Our Chromatography Research

chromatography11,23,74,75,38,39,65,66,68–71

REFERENCES

(11)      Jerez-Rozo, J. I.; Primera-Pedrozo, O. M.; Barreto-Caban, M. A.; Hernández-Rivera, S. P. Enhanced Raman Scattering of 2,4,6-TNT Using Metallic Colloids. Sensors (Peterborough, NH) 20088 (6), 974–982.

(23)      Peña-Quevedo, A. J.; Mina-Calmide, N.; Rodríguez, N.; Nieves, D.; Cody, R. B.; Hernández-Rivera, S. P. Synthesis, Characterization and Differentiation of High Energy Amine Peroxides by MS and Vibrational Microscopy. Sensors, Command. Control. Commun. Intell. Technol. Homel. Secur. Homel. Def. V 20066201, 62012E. https://doi.org/10.1117/12.666202.

(38)      Espinosa-Fuentes, E. A.; Pacheco-Londoño, L. C.; Barreto-Cabán, M. A.; Hernández-Rivera, S. P. Novel Uncatalyzed Synthesis and Characterization of Diacetone Diperoxide. Propellants, Explos. Pyrotech. 201237 (4), 413–421. https://doi.org/10.1002/prep.201000130.

(39)      Espinosa-Fuentes, E. A.; Peña-Quevedo, A. J.; Pacheco-Londoño, L. C.; Infante-Castillo, R.; Hernández-Rivera, S. P. A Review of Peroxide Based Homemade Explosives: Characterization and Detection. Explos. Mater. Classif. Compos. Prop. 2011, No. December, 259–282.

(65)      Báez, B.; Florián, V.; Hernández-Rivera, S. P.; Cabanzo, A.; Correa, S.; Irrazabal, M.; Briano, J. G.; Castro, M. E. Detection of Chemical Signatures from TNT Buried in Sand at Various Ambient Conditions: Phase II. Detect. Remediat. Technol. Mines Minelike Targets XI 20066217, 62171M. https://doi.org/10.1117/12.666012.

(66)      Irrazábal, M.; Florián, V.; Castro, M.; Hernández-Rivera, S. P.; Briano, J. G. Effect of Environmental Parameters on the Chemical Signature of TNT in Soil. Detect. Remediat. Technol. Mines Minelike Targets XII 20076553, 65531N. https://doi.org/10.1117/12.719840.

(68)      Baez, B.; Correa, S. N.; Hernández-Rivera, S. P. Transport of Explosives II: Use of Headspace-SPME/GC μ-ECD and TEEM GC/MS for Detection of TNT Vapors from Sand Buried Samples. Detect. Remediat. Technol. Mines Minelike Targets X 20055794, 1263. https://doi.org/10.1117/12.602446.

(69)      Baez, B.; Correa, S. N.; Hernández-Rivera, S. P.; de Jesus, M.; Castro, M. E.; Mina, N.; Briano, J. G. Transport of Explosives I: TNT in Soil and Its Equilibrium Vapor. Detect. Remediat. Technol. Mines Minelike Targets IX 20045415, 1389. https://doi.org/10.1117/12.542905.

(70)      Correa, S. N.; Baez, B.; de Jesus Echevarria, M.; Castro, M. E.; Briano, J.; Hernández-Rivera, S. P. Immersion Mode SPME/ΜECD/GC and TEEM-GC/MS for Analysis of Explosives Buried in Sand. Detect. Remediat. Technol. Mines Minelike Targets X 20055794, 1272. https://doi.org/10.1117/12.602447.

(71)      Correa, S. N.; De Jesus, M.; Mina, N.; Castro, M. E.; Blanco, A.; Hernández-Rivera, S. P.; Cody, R. B.; Laramee, J. A. Improved Detection of Landmine Components: Using TEEM-GC-MS for Detection of TNT and RDX in Soil and Other Complex Matrices. Detect. Remediat. Technol. Mines Minelike Targets VIII 20035089, 1001. https://doi.org/10.1117/12.487224.

(74)      Mbah, J.; Moorer, K.; Pacheco-Londoño, L. C.; Hernández-Rivera, S. P.; Cruz, G. Zero Valent Silver-Based Electrode for Detection of 2,4,-Dinitrotoluene in Aqueous Media. Electrochim. Acta 201388, 832–838. https://doi.org/10.1016/j.electacta.2012.10.068.

(75)      Peña-Luengas, S. L.; Jerez-Rozo, J. I.; Correa, S. N.; Peña, N. E.; Hernández-Rivera, S. P. Development of SPME-HPLC Methodology for Detection of Nitroexplosives. Detect. Remediat. Technol. Mines Minelike Targets XII 20076553, 65531W. https://doi.org/10.1117/12.720362.