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Juan Diego Zapata Caro

CV Lattes


Instituto Presbiteriano Mackenzie. Universidade Presbiteriana Mackenzie (UPM). Centro de Pesquisas Avançadas em Grafeno, Nanomateriais e Nanotecnologia (MackGrafe)  (Institutional affiliation for the last research proposal)
Birthplace: Colômbia

master's at fisica from Universidad de Antioquia (2011). Has experience in Electric Engineering, focusing on Telecommunication Systems (Source: Lattes Curriculum)

Scholarships in Brazil
FAPESP support in numbers*
*Updated June 22, 2019
Total / Available in English
1 / 1Completed scholarships in Brazil
Most frequent collaborators in research granted by FAPESP
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Use this Research Supported by FAPESP (BV/FAPESP) channel only to send messages referring to FAPESP-funded scientific projects.


 

 

 

 

Keywords used by the researcher
Scientific publications resulting from Research Grants and Scholarships under the grantee's responsibility (3)

(References retrieved automatically from Web of Science and SciELO through information on FAPESP grants and their corresponding numbers as mentioned in the publications by the authors)

Publications3
Citations14
Cit./Article4.7
Data from Web of Science

STEINBERG, DAVID; DIEGO ZAPATA, JUAN; THOROH DE SOUZA, EUNEZIO A.; SAITO, LUCIA A. M.. Mechanically Exfoliated Graphite Onto D-Shaped Optical Fiber for Femtosecond Mode-Locked Erbium-Doped Fiber Laser. Journal of Lightwave Technology, v. 36, n. 10, p. 1868-1874, . Web of Science Citations: 3. (15/11779-4, 12/50259-8, 16/25836-2)

STEINBERG, DAVID; GEROSA, RODRIGO M.; PELLICER, FERNANDA N.; ZAPATA, JUAN D.; DOMINGUES, SERGIO H.; THOROH DE SOUZA, EUNEZIO A.; SAITO, LUCIA A. M.. Graphene oxide and reduced graphene oxide as saturable absorbers onto D-shaped fibers for sub 200-fs EDFL mode-locking. OPTICAL MATERIALS EXPRESS, v. 8, n. 1, p. 144-156, . Web of Science Citations: 10. (15/11779-4, 12/50259-8, 16/25836-2)

GEROSA, RODRIGO M.; STEINBERG, DAVID; NAGAOKA, DANILO A.; ZAPATA, JUAN D.; DOMINGUES, SERGIO H.; THOROH DE SOUZA, EUNEZIO A.; SAITO, LUCIA A. M.. Liquid phase exfoliated black phosphorus and reduced graphene oxide polymer-based saturable absorbers fabrication using the droplet method for mode-locking applications. OPTICS AND LASER TECHNOLOGY, v. 106, p. 107-112, . Web of Science Citations: 1. (15/11779-4, 12/50259-8, 16/25836-2)

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