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   1- A. Yaskov, V.A. Moshnikov, S.M. López Silva. Acerca de la difusión de In en PbSnTe. Revista Cubana de Física 6, 29-36, 1986. ISSN: 0253-9268.

   2- O. Vigil, S. Lopez, E. Morris, F. Leccabue, Antireflection coatings for ZnIn₂S₄ single crystals, Journal of Applied Physics 62 (2), 653-6, 1987. doi: 10.1063/1.339764. ISSN: 0021-8979. 

JCR IF: 1.726; Applied Physics: Q2 (9/35).

Citas: 2-Google Scholar.
This work has been cited by (2): Sastre Hernández, Tesis IPN, 2011. Bucher, Photovoltaic Properties of Solid State Junctions of Layered Semiconductors 1992.

   3- O. Vigil, S. Lopez, E. Morris, O. Calzadilla, F. Leccabue. Schottky diodes on ZnIn₂S₄ single crystals. Solar Energy Materials 16 (4), 315-8, 1987. doi: 10.1016/0165-1633(87)90080-3. ISSN: 0165-1633. 

JCR IF: 0.761; Materials Science: Q2 (12/39).

Citas: 5-Web of Science, 4-Scopus, 6-Google Scholar, 6-Research Gate.

This work has been cited by (6): Genevée et al, J Renewable and Sustainable Energy 2015;7:013116. Wei et al, Chinese J Inorganic Chemistry 2010;26(2):269-73. Ibrahim & Ashour, J Materials Science: Materials in Electronics 2006;17(10):835-9. Arama et al, Proc IEEE CAS 2002;2:407-10. Darwish et al, Thin Solid Films 1995;259(2):248-52. Bucher, Photovoltaic Properties of Solid State Junctions of Layered Semiconductors 1992.

   4- J.E. Picans Susacasa, S.M. López Silva, E.M. Otazo Sánchez, G. Hernández Solana, L. Rivera Naranjo, G. Santana Rodríguez, J.E. Fuentes Betancourt, E. Vigil Santos, A. Lugrís García. Microfotómetro para la determinación de hemoglobina en sangre. Revista Cubana de Física 11, 143-52, 1991. ISSN: 0253-9268.

   5- O. Calzadilla, O. de Melo, J. Fuentes, S. López, R. Zabala, F. Leccabue, B.E. Watts, P. Franzosi. Growth, morphological and structural characterization of Pb_1-xSn_xTe single crystals, Journal of Crystal Growth 110 (4), 968-72, 1991. doi: 10.1016/0022-0248(91)90659-S. ISSN: 0022-0248. 

 JCR IF: 1.551; Crystallography: Q1 (4/17).

   6- S.M. López Silva, M.L. Dotor and J.P. Silveira. Near-infrared transmittance pulse oximetry with laser diodes. Journal of Biomedical Optics 8 (3), 525-33, 2003. doi: 10.1117/1.1578495. ISSN: 1083-3668.

JCR IF: 3.541; Biochemical Research Methods: Q1 (11/50); Optics: Q1 (3/53); Radiology: Q1 (8/83).
SJR: 1.485; Atomic and Molecular Physics, and Optics: Q1; Biomaterials: Q1; Biomedical Engineering: Q1; Electronic, Optical and Magnetic Materials: Q1.

Citas: 16+7?-Web of Science, 25+?-Scopus, 136-Google Scholar.

This work has been cited in patents and patent applications (88): US10758166, US10743803, US10709366, US10702195, US10702194, US10624564, US10624563, US10617338, US10610138, US10588554, US10588553, US10582886, US10092193, US9037204, US8965473, US8914088, US8855735, US8798702, US8788001, US8600469, US8577436, US8577434, US8528185, US8515511, US8509869, US8494604, US8437826, US8433382, US8401608, US8396527, US8391943, US8386002, US8386000, US8376955, US8366613, US8352009, US8352004, US8346328, US8315685, US8311602, US8280469, US8265724, US8260391, US8219170, US8195264, US8190225, US8190224, US8175671, US8175667, US8145288, US8073518, US8060171, US7904130, US7899510, US7894869, US7881762, US7869850, US7869849, US7796403, US7747301, US7738937, US7729736, US7693559, US7684843, US7684842, US7676253, US7657296, US7657295, US7657294, US7650177, US7647084, US7590439, US7574245, US7574244, US7555327, US7522948, US7499740, US7486979, US7483731, US7477924, US20200129097, US2010152591, US2010152559, US2007093702, US2006253007, US2006224053, WO2007051066, WO2007035934.

This work has been cited by (30): Miron-Alexe 2021. Lauterbach et al, Research Quarterly for Exercise and Spots 2020.  Cao et al, Applied Sciences 2017;7:1262. Feng et al, Biomed Optics Express 2017;8(8):3516-25. Meglan et al, Proc ICMRE 2017:1-5. Yamakoshi et al, J Biomed Opt 2017;22(6):67001. Fang & Tai, J Med Eng Technol 2016;40(6):315-24. Budidha, Doctoral Thesis City Univ London 2016. Gama, Doctoral Thesis City Univ London 2015. He et al, Anal Methods 2015;7:5565-73. Yamakoshi et al, PLoS One 2015;10(12):e0143506. Li et al, Anal Methods 2014;6:1082-9. Myllylä et al, Measurement 2014;58:387-93. Strojnik & Paez, J Biomed Opt 2013;18(10):108001. Wei et al, IEEE Photonics J, 2013;5(5):1501607. López-Silva et al, J Med Biol Eng 2012;32(3):181-8. Wei et al, ACP Conference 2012. Vazquez-Jaccaud et al, Ann Biomed Eng 2011;39(7):1994-2009. Vazquez-Jaccaud et al, Proc SPIE 2011;8011:801196. Ahmed et al, Pediatrics 2010;125(1):e115-21. López Silva et al, Proc IEEE I2MTC 2010:1039-43. López et al, Opt Pura Apl 2009;42(4):257-67. López et al, Opt Pura Apl 2009;42(1):23-32. Vazquez-Jaccaud et al, Proc SPIE 2009;7453:74530V. Warsinke, Anal Bioanal Chem 2009;393(5):1393-405. Hollmann & DiMarzio, Adv Exp Med Biol 2008;614:209-15. López-Silva et al, Physiol Meas 2006;27(10):1033-45. Von Lode, Clin Biochem 2005;38(7):591-606. López et al, Opt Pura Apl 2005;38(1):31-9. López-Silva et al, Proc IEEE IMTC 2004;1:718-22.

   7- S.M. López Silva, J.P. Silveira, L. Herrera, M.L. Dotor, R. Giannetti. Utilidad de la fotopletismografía por transmisión con diodos láser infrarrojos en el estudio de la perfusión visceral: estudio preliminar. Óptica Pura y Aplicada 38 (1), 22-9, 2005. ISSN: 0030-3917. 

 Citas: 3-Google Scholar.

This work has been cited by:

Bernal Jiménez A, Tesis Maestro en Ciencias en Computación, CINVESTAV IPN, 2010.
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   8- S.M. López Silva, R. Giannetti, M.L. Dotor, D. Golmayo, P. Martín, F.Miguel-Tobal, A. Bilbao, J.P. Silveira. Fotopletismografía por transmisión con múltiples diodos láser en el infrarrojo cercano durante el ejercicio físico. Óptica Pura y Aplicada 38 (1), 31-9, 2005. ISSN: 0030-3917. 

 Citas: 1-Google Scholar.

This work has been cited by: González-Barajas et al, Tecno Lógicas 2016;19(37):29-43.

   9- S.M. López-Silva, J.P. Silveira, M.L. Dotor, R. Giannetti, D. Golmayo, and L. Herrera. Transmittance photoplethysmography with near-infrared laser diodes in intraperitoneal organs. Physiological Measurement 27 (10), 1033-44, 2006. doi: 10.1088/0967-3334/27/10/009. ISSN: 0967-3334. 

JCR IF: 1.438; Biomedical Engineering: Q3 (23/42); Biophysics: Q4 (50/66); Physiology: Q3 (55/76).
SJR: 0.822; Biophysics: Q2; Physiology: Q2; Physiology (medical): Q2.

Citas: 2+?-Web of Science, 2+?-Scopus, 5-Google Scholar.

This work has been cited by (5): Chakraborty et al, IEEE i-PACT 2019. Gama, Doctoral Thesis City Univ London 2015. López et al, Opt Pura Apl 2009;42(1):23-32. López et al, Opt Pura Apl 2009;42(4):257-267.

   10- P. Martín-Escudero, F. Miguel-Tobal, A. Bilbao Monasterio, M. Galindo Canales, J.P. Silveira Martín, M.L. Dotor Castilla, D. Golmayo Fernández, R. Giannetti, S. López-Silva. Aportaciones fisiológicas de la medida continua de la saturación de oxígeno en atletas de ambos sexos que realizan pruebas de esfuerzo máximas. Selección 15, 132-43, 2006. ISSN: 0214-8927. 

 Citas: 1?-Scopus, 1-Google Scholar.

   11- M. Cordo, J.R. Sendra, A. Viera, A. Santana, S.M. López Silva. Diferenciación de piel sana y lesiones cutáneas pigmentadas mediante espectroscopía de reflectancia óptica difusa. Óptica Pura y Aplicada 39 (4), 341-54, 2006. ISSN: 0030-3917.  

Citas: 8-Google Scholar.

This work has been cited by:  
Álvarez et al, Análisis espectral de las lesiones melanocíticas adquiridas, Rev Asoc Colomb Dermatol 2017;25(3):194-203.
Morales López OM, Sistema de medición de reflectancia difusa resuelta espacialmente para la caracterización de tejidos, Tesis de Maestría, IPN, 2017.
Arroyo-Camarena et al, Oncol Ther 2016;4(2):315-31. 
Álvarez Fuguett I, Firma espectral de las lesiones melanocíticas adquiridas, Tesis de Grado, Universidad de Carabobo, 2015.
Vivas et al, Informe Médico 2015;17(2):49-54.
Ugarte et al, Rev Sci Instrum 2014;85:105108.
Orozco Guillén EE, Estudio de lesiones en piel mediante espectroscopía de reflexión difusa, Tesis Doctoral, INAOE, 2009. 

   12- S.M. López Silva, M.L. Dotor, J.P. Silveira, R. Giannetti, L. Herrera. Fotopletismografía por reflexión con LEDs infrarrojos para evaluar órganos y tejidos intra-abdominales: estudio inicial en cerdos. Óptica Pura y Aplicada 42 (1), 23-32, 2009. ISSN: 0030-3917.

SJR: 0.148; Atomic and Molecular Physics, and Optics: Q4; Engineering (miscellaneous): Q3; Mechanical Engineering: Q3.

Citas: 1-Scopus, 3-Google Scholar.
This work has been cited by: 
Arriaga Gómez MF, Morales Blasco FJ, de Santos Sierra D, Bailador del Pozo G, Sánchez Ávila C. Detección de tasa cardiaca en vídeo para un sistema biométrico de reconocimiento facial. Libro de Actas CASEIB 2015:96-99.
Avila-Moreno M, Valencia-Hernández JO, Morales-Hernández LA. Influence of design to implement a thermographic device for preventing diabetic foot ulceration. Conf Proc Design Management Academy 2017;1:73-89.

   13- S.M. López Silva, M.L. Dotor, J.P. Silveira, R. Giannetti, L. Herrera. Fotopletismografía laparoscópica: nueva técnica mínimamente invasiva y estudios experimentales iniciales. Óptica Pura y Aplicada 42 (4), 257-67, 2009. ISSN: 0030-3917. 

SJR: 0.148; Atomic and Molecular Physics, and Optics: Q4; Engineering (miscellaneous): Q3; Mechanical Engineering: Q3.

Citas: 1-Scopus, 1-Google Scholar.

   14- S.M. López Silva, M.L. Dotor, R. Giannetti. On laparoscopic photoplethysmography and pulse oximetry. Journal of Clinical Monitoring and Computing 24 (3), 219-20, 2010. doi: 10.1007/s10877-010-9239-z. ISSN: 1387-1307, 1573-2614. 

SJR: 0.372; Anesthesiology and Pain Medicine: Q2; Critical Care and Intensive Care Medicine: Q2; Health Informatics: Q3.

Citas: 1+?-Web of Science, 1+?-Scopus, 3-Google Scholar.

This work has been cited by: Lin & Lin, Proc IEEE EMBC 2017. Rustand, Master Thesis NTNU 2012.

   15- B. Clavo, N. Santana-Rodríguez, S.M. López-Silva, E. Domínguez, M. Mori, D. Gutiérrez, M.A. Hernández, F. Robaina. Persistent PORT-A-CATH®-related fistula and fibrosis in a breast cancer patient successfully treated with local ozone application. Journal of Pain and Symptom Management 43 (2), e3-e6, 2012. doi: 10.1016/j.jpainsymman.2011.09.002. ISSN: 0885-3924.

SJR: 1.509; Anesthesiology and Pain Medicine: Q1; Neurology (clinical): Q1; Nursing (miscellaneous): Q1.

Citas: 4+?-Web of Science, 5+?-Scopus, 19-Google Scholar.

   16- S.M. López-Silva, R. Giannetti, M.L. Dotor, J.P. Silveira, D. Golmayo, F. Miguel-Tobal, A. Bilbao, M. Galindo, P. Martín-Escudero. Heuristic algorithm for photoplethysmography heart rate tracking during athletes maximal exercise test. Journal of Medical and Biological Engineering 32 (3), 181-8, 2012. doi: 10.5405/jmbe.898. ISSN: 1609-0985. 

SJR: 0.401; Biomedical Engineering: Q3; Medicine (miscellaneous): Q2.

 Citas: 20+?-Web of Science, 19+?-Scopus, 62-Google Scholar.

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This work has been cited in patents and patent applications (4): US9867575B2, US9848823B2, AU2015215845B2, AU2015101130B2. 

Última actualización / Last update: 16/02/2021 + 16/07/2024