Carlos António Delgado Sousa Brites
  Investigador  
   
  telefone: 234378101  
  extensão: 33106  
  e-mail: carlos.brites@ua.pt  
  departamento: Física  
  gabinete: Reasearcher Room (32.3.10.1) CICFANO  
   
  grupo: 1 - nanomateriais inorgânicos funcionais e híbridos orgânico-inorgânico
 
  linha: 1 - tecnologias da informação e comunicação
 
  url directo: http://www.ciceco.ua.pt/cdsbrites  
   
Perfil biográfico
Carlos Brites nasceu em Nazaré, Portugal, em Maio de 1981.
 
2017-present: Investigador no CICECO/ Departamento de Física, Universidade de Aveiro, Portugal

2013-2017: Aluno de Pós-Doutoramento  (CICECO/ Departamento de Física, Universidade de Aveiro, Portugal e ICMA/ Departamento de Física de la Matéria Condensada, Universidade de Saragoça, Espanha) . Bolseiro FCT (SFRH/BPD/89003/2012) “Molecular Luminescent Thermometers”

 2007-2012: Aluno de Doutoramento (CICECO/ Departamento de Física, Universidade de Aveiro, Portugal e ICMA/ Departamento de Física de la Matéria Condensada, Universidade de Saragoça, Espanha) “Self-Referencing Thermometry at the Nanoscale”

2004-2007: Mestrado em Optoelectrónica and  Lasers (Faculdade de Ciências, Universidade do Porto)
“Combinadores Ópticos Integrados para Interferometria Astronómica”
 
1999-2004: Licenciatura em Física e Química (Universidade de Aveiro, Portugal)
Interesses científicos

Materiais Luminescentes baseados em iões lanthanideos trivalentes

Materiais luminescentes como sondas nanométricas de temperatura

Thermometria por Luminescencia como nanoferramenta para a caractyerização de materiais

Lógica Molecular

Grupo de Investigação

Universidade de Aveiro

Photonic Hybrids and Nanomaterials Group

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(http://hybrids.web.ua.pt)

Coordenado por Luís Dias Carlos 

Principais colaboradores

Universidade de Aveiro

Luís D. Carlos

Rute André

Helena Oliveira

Universidade de Saragoça (Espanha)

Angel Millan
Rafael Piñol

Centro de Energia Atómica (Argentina)

Eduardo D. Martínez

Projetos em curso
  • FCT Ref. PTDC/FIS-OUT/31469/2017 (Team Member, 10%). Funding: 221,702.30 €. Period: July 2018 - June 2021.

  • FCT Ref. PTDC/BTM-MAT/31794/2017 (Team Member, 10%). Funding: 235,080.68 €. Period: August 2018 - August 2021.

  • FCT Ref. PTDC/CTM-NAN/4647/2014 (Team Member, 70%). Funding 183,945.00 €. Period: July 2016 - June 2019.
Publicações seleccionadas

Artigo em conferência

1            Ghasempour, A; Alexandre, D; Brites, CDS; Moreira, PJ; Reynaud, F; Marques, PVS; Leite, AMP; Garcia, PJV. 2008. "Rapid prototyping of integrated sol-gel devices for astronomical interferometry". Marseille, França. SPIE. DOI:10.1117/12.788845

Artigo em revista

2              Gonell, F; Botas, AMP; Brites, CDS; Amoros, P; Carlos, LD; Julián-López, B; Ferreira, RAS. 2019 “Aggregation-induced Heterogeneities in the Emission of Upconverting Nanoparticles at the Submicron Scale Unfolded by Hyperspectral Microscopy” Nanoscale Advances, DOI: 10.1039/c8na00412a

 

3              Brites, Carlos DS; Martinez, Eduardo D.; Urbano, Ricardo R; Rettori Carlos; Carlos, Luís D. 2019. "Self-calibrated double luminescent thermometers through upconverting nanoparticles". Frontiers in Organic Chemistry. DOI:10.3389/fchem.2019.00083

 

4              Martínez, ED; Brites, CDS; Carlos, LD; Urbano RR; Rettori, C. 2019. "Upconversion Nanocomposite Materials with Designed Thermal Response for Optoelectronic Devices". Frontiers in Chemistry. DOI:10.3389/fchem.2019.00083

 

5              Martínez, ED; Brites, CDS; Carlos, LD; García-Flores, AF, Urbano, RR; Rettori, C. 2019. "Electrochromic Switch Devices Mixing Small- and Large-Sized Upconverting Nanocrystals". Advanced Functional Materials. DOI:10.1002/adfm.201807758.

 

6              Brites, CDS; Balabhadra, S; Carlos, LD 2018. "Lanthanide-Based Thermometers: At the Cutting-Edge of Luminescence Thermometry". Advanced Optical Materials DOI:10.1002/adom.201801239

 

7              Balabhadra, S; Debasu, ML; Brites, CDS.; Ferreira, RAS; Carlos, LD. 2018. "Radiation-to-heat conversion efficiency in SrF2:Yb3+/Er3+ upconverting nanoparticles". Optical Materials 83: 1-6. DOI: 10.1016/j.optmat.2018.05.069.

 

8              Brites, CDS; Fiaczyk, K.; Ramalho, JFCB; Sójka, M.; Carlos, LD; Zych, E. 2018. "Widening the Temperature Range of Luminescent Thermometers through the Intra- and Interconfigurational Transitions of Pr3+". Advanced Optical Materials 6 (10): 1701318.DOI:10.1002/adom.201701318.

 

9              Savchuk, OA; Carvajal, JJ; Brites CDS; Carlos, LD; Aguilo, M; Diaz, F. 2018. "Upconversion thermometry: a new tool to measure the thermal resistance of nanoparticles". Nanoscale. DOI:1039/C7NR08758F

 

10          Ramalho, JFCB; António, LCF; Correia, SFH; Fu, LS; Pinho, AS; Brites, CDS; Carlos, LD; André, PS; Ferreira, RAS. 2018. "Luminescent QR codes for smart labelling and sensing". Optics and Laser Technology 101: 304-311. DOI: 10.1016/j.optlastec.2017.11.023

 

11          Balabhadra, S; Debasu, ML; Brites, CDS; Ferreira, RAS; Carlos, LD. 2017. "A cost-effective quantum yield measurement setup for upconverting nanoparticles". Journal of Luminescence 189: 64-70. DOI: 10.1016/j.jlumin.2017.03.054

 

12          Balabhadra, S; Debasu, ML; Brites, CDS; Ferreira, RAS; Carlos, LD. 2017. "Upconverting Nanoparticles Working As Primary Thermometers in Different Media". Journal of Physical Chemistry C 121 (25): 13962-13968. DOI:10.1021/acs.jpcc.7b04827

 

13          Brites, CDS; Fuertes, MC; Angelomé, PC; Martínez, ED; Lima, PP; Soler-Illia, GJAA; Carlos, LD. 2017. "Tethering Luminescent Thermometry and Plasmonics: Light Manipulation to Assess Real-Time Thermal Flow in Nanoarchitectures". Nano Letters 17 (8): 4746-4752. DOI:10.1021/acs.nanolett.7b01433

 

14          Li, L; Zhu, Y; Zhou, X; Brites, CDS; Ananias, D; Lin, Z; Paz, FA Filipe A; Rocha, J; Huang, W; Carlos, LD. 2016. "Visible-Light Excited Luminescent Thermometer Based on Single Lanthanide Organic Frameworks". Advanced Functional Materials 26 (47): 8677-8684. DOI: 10.1002/adfm.201603179

 

15          Debasu, ML; Brites, CDS; Balabhadra, S; Oliveira, H; Rocha, J; Carlos, LD. 2016. "Nanoplatforms for Plasmon-Induced Heating and Thermometry". ChemNanoMat 2 (6): 520-527. DOI:10.1002/cnma.201600061

 

16          Brites, CDS; Millán, A; Carlos, LD. 2016. "Termómetros moleculares". Revista Espanhola de Física 30 (3).

http://www.revistadefisica.es/index.php/ref/article/view/2199.

 

17          Brites, Carlos. 2016. "Implementing luminescence thermometry at 1.3 µm using (GdNd)2O3 nanoparticles". Journal of Luminescence 180: 25-30. DOI: 10.1016/j.jlumin.2016.07.034

 

18          Rocha, J; Brites, CDS; Carlos, LD. 2016. "Lanthanide Organic Framework Luminescent Thermometers". Chemistry - A European Journal 22 (42): 14782-14795. DOI:10.1002/chem.201600860

 

19          Botas, AMP; Brites, CDS; Wu, J; Kortshagen, U; Pereira, RN; Carlos, LD; Ferreira, RAS. 2016. "A New Generation of Primary Luminescent Thermometers Based on Silicon Nanoparticles and Operating in Different Media". Particle and Particle Systems Characterization 33 (10): 740-748. DOI: 10.1002/ppsc.201600198

 

20          Brites, CDS; Lima, PP; Carlos, LD. 2016. "Tuning the sensitivity of Ln3+-based luminescent molecular thermometers through ligand design". Journal of Luminescence 169: 497-502. DOI: 10.1016/j.jlumin.2015.01.025

 

21          Ximendes, EC; Santos, WQ; Rocha, U; Kagola, UK; Sanz-Rodríguez, F; Fernández, N; Gouveia-Neto, ADS; Bravo, D; Domingo, AM; del Rosal, B Brites, CDS; Carlos, LD; Jaque, D; Jacinto, C. "Unveiling in Vivo Subcutaneous Thermal Dynamics by Infrared Luminescent Nanothermometers". Nano Letters 16 (3): 1695-1703. DOI: 10.1021/acs.nanolett.5b04611

 

22          Ananias, D; Brites, CDS; Carlos, LD; Rocha, J. 2016. "Cryogenic Nanothermometer Based on the MIL-103(Tb,Eu) Metal-Organic Framework". European Journal of Inorganic Chemistry. DOI: 10.1002/ejic.201501195

 

23          Rodrigues, M; Piñol, R; Antorrena, G; Brites, CDS; Silva, NJO; Murillo, JL; Cases, R;.Díez, I; Palacio, F; Torras, N; Plaza, JA, PérezGarcía, L; Carlos, LD; Millán, A. 2015. "Implementing Thermometry on Silicon Surfaces Functionalized by Lanthanide-Doped Self-Assembled Polymer Monolayers". DOI: 10.1002/adfm.201503889

 

24          Wang, Z; Ananias, D; Carné-Sánchez, A; Brites, CDS; Imaz, I; Maspoch, D; Rocha, J; Carlos, LD. 2015. "Lanthanide-Organic Framework Nanothermometers Prepared by Spray-Drying". Adv. Funct. Mater.: DOI: 10.1002/adfm.201500518

 

25          Piñol, R; Brites, CDS; Bustamante, R; Martínez, A; Silva, NJO; Murillo, JL; Cases, R; Carrey, J; Estepa, C; Sosa, C; Palacio, F; Carlos, LD; Millán, A. 2015. "Joining Time-Resolved Thermometry and Magnetic-Induced Heating in a Single Nanoparticle Unveils Intriguing Thermal Properties". ACS Nano 9 (3): 3134-3142. DOI: 10.1021/acsnano.5b00059

 

26          Balabhadra, S; Debasu, ML; Brites, CDS; Nunes, LAO; Malta, OL; Rocha, J; Bettinelli, M; Carlos, LD. 2015. "Boosting the sensitivity of Nd3+-based luminescent nanothermometers". Nanoscale 7 (41): 17261-17267. DOI: 10.1039/c5nr05631d

 

27          Ren, M; Brites, CDS; Bao, SS; Ferreira, RAS; Zheng, LM; Carlos, LD. 2015. "A cryogenic luminescent ratiometric thermometer based on a lanthanide phosphonate dimer". Journal of Materials Chemistry C 3 (33): 8480-8484. DOI: 10.1039/c5tc01468a

 

28          Lima, PP; Paz, FAA; Brites, CDS; Quirino, WG; Legnani, C; Silva, MCE; Ferreira, RAS; Junior, SA; Malta, OL; Cremona, M; Carlos, LD. 2014. "White OLED based on a temperature sensitive Eu3+/Tb3+ b-diketonate complex". Organic Electronics 15 (3): 798-808. DOI: 10.1016/j.orgel.2014.01.009

 

29          Brites, CDS; Lima, PP; Silva, NJO; Millán, A; Amaral, VS; Palacio, F; Carlos, L.D. 2013. "Ratiometric highly sensitive luminescent nanothermometers working in the room temperature range. Applications to heat propagation in nanofluids". Nanoscale 5 (16): 7572-7580.DOI: 10.1039/c3nr02335d

 

30          Cadiau, A; Brites, CDS; Costa, PMFJ; Ferreira, RAS; Rocha, J; Carlos, LD. 2013. "Ratiometric nanothermometer based on an emissive Ln3+-organic framework". ACS Nano 7 (8): 7213-7218. DOI: 10.1021/nn402608w

 

31          Ferreira, RAS; Brites, CDS; Vicente, CMS; Lima, PP; Bastos, ARN; Marques, PG; Hiltunen, M; Carlos, LD; André, PS. 2013. "Photonic-on-a-chip: A thermal actuated Mach-Zehnder interferometer and a molecular thermometer based on a single di-ureasil organic-inorganic hybrid". Laser and Photonics Reviews 7 (6): 1027-1035.DOI:10.1002/lpor.201300080

 

32          Brites, CDS; Lima, PP; Silva, NJO; Millán, A; Amaral, VS; Palacio, F; Carlos, LD. 2013. "Organic–Inorganic Eu3+/Tb3+ co-doped hybrid films for temperature mapping in integrated circuits". Frontiers in Chemistry 1. DOI:10.3389/fchem.2013.00009

 

33          Brites, CDS; Lima, PP; Silva, NJO; Millán, A; Amaral, VS; Palacio, F; Carlos, LD. 2013. "Thermometry at the nanoscale using lanthanide-containing organic-inorganic hybrid materials". Journal of Luminescence 133: 230-232. DOI: 10.1016/j.jlumin.2011.12.050

 

34          Brites, CDS; Freitas, VT; Ferreira, RAS; Millán, A; Palacio, F; Carlos, LD. 2012. "Metal-free highly luminescent silica nanoparticles". Langmuir 28 (21): 8190-8196.DOI: 10.1021/la300288j

 

35          Brites, CDS; Lima, PP; Silva, NJO; Millán, A; Amaral, VS; Palacio, F; Carlos, LD. 2012. "Thermometry at the nanoscale". Nanoscale 4 (16): 4799-4829. DOI: 10.1039/c2nr30663~

 

36          Brites, CDS; Lima, PP; Silva, NJO; Millán, A; Amaral, VS; Palacio, F; Carlos, LD. 2011. "Lanthanide-based luminescent molecular thermometers". New Journal of Chemistry 35 (6): 1177-1183. DOI:10.1039/c0nj01010c

 

37          Brites, CDS; Lima, PP; Silva, NJO; Millán, A; Amaral, VS; Palacio, F; Carlos, LD. 2010. "A luminescent molecular thermometer for long-term absolute temperature measurements at the nanoscale". Advanced Materials 22 (40): 4499-4504. DOI:10.1002/adma.201001780

 

38          Nobre, SS; Brites, CDS; Ferreira, RAS; de Zea Bermudez, V; Carcel, C; Moreau, JJE; Rocha, J; Wong Chi Man, M; Carlos, LD. 2008. "Photoluminescence of Eu(III)-doped lamellar bridged silsesquioxanes self-templated through a hydrogen bonding array". Journal of Materials Chemistry 18 (35): 4172-4182. DOI: 10.1039/b807262k

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