PMID-sentid Pub_year Sent_text comp_official_name comp_offsetprotein_name organism prot_offset 18331110-1 2008 One of the most exciting recent developments in nanoscience was the discovery of graphene (single sheets of carbon atoms, a two-dimensional "(2D) crystal") and the subsequent discovery of the fascinating properties of this new material, e.g., electrons behaving as massless relativistic particles and an anomalous quantum Hall effect [A. K. Geim and K. S. Novoselov, Nat. Graphite 81-89 bromodomain containing 2 Homo sapiens 367-370 18189370-2 2008 The sensors feature ultrathin films containing DNA and N-acetyltransferase (NAT) on pyrolytic graphite (PG) electrodes. Graphite 94-102 bromodomain containing 2 Homo sapiens 76-79 24879509-6 2014 The atomic excess energy with respect to the ideal graphene sheet goes to zero following the log(Nat)/Nat law, which is well described through the continuum elastic theory applied to graphene; the limits for the adopted model are briefly outlined. Graphite 51-59 bromodomain containing 2 Homo sapiens 97-100 24879509-6 2014 The atomic excess energy with respect to the ideal graphene sheet goes to zero following the log(Nat)/Nat law, which is well described through the continuum elastic theory applied to graphene; the limits for the adopted model are briefly outlined. Graphite 51-59 bromodomain containing 2 Homo sapiens 102-105 24879509-6 2014 The atomic excess energy with respect to the ideal graphene sheet goes to zero following the log(Nat)/Nat law, which is well described through the continuum elastic theory applied to graphene; the limits for the adopted model are briefly outlined. Graphite 183-191 bromodomain containing 2 Homo sapiens 97-100 24879509-6 2014 The atomic excess energy with respect to the ideal graphene sheet goes to zero following the log(Nat)/Nat law, which is well described through the continuum elastic theory applied to graphene; the limits for the adopted model are briefly outlined. Graphite 183-191 bromodomain containing 2 Homo sapiens 102-105