Carmen Cámara mainly focuses on Chromatography, Selenium, High-performance liquid chromatography, Extraction and Sample preparation. Her biological study spans a wide range of topics, including Atomic absorption spectroscopy and Analytical chemistry. Her Atomic absorption spectroscopy research incorporates themes from Hydride, Elution, Mercury, Methylmercury and Biosorption.
Her Selenium research is multidisciplinary, relying on both Fermentation and Environmental analysis. The various areas that Carmen Cámara examines in her Extraction study include Analyte, Speciation and Molecular imprinting. Carmen Cámara has included themes like Adsorption, Solid-phase microextraction, Gas chromatography, Arsenic and Certified reference materials in her Sample preparation study.
Carmen Cámara mainly investigates Chromatography, Detection limit, Analytical chemistry, Atomic absorption spectroscopy and Selenium. Inductively coupled plasma mass spectrometry, Extraction, High-performance liquid chromatography, Sample preparation and Mass spectrometry are the subjects of her Chromatography studies. Many of her research projects under Detection limit are closely connected to Fluorescence spectrometry with Fluorescence spectrometry, tying the diverse disciplines of science together.
Her work on Graphite furnace atomic absorption as part of general Analytical chemistry research is frequently linked to Volumetric flow rate, bridging the gap between disciplines. Carmen Cámara has researched Atomic absorption spectroscopy in several fields, including Hydride, Elution, Inorganic chemistry, Antimony and Arsenic. Her Selenium research integrates issues from Mercury and Fermentation, Biochemistry, Yeast.
Carmen Cámara mainly focuses on Chromatography, Environmental chemistry, Selenium, Biochemistry and Bioconcentration. Her Chromatography study frequently draws connections between related disciplines such as Analytical chemistry. Her Environmental chemistry research is multidisciplinary, incorporating elements of Green chemistry, Organic compound, Methylmercury and Toxicity.
Her research integrates issues of Chitosan, Fermentation, Biotransformation and Antioxidant in her study of Selenium. In Biochemistry, she works on issues like Arsenic, which are connected to Schizosaccharomyces pombe and Schizosaccharomyces. In her research on the topic of Bioconcentration, Sonication is strongly related with Extraction.
Her primary scientific interests are in Nanotechnology, Selenium, Chromatography, Nanoparticle and Biochemistry. Carmen Cámara combines subjects such as Detection limit, In vitro and Chlorine with her study of Nanotechnology. Her Selenium research is multidisciplinary, relying on both Mercury, Assimilation, Effective treatment and Selenocysteine.
Carmen Cámara studies Chromatography, namely Sample preparation. Her research in Nanoparticle intersects with topics in Characterization and Scale. The various areas that Carmen Cámara examines in her Biochemistry study include Sauerkraut and Glucosinolate.
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Recent developments in solid-phase microextraction coatings and related techniques.
Christian Dietz;Jon Sanz;Carmen Cámara.
Journal of Chromatography A (2006)
Mycobacteria release active membrane vesicles that modulate immune responses in a TLR2-dependent manner in mice
Rafael Prados-Rosales;Andres Baena;Luis R. Martinez;Luis R. Martinez;Jose Luque-Garcia.
Journal of Clinical Investigation (2011)
Nanoparticles: a global vision. Characterization, separation, and quantification methods. Potential environmental and health impact
Ana López-Serrano;Riansares Muñoz Olivas;Jon Sanz Landaluze;Carmen Cámara.
Analytical Methods (2014)
Arsenic speciation in environmental and biological samples: Extraction and stability studies
I Pizarro;M Gómez;C Cámara;M.A Palacios.
Analytica Chimica Acta (2003)
Analytical techniques applied to the speciation of selenium in environmental matrices
Riansares Muñoz Olivas;O.F.X. Donard;C. Cámara;P. Quevauviller.
Analytica Chimica Acta (1994)
Solid-phase microextraction method for the determination of atrazine and four organophosphorus pesticides in soil samples by gas chromatography.
A. Bouaid;Lourdes Ramos;María José González;P. Fernández.
Journal of Chromatography A (2001)
Molecular Recognition in a Propazine-Imprinted Polymer and Its Application to the Determination of Triazines in Environmental Samples
Esther Turiel;Antonio Martin-Esteban;Pilar Fernandez;Concepcion Perez-Conde.
Analytical Chemistry (2001)
Natural variation in arsenate tolerance identifies an arsenate reductase in Arabidopsis thaliana
Eduardo Sánchez-Bermejo;Eduardo Sánchez-Bermejo;Gabriel Castrillo;Bárbara del Llano;Cristina Navarro.
Nature Communications (2014)
A rapid and novel alternative to conventional sample treatment for arsenic speciation in rice using enzymatic ultrasonic probe
E. Sanz;R. Muñoz-Olivas;C. Cámara.
Analytica Chimica Acta (2005)
Arsenic speciation in rice, straw, soil, hair and nails samples from the arsenic-affected areas of Middle and Lower Ganga plain
E. Sanz;R. Muñoz-Olivas;C. Cámara;M. Kumar Sengupta.
Journal of Environmental Science and Health Part A-toxic/hazardous Substances & Environmental Engineering (2007)
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