PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
32966082-3	2020	In this letter, by means of a combined experimental (STM, XPS and LEED) and theoretical (DFT) study, we present a proof of how CO molecules succeed in permeating the graphene layer and get into the confined zone between graphene and the Ni(111) surface.	Graphite	166-174	sulfotransferase family 1A member 3	Homo sapiens	53-56	
33206100-8	2020	The possibility for the detection of the arrangement of the halogen impurities at the MoX2 basal plane even with the graphene layer deposited on top was demonstrated through STM measurements which will be undoubtedly useful for the fabrication of electronic schemes and elements based on the proposed heterostructures for their further application in nanoelectronics and spintronics.	Graphite	117-125	sulfotransferase family 1A member 3	Homo sapiens	174-177	
32966082-3	2020	In this letter, by means of a combined experimental (STM, XPS and LEED) and theoretical (DFT) study, we present a proof of how CO molecules succeed in permeating the graphene layer and get into the confined zone between graphene and the Ni(111) surface.	Graphite	220-228	sulfotransferase family 1A member 3	Homo sapiens	53-56	
30398169-2	2018	Flakes originating from a single crystal of graphite, whose orientation is confirmed using STM, are studied using facet orientations and electron back-scatter diffraction (EBSD).	Graphite	44-52	sulfotransferase family 1A member 3	Homo sapiens	91-94	
29303194-1	2018	We report on the scanning tunneling microscopy/spectroscopy (STM/STS) study of cobalt phthalocyanine (CoPc) molecules deposited onto a back-gated graphene device.	Graphite	146-154	sulfotransferase family 1A member 3	Homo sapiens	61-64	
26560972-3	2015	Here we report the STM observation of a graphene superlattice with concave (nanomesh) morphology on Au(111).	Graphite	40-48	sulfotransferase family 1A member 3	Homo sapiens	19-22	
28304284-7	2017	We point out that, in contrast to SGM experiments on gapped semiconductors, the STM tip can induce a pn junction in graphene, which improves contrast and resolution in SGM.	Graphite	116-124	sulfotransferase family 1A member 3	Homo sapiens	80-83	
28520435-2	2017	We have characterized local atomic and electronic structures of a periodically nanorippled graphene (3.4 nm period) prepared on a macrofacet of the 6H-SiC crystal using scanning tunneling microscopy/spectroscopy (STM/STS) and angle-resolved photoelectron spectroscopy (ARPES).	Graphite	91-99	sulfotransferase family 1A member 3	Homo sapiens	213-216	
28520435-4	2017	The STM/STS results indicate the strength of electron-phonon coupling to the out-of-plane phonon at the K points of graphene is periodically modified in accordance with the ripple structure.	Graphite	116-124	sulfotransferase family 1A member 3	Homo sapiens	4-7	
27379457-7	2016	Ambient STM imaging showed the formation of long 1D SMON rather than 2D assembly on the basal plane of highly oriented pyrolytic graphite (HOPG) surface after simple dropcasting of the solution of preassembled concentric hexagons onto a freshly cleaved surface of HOPG.	Graphite	129-137	sulfotransferase family 1A member 3	Homo sapiens	8-11	
27189131-7	2016	Atomically resolved STM images on the hills of the nanostructures on the Ge(001) surface have confirmed the presence of a graphene monolayer.	Graphite	122-130	sulfotransferase family 1A member 3	Homo sapiens	20-23	
27165124-0	2016	Understanding the STM images of epitaxial graphene on a reconstructed 6H-SiC(0001) surface: the role of tip-induced mechanical distortion of graphene.	Graphite	42-50	sulfotransferase family 1A member 3	Homo sapiens	18-21	
27165124-6	2016	Therefore, a constant current STM image of EG on a reconstructed 6H-SiC(0001) surface does not reproduce its real topography but corresponds to the measured LDOS modulations, which depend on the variable tip-induced graphene distortion within the (6 x 6) quasi-cell.	Graphite	216-224	sulfotransferase family 1A member 3	Homo sapiens	30-33	
26037044-0	2015	Theory for STM images of resonances in the near-field regime: application to adsorbates and local defects on graphene.	Graphite	109-117	sulfotransferase family 1A member 3	Homo sapiens	11-14	
26192733-4	2015	These graphene-BNNT heterojunctions were characterized at room temperature by four-probe scanning tunneling microscopy (4-probe STM) under real-time monitoring of scanning electron microscopy (SEM).	Graphite	6-14	sulfotransferase family 1A member 3	Homo sapiens	128-131	
24065072-4	2013	The reconstruction from topographic images of graphene bending energy maps sheds light on the local electro-mechanical response of graphene under STM imaging and unveils the role of the stress induced by the vicinity of the graphene-metal interface in the formation and the manipulation of these ripples.	Graphite	46-54	sulfotransferase family 1A member 3	Homo sapiens	146-149	
25735599-3	2015	The morphology and physical properties of nanoparticle-supported graphene are investigated by atomic force microscopy, optical reflectance spectroscopy, scanning tunneling microscopy and spectroscopy (STM/STS), and confocal Raman spectroscopy.	Graphite	65-73	sulfotransferase family 1A member 3	Homo sapiens	201-204	
25735599-6	2015	STM and STS measurements show that the local density of electronic states in graphene is modulated by the underlying gold nanoparticles.	Graphite	77-85	sulfotransferase family 1A member 3	Homo sapiens	0-3	
25123291-1	2014	By means of STM and nc-AFM the self-assembly of a new donor-acceptor (DA) dyad molecule on highly oriented pyrolytic graphite is identified and compared to molecular simulations.	Graphite	117-125	sulfotransferase family 1A member 3	Homo sapiens	12-15	
24654926-2	2014	Combining high-resolution STM experiments and DFT calculations, we have unambiguously unveiled the atomic structure of the boundary between a graphene zigzag edge and a Pt(111) step.	Graphite	142-150	sulfotransferase family 1A member 3	Homo sapiens	26-29	
24651211-3	2014	Here, we report an in-situ low-temperature scanning tunneling microscopy (LT-STM) study of the elementary process of chemical vapor deposition (CVD) graphene growth via thermal decomposition of methane on Cu(110), including the formation of monodispersed carbon clusters at the initial stage, the graphene nucleation and the ripening of graphene islands to form continuous graphene film.	Graphite	149-157	sulfotransferase family 1A member 3	Homo sapiens	77-80	
24651211-3	2014	Here, we report an in-situ low-temperature scanning tunneling microscopy (LT-STM) study of the elementary process of chemical vapor deposition (CVD) graphene growth via thermal decomposition of methane on Cu(110), including the formation of monodispersed carbon clusters at the initial stage, the graphene nucleation and the ripening of graphene islands to form continuous graphene film.	Graphite	297-305	sulfotransferase family 1A member 3	Homo sapiens	77-80	
24651211-3	2014	Here, we report an in-situ low-temperature scanning tunneling microscopy (LT-STM) study of the elementary process of chemical vapor deposition (CVD) graphene growth via thermal decomposition of methane on Cu(110), including the formation of monodispersed carbon clusters at the initial stage, the graphene nucleation and the ripening of graphene islands to form continuous graphene film.	Graphite	297-305	sulfotransferase family 1A member 3	Homo sapiens	77-80	
24651211-3	2014	Here, we report an in-situ low-temperature scanning tunneling microscopy (LT-STM) study of the elementary process of chemical vapor deposition (CVD) graphene growth via thermal decomposition of methane on Cu(110), including the formation of monodispersed carbon clusters at the initial stage, the graphene nucleation and the ripening of graphene islands to form continuous graphene film.	Graphite	297-305	sulfotransferase family 1A member 3	Homo sapiens	77-80	
24065072-4	2013	The reconstruction from topographic images of graphene bending energy maps sheds light on the local electro-mechanical response of graphene under STM imaging and unveils the role of the stress induced by the vicinity of the graphene-metal interface in the formation and the manipulation of these ripples.	Graphite	131-139	sulfotransferase family 1A member 3	Homo sapiens	146-149	
24065072-4	2013	The reconstruction from topographic images of graphene bending energy maps sheds light on the local electro-mechanical response of graphene under STM imaging and unveils the role of the stress induced by the vicinity of the graphene-metal interface in the formation and the manipulation of these ripples.	Graphite	131-139	sulfotransferase family 1A member 3	Homo sapiens	146-149	
23396479-1	2013	STM brings to light chirality aspects of the self-assembly of a functionalized helicene at the interface between a liquid and the solid substrates, gold and graphite.	Graphite	157-165	sulfotransferase family 1A member 3	Homo sapiens	0-3	
23675983-3	2013	Here, we use in situ low-temperature scanning tunneling microscopy (LT-STM) to reveal the graphene growth intermediates at different stages via thermal decomposition of methane on Cu(111).	Graphite	90-98	sulfotransferase family 1A member 3	Homo sapiens	71-74	
21513407-3	2011	In situ LT-STM experiments also indicate the formation of a molecularly sharp C(60)/6P interface with hexagonally-close-packed C(60) layers nucleated atop 6P layer on graphite.	Graphite	167-175	sulfotransferase family 1A member 3	Homo sapiens	11-14	
22735164-5	2012	At variance the classical Bernal stacking manifests the strongest interlayer coupling by destroying the Dirac point and exhibiting a graphite-like STM appearance.	Graphite	133-141	sulfotransferase family 1A member 3	Homo sapiens	147-150	
21675741-1	2011	STM images of multidomain epitaxial graphene on Pt(111) have been combined with a geometrical model to investigate the origin of the coincidence Moire superstructures.	Graphite	36-44	sulfotransferase family 1A member 3	Homo sapiens	0-3	
22495597-1	2012	Suspended graphene has been studied by STM for the first time.	Graphite	10-18	sulfotransferase family 1A member 3	Homo sapiens	39-42	
22345052-5	2012	A linear molecular assembly of the octyloxy compound at a liquid/graphite interface was observed by STM measurements.	Graphite	65-73	sulfotransferase family 1A member 3	Homo sapiens	100-103	
21599081-7	2011	This transfer is controlled by the layer thickness of, or the applied voltage on, epitaxial graphene resulting in selective F(16)CuPc adsorption, as observed in STM experiments.	Graphite	92-100	sulfotransferase family 1A member 3	Homo sapiens	161-164	
16922536-0	2006	Homo- and heteroassemblies of lactim/lactam recognition patterns on highly ordered pyrolytic graphite: An STM investigation.	Graphite	93-101	sulfotransferase family 1A member 3	Homo sapiens	106-109	
21309565-6	2011	Raman and STM characterizations corroborate that the graphene sheets exfoliated by our electrochemical method preserve the intrinsic structure of graphene.	Graphite	53-61	sulfotransferase family 1A member 3	Homo sapiens	10-13	
20205404-6	2010	The predictive potential of the model was additionally illustrated by comparison of the obtained superstructures with the recent STM images that have been recorded for different organic tripod-shaped molecules adsorbed at the liquid/pyrolytic graphite interface.	Graphite	243-251	sulfotransferase family 1A member 3	Homo sapiens	129-132	
20175573-1	2010	The self-assembly of the binary molecular system comprising copper(II) phthalocyanine (CuPc) and copper-hexadecafluoro-phthalocyanine (F(16)CuPc) on graphite has been investigated by in situ low-temperature scanning tunneling microscopy (LT-STM).	Graphite	149-157	sulfotransferase family 1A member 3	Homo sapiens	241-244	
19341286-1	2009	Graphene nanosheets produced in the form of stable aqueous dispersions by chemical reduction of graphene oxide and deposited onto graphite substrates have been investigated by atomic force and scanning tunneling microscopy (AFM/STM).	Graphite	0-8	sulfotransferase family 1A member 3	Homo sapiens	228-231	
21399340-4	2010	The origin of the extremely large cross-section is ascribed to the modulated electronic states of graphite around the defect based on the STM measurements, which is due to the local breaking of the pi conjugated system of graphite.	Graphite	98-106	sulfotransferase family 1A member 3	Homo sapiens	138-141	
21399340-4	2010	The origin of the extremely large cross-section is ascribed to the modulated electronic states of graphite around the defect based on the STM measurements, which is due to the local breaking of the pi conjugated system of graphite.	Graphite	222-230	sulfotransferase family 1A member 3	Homo sapiens	138-141	
21817477-5	2009	In order to investigate the reactivity of graphene we expose graphene islands to a partial pressure of oxygen and following the evolution of the surface by STM during the exposure.	Graphite	42-50	sulfotransferase family 1A member 3	Homo sapiens	156-159	
16853724-0	2005	Weak hydrogen bonds as a structural motif for two-dimensional assemblies of oligopyridines on highly oriented pyrolytic graphite: an STM investigation.	Graphite	120-128	sulfotransferase family 1A member 3	Homo sapiens	133-136	
16768498-4	2006	These complexes assemble into ordered arrays at the interface of 1-phenyloctane and the highly oriented pyrolytic graphite surface, owing to the affinity of the long alkyl chains toward the surface, as revealed by means of scanning tunneling microscopy (STM) with molecular resolution.	Graphite	114-122	sulfotransferase family 1A member 3	Homo sapiens	254-257	
16460082-6	2006	The effect of hydrogen bonds in self-assembled molecules of N,N"-dialkylurea CH3-(CH2)m-NHCONH-(CH2)n-CH3 (m + n = 14) [7 (n = 2)] was visualized by STM at the octylbenzene/graphite interface.	Graphite	173-181	sulfotransferase family 1A member 3	Homo sapiens	149-152	
16853724-1	2005	We present the STM investigation of four different oligopyridines at the liquid/highly oriented pyrolytic graphite interface.	Graphite	106-114	sulfotransferase family 1A member 3	Homo sapiens	15-18	
15697277-1	2005	We have shown that STM-tip-induced chain polymerization of 10,12-tricosadiynoic acid (TCDA) in a self-organized monolayer at the liquid-solid interface of TCDA on highly oriented pyrolytic graphite is possible.	Graphite	189-197	sulfotransferase family 1A member 3	Homo sapiens	19-22	
16178245-1	2005	STM imaging on graphite of the S-enantiomer of a chiral diacetylene isophthalic acid derivative reveals that molecular chirality is not expressed in the monolayer due to a specific molecular conformation preventing the stereogenic center to transfer its chiral information.	Graphite	15-23	sulfotransferase family 1A member 3	Homo sapiens	0-3	
15697282-1	2005	STM investigations of three N-alkyl fatty acid amide molecules have been carried out to get information of their molecular arrangement on a highly oriented pyrolytic graphite surface.	Graphite	166-174	sulfotransferase family 1A member 3	Homo sapiens	0-3	
15069479-1	2004	The evaporation of solutions of dendron-functionalised 2,2"-bipyridines on a graphite surface gives highly ordered monolayers; near atomic resolution STM imaging has allowed a detailed conformational analysis to be made.	Graphite	77-85	sulfotransferase family 1A member 3	Homo sapiens	150-153	
9983691-0	1996	Observation of charge enhancement induced by graphite atomic vacancy: A comparative STM and AFM study.	Graphite	45-53	sulfotransferase family 1A member 3	Homo sapiens	84-87	
12739671-1	2003	The synthesis, isolation and STM imaging on graphite of the cis and trans isomers of a TTF reveal isomer-dependent packing, and constitutes a way to study the non-covalent interactions at play in these systems.	Graphite	44-52	sulfotransferase family 1A member 3	Homo sapiens	29-32	
11289431-1	2001	STM gold tips chemically modified with 4-mercaptopyridine (4MP) were found capable of discriminating zinc(II) 5,15-bis(4-octadecyloxyphenyl)porphyrin (Por-Zn) from its metal-free porphyrin (Por-2H) and nickel(II) complexes (Por-Ni) in the mixed monolayers of these compounds, spontaneously formed at the solution/graphite interface.	Graphite	313-321	sulfotransferase family 1A member 3	Homo sapiens	0-3	
34596642-6	2021	Importantly, our STM imaging results showed very organized tilted layered structures for meso-AgL2 on highly oriented pyrolytic graphite (HOPG) that are quite similar to its crystalline ones, paving the way for future single molecule manipulations.	Graphite	128-136	sulfotransferase family 1A member 3	Homo sapiens	17-20	
1413243-1	1992	We show that domain walls on graphite are very likely to mimic features of extended macromolecules like DNA strands, when imaged with an STM.	Graphite	29-37	sulfotransferase family 1A member 3	Homo sapiens	137-140	
34283574-5	2021	The stabilization of the pseudopolymorph was then achieved by using an alternative nanoconfinement strategy, where the domains of the pseudopolymorph could be formed and stabilized by restricting the self-assembly in nanometer-sized shallow compartments produced by STM-based nanolithography carried out on a graphite surface with a high density of covalently bound aryl groups.	Graphite	309-317	sulfotransferase family 1A member 3	Homo sapiens	266-269