Publications

Ganesh Sivaraman, and Maria Fyta. Derivatives of small diamondoids as biosensors for DNA nucleobases. Nanoscale, (6)42252014. [PUMA: 2014 chemistry nanopore nanotechnology physical sfb716 sfb716-c9 vis(us) visus:fytama]

Frank C. Maier, and Dr. Maria Fyta. Type-Dependent Identification of DNA Nucleobases by Using Diamondoids. ChemPhysChem, (15):3466-3475, 2014. [PUMA: 2014 chemistry nanopore nanotechnology physical sfb716 sfb716-c9 vis(us) visus:fytama]

Ganesh Sivaraman, and Maria Fyta. Diamondoids as DNA methylation and mutation probes. Europhysics Letters, (108)170052014. [PUMA: 2014 chemistry nanopore nanotechnology physical sfb716 sfb716-c9 vis(us) visus:fytama] URL

F.C. Maier, Ganesh Sivaraman, and Maria Fyta. The role of a diamondoid as a hydrogen donor or acceptor in probing DNA nucleobases. European Physical Journal E 37, (95)2014. [PUMA: 2014 chemistry dna nanopore nanotechnology physical sfb716 sfb716-c9 vis(us) visus:fytama] URL

Maria Fyta. Threading DNA through nanopores for biosensing applications. JOURNAL OF PHYSICS-CONDENSED MATTER, (27)27IOP PUBLISHING LTD, July 2015. [PUMA: 2015 biosensing chemistry dna nanopore physical sfb716 sfb716-c9 vis(us) visus:fytama]

Sergio Cruz León, Mara Prentiss, and Maria Fyta. Binding energies of nucleobase complexes: Relevance to homology recognition of DNA. Physical Review E, (93)6:062410, 2016. [PUMA: binding chemistry nucleobase physical sfb716 sfb716-c9 vis(us) visus:fytama]

Andreas Natterer, Bibek Adhikari, and Maria Fyta. Complexes of carbene-functionalized diamondoids and metal atoms: Electronic properties. Journal of Organometallic Chemistry, (815-816):8-15, 2016. [PUMA: chemistry physical sfb716 sfb716-c9 vis(us) visus:fytama]

Ganesh Sivaraman, Rodrigo G. Amorim, Ralph H. Scheicher, and Maria Fyta. Diamondoid-functionalized gold nanogaps as sensors for natural, mutated, and epigenetically modified DNA nucleotides. Nanoscale, (8):10105-10112, 2016. [PUMA: chemistry nanopore nanotechnology physical sfb716 sfb716-c9 visus:fytama]

Ganesh Sivaraman, Rodrigo G. Amorim, Ralph H. Scheicher, and Maria Fyta. Benchmark investigation of diamondoid-functionalized electrodes for nanopore DNA sequencing. NANOTECHNOLOGY, (27)41IOP PUBLISHING LTD, October 2016. [PUMA: 2016 chemistry nanopore nanotechnology physical sfb716 sfb716-c9 vis(us) visus:fytama]

Bibek Adhikari, Ganesh Sivaraman, and Maria Fyta. Diamondoid-based molecular junctions: a computational study. NANOTECHNOLOGY, (27)48IOP PUBLISHING LTD, TEMPLE CIRCUS, TEMPLE WAY, BRISTOL BS1 6BE, ENGLAND, December 2016. [PUMA: 2016 chemistry dynamics molecular nanopore nanotechnology physical sfb716 sfb716-c9 vis(us) visus:fytama]

Ganesh Sivaraman, Rodrigo G. Amorim, Ralph H. Scheicherb, and Maria Fyta. Insights into the detection of mutations and epigenetic markers using diamondoidfunctionalized sensors. RSC Advances, (7)68:43064-43072, 2017. [PUMA: 2017 chemistry dynamics molecular physical sfb716 sfb716-c9 visus:fytama]

C.S. Sarap, B. Adhikari, S. Meng, F. Uhlig, and M. Fyta. Optical Properties of Single- and Double-Functionalized Small Diamondoids. The Journal of Physical Chemistry A, (2018 122)14:3583-3593, February 2018. [PUMA: 2018 chemistry physical sfb716 sfb716-c9 vis(us) visus:fytama] URL