthermore, it enables the creation of LIG on paper, which is a more eco-friendly, adaptable, cost-effective, and readily available option compared to other frequently utilized materials. A low-cost nickel precursor was chosen for creating NiNPs using a laser, which showed great catalytic activity for glucose oxidation in non- enzymatic detection. Consequently, NiNPs and LIG composites were fabricated together in a single step, enabling the mass production of sensors. The LIG electrode that had obtained the best results had a sheet resistance value of only 18.24 Ohm/sq. The sensor exhibited strong electrochemical performance during cyclic voltammetry assessment. The biosensor showed the ability to detect glucose, but did not reach the required analytical levels within sweat range (20 μM to 1.79 mM), more tests need to be carried out to achieve more favorable results and to find a way to achieve greater deposition of NiNPs on the electrode that will be in contact with glucose. |
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DEVELOPMENT OF PAPER-BASED, LASER INDUCED GRAPHENE NONENZYMATIC BIOSENSOR FOR GLUCOSE DETECTIONGlucosepaper biosensorlaser-induced graphenenickel nanoparticlesnon-enzymaticflexible electronicsDomínio/Área Científica::Engenharia e Tecnologia::Engenharia dos MateriaisDiabetes mellitus is a persistent metabolic condition that endures throughout an indi- vidual's life. Glucose and insulin play a crucial role in the management and regulation of this illness. Frequently, a variety of laboratory tests are utilized for diagnosing and managing dia- betes. One of the key diagnostic criteria is the measurement of blood glucose concentration. New studies aim for a non-evasive testing of glucose concentration in other body fluids, spe- cifically sweat. This thesis addresses the issue of expensive glucose sensors by developing a sensor employing nickel nanoparticles (NiNPs), a more affordable transition metal, and inves- tigating a substitute for silver (the metal mainly used in biomedical applications), along with Laser-Induced Graphene (LIG), a fast and straightforward method for generating graphene, on paper substrates. To begin with, the LIG technique provides a quick and easy way to create highly conductive graphitized material, which is valuable for sensing applications, without re- quiring costly or complicated fabrication methods. Furthermore, it enables the creation of LIG on paper, which is a more eco-friendly, adaptable, cost-effective, and readily available option compared to other frequently utilized materials. A low-cost nickel precursor was chosen for creating NiNPs using a laser, which showed great catalytic activity for glucose oxidation in non- enzymatic detection. Consequently, NiNPs and LIG composites were fabricated together in a single step, enabling the mass production of sensors. The LIG electrode that had obtained the best results had a sheet resistance value of only 18.24 Ohm/sq. The sensor exhibited strong electrochemical performance during cyclic voltammetry assessment. The biosensor showed the ability to detect glucose, but did not reach the required analytical levels within sweat range (20 μM to 1.79 mM), more tests need to be carried out to achieve more favorable results and to find a way to achieve greater deposition of NiNPs on the electrode that will be in contact with glucose.A diabetes mellitus é uma doença metabólica persistente que se mantém ao longo da vida de um indivíduo. A glucose e a insulina desempenham um papel crucial na gestão e re- gulação desta doença. Frequentemente, é utilizada uma variedade de testes laboratoriais para diagnosticar e gerir a diabetes. Um dos principais critérios de diagnóstico é a medição da con- centração de glucose no sangue. Novos estudos visam um teste não invasivo da concentração de glucose noutros fluidos corporais, especificamente no suor. Esta tese centra-se na resolu- ção do problema dos sensores de glucose dispendiosos através da criação de um sensor utili- zando nanopartículas de níquel (NiNPs) e grafeno induzido por laser (LIG) num substrato de papel. Para começar, a técnica LIG proporciona uma forma rápida e fácil de criar material gra- fitizado altamente condutor, que é valioso para aplicações de deteção, sem exigir métodos de fabrico dispendiosos ou complicados. Além disso, permite a criação de LIG em papel, que é uma opção mais ecológica, adaptável, económica e facilmente disponível, em comparação com outros materiais frequentemente utilizados. Foi escolhido um precursor de níquel de baixo custo para a criação de NiNPs utilizando um laser, que mostrou uma grande atividade catalítica para a oxidação da glucose em deteção não enzimática. Consequentemente, as NiNPs e os compósitos de LIG foram fabricados em conjunto numa única etapa, permitindo a produção em massa de sensores. O elétrodo LIG que obteve os melhores resultados tinha um valor de resistência de folha de apenas 18,24 Ohm/sq. O sensor apresentou um forte desempenho ele- troquímico durante a avaliação por voltimetria cíclica. O biossensor mostrou a capacidade de detetar a glucose, mas não atingiu os níveis analíticos necessários dentro da gama de suor (20 μM a 1,79 mM), sendo necessário desenvolver mais ensaios para alcançar resultados mais fa- voráveis e encontrar uma maneira de conseguir uma maior deposição de NiNPs no eletrodo que estará em contato com a glucose.Carlos, EmanuelPinheiro, TomásRUNNunes, Vitor Manuel Vieira2025-05-15T08:10:09Z2024-112024-11-01T00:00:00Zinfo:eu-repo/semantics/publishedVersioninfo:eu-repo/semantics/masterThesisapplication/pdfhttp://hdl.handle.net/10362/183054enginfo:eu-repo/semantics/openAccessreponame:Repositórios Científicos de Acesso Aberto de Portugal (RCAAP)instname:FCCN, serviços digitais da FCT – Fundação para a Ciência e a Tecnologiainstacron:RCAAP2025-05-19T01:40:42Zoai:run.unl.pt:10362/183054Portal AgregadorONGhttps://www.rcaap.pt/oai/openaireinfo@rcaap.ptopendoar:https://opendoar.ac.uk/repository/71602025-05-29T07:35:15.905029Repositórios Científicos de Acesso Aberto de Portugal (RCAAP) - FCCN, serviços digitais da FCT – Fundação para a Ciência e a Tecnologiafalse |
| dc.title.none.fl_str_mv |
DEVELOPMENT OF PAPER-BASED, LASER INDUCED GRAPHENE NONENZYMATIC BIOSENSOR FOR GLUCOSE DETECTION |
| title |
DEVELOPMENT OF PAPER-BASED, LASER INDUCED GRAPHENE NONENZYMATIC BIOSENSOR FOR GLUCOSE DETECTION |
| spellingShingle |
DEVELOPMENT OF PAPER-BASED, LASER INDUCED GRAPHENE NONENZYMATIC BIOSENSOR FOR GLUCOSE DETECTION Nunes, Vitor Manuel Vieira Glucose paper biosensor laser-induced graphene nickel nanoparticles non-enzymatic flexible electronics Domínio/Área Científica::Engenharia e Tecnologia::Engenharia dos Materiais |
| title_short |
DEVELOPMENT OF PAPER-BASED, LASER INDUCED GRAPHENE NONENZYMATIC BIOSENSOR FOR GLUCOSE DETECTION |
| title_full |
DEVELOPMENT OF PAPER-BASED, LASER INDUCED GRAPHENE NONENZYMATIC BIOSENSOR FOR GLUCOSE DETECTION |
| title_fullStr |
DEVELOPMENT OF PAPER-BASED, LASER INDUCED GRAPHENE NONENZYMATIC BIOSENSOR FOR GLUCOSE DETECTION |
| title_full_unstemmed |
DEVELOPMENT OF PAPER-BASED, LASER INDUCED GRAPHENE NONENZYMATIC BIOSENSOR FOR GLUCOSE DETECTION |
| title_sort |
DEVELOPMENT OF PAPER-BASED, LASER INDUCED GRAPHENE NONENZYMATIC BIOSENSOR FOR GLUCOSE DETECTION |
| author |
Nunes, Vitor Manuel Vieira |
| author_facet |
Nunes, Vitor Manuel Vieira |
| author_role |
author |
| dc.contributor.none.fl_str_mv |
Carlos, Emanuel Pinheiro, Tomás RUN |
| dc.contributor.author.fl_str_mv |
Nunes, Vitor Manuel Vieira |
| dc.subject.por.fl_str_mv |
Glucose paper biosensor laser-induced graphene nickel nanoparticles non-enzymatic flexible electronics Domínio/Área Científica::Engenharia e Tecnologia::Engenharia dos Materiais |
| topic |
Glucose paper biosensor laser-induced graphene nickel nanoparticles non-enzymatic flexible electronics Domínio/Área Científica::Engenharia e Tecnologia::Engenharia dos Materiais |
| description |
Diabetes mellitus is a persistent metabolic condition that endures throughout an indi- vidual's life. Glucose and insulin play a crucial role in the management and regulation of this illness. Frequently, a variety of laboratory tests are utilized for diagnosing and managing dia- betes. One of the key diagnostic criteria is the measurement of blood glucose concentration. New studies aim for a non-evasive testing of glucose concentration in other body fluids, spe- cifically sweat. This thesis addresses the issue of expensive glucose sensors by developing a sensor employing nickel nanoparticles (NiNPs), a more affordable transition metal, and inves- tigating a substitute for silver (the metal mainly used in biomedical applications), along with Laser-Induced Graphene (LIG), a fast and straightforward method for generating graphene, on paper substrates. To begin with, the LIG technique provides a quick and easy way to create highly conductive graphitized material, which is valuable for sensing applications, without re- quiring costly or complicated fabrication methods. Furthermore, it enables the creation of LIG on paper, which is a more eco-friendly, adaptable, cost-effective, and readily available option compared to other frequently utilized materials. A low-cost nickel precursor was chosen for creating NiNPs using a laser, which showed great catalytic activity for glucose oxidation in non- enzymatic detection. Consequently, NiNPs and LIG composites were fabricated together in a single step, enabling the mass production of sensors. The LIG electrode that had obtained the best results had a sheet resistance value of only 18.24 Ohm/sq. The sensor exhibited strong electrochemical performance during cyclic voltammetry assessment. The biosensor showed the ability to detect glucose, but did not reach the required analytical levels within sweat range (20 μM to 1.79 mM), more tests need to be carried out to achieve more favorable results and to find a way to achieve greater deposition of NiNPs on the electrode that will be in contact with glucose. |
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2024 |
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2024-11 2024-11-01T00:00:00Z 2025-05-15T08:10:09Z |
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info:eu-repo/semantics/publishedVersion |
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