Arzum Erdem mainly focuses on DNA, Analytical chemistry, Differential pulse voltammetry, Guanine and Biosensor. His work in the fields of Detection limit overlaps with other areas such as Magnetic separation. Arzum Erdem has included themes like Carbon paste electrode and Oligonucleotide in his Differential pulse voltammetry study.
His studies deal with areas such as Voltammetry and Nuclear chemistry as well as Carbon paste electrode. Arzum Erdem combines subjects such as Inorganic chemistry, Hybridization probe and Peptide nucleic acid with his study of Biosensor. His work focuses on many connections between Graphene and other disciplines, such as Electrochemistry, that overlap with his field of interest in Nanotechnology and Covalent bond.
His primary areas of study are Differential pulse voltammetry, Analytical chemistry, Electrochemistry, Biosensor and DNA. He combines Differential pulse voltammetry and Guanine in his studies. In his study, Chitosan and Nanoparticle is inextricably linked to Nuclear chemistry, which falls within the broad field of Analytical chemistry.
His Electrochemistry study combines topics in areas such as Carbon nanotube, Polymer and Adsorption. His study in Biosensor is interdisciplinary in nature, drawing from both Base pair and Peptide nucleic acid, Nucleic acid. Arzum Erdem works mostly in the field of DNA, limiting it down to topics relating to Molecular biology and, in certain cases, Hepatitis B virus, as a part of the same area of interest.
His primary scientific interests are in Biosensor, Detection limit, Nucleic acid, Dielectric spectroscopy and Electrochemistry. His Biosensor study deals with DNA intersecting with Biotinylation. His research in Detection limit intersects with topics in Pencil graphite electrode and Aptamer.
His Nucleic acid research is multidisciplinary, incorporating perspectives in Combinatorial chemistry, Hybridization probe and Nanomaterials. His work in Dielectric spectroscopy tackles topics such as Cyclic voltammetry which are related to areas like Nuclear chemistry, Colloidal gold and Ion. Many of his research projects under Electrochemistry are closely connected to Daunorubicin with Daunorubicin, tying the diverse disciplines of science together.
Arzum Erdem focuses on Biosensor, Chromatography, Mirna 34a, Inorganic chemistry and Pencil graphite electrode. His Biosensor research is multidisciplinary, relying on both Combinatorial chemistry, Electrochemistry, Nucleic acid and Biopolymer. His Nucleic acid research includes elements of Conjugated system, DNA and Spermine.
His work on Detection limit as part of his general Chromatography study is frequently connected to Chip and Immunoassay, thereby bridging the divide between different branches of science. He has included themes like Mercury, Electrochemical detection, Ion and Silver nanoparticle in his Inorganic chemistry study. In his study, he carries out multidisciplinary Ochratoxin and Differential pulse voltammetry research.
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Probing the Electrochemical Properties of Graphene Nanosheets for Biosensing Applications
Subbiah Alwarappan;Arzum Erdem;Chang Liu;Chen-Zhong Li.
Journal of Physical Chemistry C (2009)
Novel hybridization indicator methylene blue for the electrochemical detection of short DNA sequences related to the hepatitis B virus
Arzum Erdem;Kagan Kerman;Burcu Meric;Ulus Salih Akarca.
Analytica Chimica Acta (2000)
Electrochemical genosensor based on colloidal gold nanoparticles for the detection of Factor V Leiden mutation using disposable pencil graphite electrodes.
Mehmet Ozsoz;Arzum Erdem;Kagan Kerman;Dilsat Ozkan.
Analytical Chemistry (2003)
Electrochemical DNA Biosensors Based on DNA‐Drug Interactions
Arzum Erdem;Mehmet Ozsoz.
Methylene Blue as a Novel Electrochemical Hybridization Indicator
Arzum Erdem;Kagan Kerman;Burcu Meric;Mehmet Ozsoz.
Magnetic bead-based label-free electrochemical detection of DNA hybridization
Joseph Wang;Abdel-Nasser Kawde;Arzum Erdem;Marcos Salazar.
Direct DNA Hybridization at Disposable Graphite Electrodes Modified with Carbon Nanotubes
Arzum Erdem;Pagona Papakonstantinou;Hayley Murphy.
Analytical Chemistry (2006)
Nanomaterial-based electrochemical DNA sensing strategies.
Electrochemical genosensor for the detection of interaction between methylene blue and DNA
Pinar Kara;Kagan Kerman;Dilsat Ozkan;Burcu Meric.
Electrochemistry Communications (2002)
microRNA biosensors: Opportunities and challenges among conventional and commercially available techniques.
Tugba Kilic;Arzum Erdem;Mehmet Ozsoz;Sandro Carrara.
Biosensors and Bioelectronics (2018)
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