PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
27348072-0	2016	Tip-Enhanced Raman Spectroscopic Imaging of Individual Carbon Nanotubes with Subnanometer Resolution.	Carbon	55-61	TOR signaling pathway regulator	Homo sapiens	0-3	
33169998-0	2020	Intramolecular Hydrogen Bonds in Tip-Functionalized Single-Walled Carbon Nanotubes as pH-Sensitive Gates.	Carbon	66-72	TOR signaling pathway regulator	Homo sapiens	33-36	
31846340-3	2020	With the use of a graphitic carbon-capped tungsten nanoelectrode as a noncontact "milling" tool in a transmission electron microscope, graphene edge atoms approached by the tool tip are locally evaporated, thus allowing a freestanding graphene sheet to be tailored with high precision and flexibility.	Carbon	18-34	TOR signaling pathway regulator	Homo sapiens	178-181	
29064705-1	2017	We present an experimental study on the near-field light-matter interaction by tip-enhanced Raman scattering (TERS) with polarized light in three different materials: germanium-doped gallium nitride (GaN), graphene, and carbon nanotubes.	Carbon	220-226	TOR signaling pathway regulator	Homo sapiens	79-82	
33169998-3	2020	This study aims to explore and characterize, through density functional theory (DFT) calculations, covalent tip-functionalization of single-walled carbon nanotubes (SWCNTS) with carboxymethyl moieties that establish pH sensitive molecular gates.	Carbon	147-153	TOR signaling pathway regulator	Homo sapiens	108-111	
32751468-0	2020	Mechanism-Independent Manipulation of Single-Wall Carbon Nanotubes with Atomic Force Microscopy Tip.	Carbon	50-56	TOR signaling pathway regulator	Homo sapiens	96-99	
31995540-6	2020	It was firstly found that the transferred graphite nanoflakes on the contact zone of the silicon tip could be transformed into amorphous carbon layers induced by the shear force and high pressure during the superlubricity tests process.	Carbon	137-143	TOR signaling pathway regulator	Homo sapiens	97-100	
30961713-0	2019	Tip and Inner Wall Modification of 4.9 nm Diameter Multi-Walled Carbon Nanotubes and Its Nanocomposite Polyamide Reverse Osmosis Membrane.	Carbon	64-70	TOR signaling pathway regulator	Homo sapiens	0-3	
30961713-1	2019	The tip and inner surface of large diameter multi-walled carbon nanotubes (MWCNTs) (4.9 nm diameter) were functionalized on the tip and inner surface to improve the rate of desalination and maintain high water flux.	Carbon	57-63	TOR signaling pathway regulator	Homo sapiens	4-7	
30961713-1	2019	The tip and inner surface of large diameter multi-walled carbon nanotubes (MWCNTs) (4.9 nm diameter) were functionalized on the tip and inner surface to improve the rate of desalination and maintain high water flux.	Carbon	57-63	TOR signaling pathway regulator	Homo sapiens	128-131	
28443913-8	2017	Silicone elastomers show a good agreement between the measured work of adhesion and the predicted results, but carbon black filled hydrogenated nitrile butadiene rubber compounds reveal that strain softening at the crack tip may play an important role in determining the work of adhesion.	Carbon	111-117	TOR signaling pathway regulator	Homo sapiens	221-224	
25498140-3	2015	The carbon tip consists of concentric carbon layers in the shape of a cone, and has been previously studied as a very good candidate for cold field emission.	Carbon	4-10	TOR signaling pathway regulator	Homo sapiens	11-14	
25498140-3	2015	The carbon tip consists of concentric carbon layers in the shape of a cone, and has been previously studied as a very good candidate for cold field emission.	Carbon	38-44	TOR signaling pathway regulator	Homo sapiens	11-14	
26164304-2	2015	Heat generated by the tip-enhanced electric field is directly transferred to single-walled carbon nanotubes by heat conduction and radiation at the nanoscale.	Carbon	91-97	TOR signaling pathway regulator	Homo sapiens	22-25	
26196645-3	2015	A carbon nanotube is brought into close proximity to the emitter tip to act as an electrostatic biprism.	Carbon	2-8	TOR signaling pathway regulator	Homo sapiens	65-68	
24096985-0	2013	Tip-enhanced nano-Raman analytical imaging of locally induced strain distribution in carbon nanotubes.	Carbon	85-91	TOR signaling pathway regulator	Homo sapiens	0-3	
25946634-2	2015	In this paper, optical sensing performance of tapered multimode fiber tip coated with carbon nanotube (CNT) thin film towards aqueous ethanol with different concentrations is investigated.	Carbon	86-92	TOR signaling pathway regulator	Homo sapiens	70-73	
24313506-0	2013	Tip-enhanced Raman investigation of extremely localized semiconductor-to-metal transition of a carbon nanotube.	Carbon	95-101	TOR signaling pathway regulator	Homo sapiens	0-3	
23238458-5	2013	In this work, we provide an alternative explanation for the occurrence of these sets in terms of the specific anchoring sites of the molecule to the tip, which in turn determines the interaction of a portion of the carbon chain with the tip.	Carbon	215-221	TOR signaling pathway regulator	Homo sapiens	149-152	
23238458-5	2013	In this work, we provide an alternative explanation for the occurrence of these sets in terms of the specific anchoring sites of the molecule to the tip, which in turn determines the interaction of a portion of the carbon chain with the tip.	Carbon	215-221	TOR signaling pathway regulator	Homo sapiens	237-240	
25140359-0	2014	Tip-enhanced Raman spectroscopic measurement of stress change in the local domain of epitaxial graphene on the carbon face of 4H-SiC(000-1).	Carbon	111-117	TOR signaling pathway regulator	Homo sapiens	0-3	
24655227-4	2014	By using a carbon pipette as the tip in the scanning electrochemical microscope (SECM), it can be precisely positioned at the sampling location.	Carbon	11-17	TOR signaling pathway regulator	Homo sapiens	33-36	
24096985-3	2013	Here we demonstrate colour-coded tip-enhanced Raman scattering imaging of strain distribution along the length of a carbon nanotube.	Carbon	116-122	TOR signaling pathway regulator	Homo sapiens	33-36	
20942445-0	2010	The reactivity of phosphagermaallene Tip(t-Bu)Ge=C=PMes* with doubly and triply bonded nitrogen compounds.	Carbon	49-50	TOR signaling pathway regulator	Homo sapiens	37-40	
22162368-1	2012	High-resolution imaging and spectroscopy of single CdSe nanowires and carbon nanotubes using tip-enhanced near-field optical microscopy increases the optical excitation and emission rates within a nanoscale sample volume.	Carbon	70-76	TOR signaling pathway regulator	Homo sapiens	93-96	
20357868-0	2010	Tip-enhanced Raman spectroscopy with silver-coated optical fiber probe in reflection mode for investigating multiwall carbon nanotubes.	Carbon	118-124	TOR signaling pathway regulator	Homo sapiens	0-3	
19455312-0	2009	Tip-enhanced near-field optical microscopy of carbon nanotubes.	Carbon	46-52	TOR signaling pathway regulator	Homo sapiens	0-3	
20672136-0	2010	Stable Field Emitters for a Miniature X-ray Tube Using Carbon Nanotube Drop Drying on a Flat Metal Tip.	Carbon	55-61	TOR signaling pathway regulator	Homo sapiens	99-102	
20038037-0	2009	[Detection of single-walled carbon nanotube bundles by tip-enhanced Raman spectroscopy].	Carbon	28-34	TOR signaling pathway regulator	Homo sapiens	55-58	
20038037-13	2009	Corresponding with the AFM image, the tip-enhanced near-field Raman of a 100 nm diameter single-walled carbon nanotube (SWNT) bundles was obtained.	Carbon	103-109	TOR signaling pathway regulator	Homo sapiens	38-41	
19455312-1	2009	We review recent experimental studies on single-walled carbon nanotubes on substrates using tip-enhanced near-field optical microscopy (TENOM).	Carbon	55-61	TOR signaling pathway regulator	Homo sapiens	92-95	
17212441-0	2007	Tip cooling effect and failure mechanism of field-emitting carbon nanotubes.	Carbon	59-65	TOR signaling pathway regulator	Homo sapiens	0-3	
17488134-2	2007	A conductive atomic force tip is used to collect carbon from a glassy carbon substrate and redeposit it onto a gold thin film under voltage control.	Carbon	49-55	TOR signaling pathway regulator	Homo sapiens	26-29	
17488134-2	2007	A conductive atomic force tip is used to collect carbon from a glassy carbon substrate and redeposit it onto a gold thin film under voltage control.	Carbon	70-76	TOR signaling pathway regulator	Homo sapiens	26-29	
35016164-0	2022	Advancement in fabrication of carbon nanotube tip for atomic force microscope using multi-axis nanomanipulator in scanning electron microscope.	Carbon	30-36	TOR signaling pathway regulator	Homo sapiens	46-49	
16771592-0	2006	Nanoscale uniaxial pressure effect of a carbon nanotube bundle on tip-enhanced near-field Raman spectra.	Carbon	40-46	TOR signaling pathway regulator	Homo sapiens	66-69	
16771592-1	2006	In situ measurement of tip-enhanced near-field Raman spectra of an isolated single-wall carbon nanotube (SWNT) bundle has been demonstrated by applying a uniaxial pressure up to approximately 2 GPa to the bundle via a metal-coated atomic force microscope tip.	Carbon	88-94	TOR signaling pathway regulator	Homo sapiens	23-26	
15969584-0	2005	Effect of tip functionalization on transport through vertically oriented carbon nanotube membranes.	Carbon	73-79	TOR signaling pathway regulator	Homo sapiens	10-13	
12535554-6	2003	These effects were noted when the carbon fiber tip was mounted in a closed glass vacuum bulb pumped by barium getters, and also in a vacuum system using the combination of a molecular drag pump and ion pumps.	Carbon	34-40	TOR signaling pathway regulator	Homo sapiens	47-50	
12535554-7	2003	The second type of enhancement occurs under ultrahigh vacuum conditions, during in situ thermal treatment of the carbon fiber tip while the emission current is about 2.5 microA.	Carbon	113-119	TOR signaling pathway regulator	Homo sapiens	126-129	
9420077-3	1998	METHODS: This laser catheter is fitted with an atraumatic ball-shaped fiber tip that is pretreated with a layer of carbon particles.	Carbon	115-121	TOR signaling pathway regulator	Homo sapiens	76-79	
9420077-5	1998	As the heat is generated in this very thin layer of carbon coating, the temperature at the surface of the ball-shaped tip reaches ablative temperatures instantly at powers of only a few watts per second, which has enabled the authors to limit drastically the amount of laser light used and the length of exposure needed, thereby increasing safety even around critical structures.	Carbon	52-58	TOR signaling pathway regulator	Homo sapiens	118-121	
8750105-1	1995	A method is proposed for rapid and effective forming of the recording tips of carbon-fibre microelectrodes by trimming and treating the tip with electric current pulses.	Carbon	78-84	TOR signaling pathway regulator	Homo sapiens	70-73	
33825451-0	2021	"Insert-and-Go" Activated Carbon Electrode Tip for Heavy Metal Capture and In Situ Analysis by Microplasma Optical Emission Spectrometry.	Carbon	26-32	TOR signaling pathway regulator	Homo sapiens	43-46	
33825451-2	2021	Herein, a small activated carbon electrode tip is employed as solid support to preconcentrate heavy metals in water and subsequently served as an inner electrode of the coaxial dielectric barrier discharge (DBD) to generate microplasma.	Carbon	26-32	TOR signaling pathway regulator	Homo sapiens	43-46	
33825451-3	2021	In this case, heavy metal analytes in water are first adsorbed on the surface of the activated carbon electrode tip via a simple liquid-solid phase transformation during the sample loading process, and then, fast released to produce OES during the DBD microplasma excitation process.	Carbon	95-101	TOR signaling pathway regulator	Homo sapiens	112-115	
33825451-5	2021	This activated carbon electrode tip provides a new tool for sample introduction into the DBD microplasma and facilitates "insert-and-go" in subsequent DBD-OES analysis.	Carbon	15-21	TOR signaling pathway regulator	Homo sapiens	32-35	
33825451-6	2021	With a multiplexed activated carbon electrode tip array, a batch of water samples (50 mL) can be loaded in parallel within 5 min.	Carbon	29-35	TOR signaling pathway regulator	Homo sapiens	10-13	
34584950-0	2021	Selective Synthesis of Carbon Nanorings via Asymmetric Intramicellar Phase-Transition-Induced Tip-to-Tip Assembly.	Carbon	23-29	TOR signaling pathway regulator	Homo sapiens	94-97	
34584950-0	2021	Selective Synthesis of Carbon Nanorings via Asymmetric Intramicellar Phase-Transition-Induced Tip-to-Tip Assembly.	Carbon	23-29	TOR signaling pathway regulator	Homo sapiens	101-104	
34584950-2	2021	Herein, we report a precise synthesis of carbon nanorings with a well-defined morphology and tunable thickness based on asymmetric intramicellar phase-transition-induced tip-to-tip assembly via mixing hydrophobic long-chain octadecanol and block copolymer F127.	Carbon	41-47	TOR signaling pathway regulator	Homo sapiens	170-173	
34584950-2	2021	Herein, we report a precise synthesis of carbon nanorings with a well-defined morphology and tunable thickness based on asymmetric intramicellar phase-transition-induced tip-to-tip assembly via mixing hydrophobic long-chain octadecanol and block copolymer F127.	Carbon	41-47	TOR signaling pathway regulator	Homo sapiens	177-180	
35417179-2	2022	Here, we use tip-enhanced Raman scattering (TERS) to further enhance the Raman response of a single carbyne chain confined inside a double-walled carbon nanotube.	Carbon	146-152	TOR signaling pathway regulator	Homo sapiens	13-16	
35159798-0	2022	Comparing Commercial Metal-Coated AFM Tips and Home-Made Bulk Gold Tips for Tip-Enhanced Raman Spectroscopy of Polymer Functionalized Multiwalled Carbon Nanotubes.	Carbon	146-152	TOR signaling pathway regulator	Homo sapiens	76-79	
16833119-0	2006	Nanoscale imaging of carbon nanotubes using tip enhanced Raman spectroscopy in reflection mode.	Carbon	21-27	TOR signaling pathway regulator	Homo sapiens	44-47	
12908248-2	2003	At lower bias voltage, the emission current of the coated nanotube is comparable to that of the bare carbon nanotube and is dominated by the contribution from localized states at the tip of the tube.	Carbon	101-107	TOR signaling pathway regulator	Homo sapiens	183-186	
12908248-3	2003	At higher voltage, newly generated hybridized states between the carbon nanotube tip and the even-membered boron nitride rings contribute significantly to the emission current because they experience a low tunneling barrier compared with the bare carbon nanotube case.	Carbon	65-71	TOR signaling pathway regulator	Homo sapiens	81-84	
12908248-3	2003	At higher voltage, newly generated hybridized states between the carbon nanotube tip and the even-membered boron nitride rings contribute significantly to the emission current because they experience a low tunneling barrier compared with the bare carbon nanotube case.	Carbon	247-253	TOR signaling pathway regulator	Homo sapiens	81-84	
10671842-1	2000	We evaluated a single-use, disposable, carbon-dioxide-powered, needleless injector (J-Tip, National Medical Products Inc., CA, USA), which is claimed to deliver a virtually painless, subcutaneous injection.	Carbon	39-45	TOR signaling pathway regulator	Homo sapiens	86-89	
2326537-5	1990	Forty two months postimplantation chronic threshold (measured at 0.5 msec pulse-width) was 1.6 +/- 0.6 V for platinum electrodes and 1 +/- 0.3 V for 12 mm2 carbon tip leads (p less than 0.001).	Carbon	156-162	TOR signaling pathway regulator	Homo sapiens	163-166	
2326537-8	1990	The new activated carbon tip leads have lower chronic pacing thresholds than platinum electrodes with the same pacing area.	Carbon	18-24	TOR signaling pathway regulator	Homo sapiens	25-28	
35213803-0	2022	In Situ Monitoring of Extracellular K+ Using the Potentiometric Mode of Scanning Electrochemical Microscopy with a Carbon-Based Potassium Ion-Selective Tip.	Carbon	115-121	TOR signaling pathway regulator	Homo sapiens	152-155	
35213803-5	2022	Based on multi-wall carbon nanotubes as a transduction layer, the K+-ISE SECM tip realizes both the plotting of approach curves to position the tip for in situ detection and the recording of potential responses.	Carbon	20-26	TOR signaling pathway regulator	Homo sapiens	78-81	
35213803-5	2022	Based on multi-wall carbon nanotubes as a transduction layer, the K+-ISE SECM tip realizes both the plotting of approach curves to position the tip for in situ detection and the recording of potential responses.	Carbon	20-26	TOR signaling pathway regulator	Homo sapiens	144-147	
35105101-0	2022	Tip-enhanced Raman spectroscopy of confined carbon chains.	Carbon	44-50	TOR signaling pathway regulator	Homo sapiens	0-3	
35016164-1	2022	We have constructed a new nanomanipulator (NM) in a field emission scanning electron microscope (FE-SEM) to fabricate carbon nanotube (CNT) tip to precisely adjust the length and attachment angle of CNT onto the mother atomic force microscope (AFM) tip.	Carbon	118-124	TOR signaling pathway regulator	Homo sapiens	140-143	
35016164-1	2022	We have constructed a new nanomanipulator (NM) in a field emission scanning electron microscope (FE-SEM) to fabricate carbon nanotube (CNT) tip to precisely adjust the length and attachment angle of CNT onto the mother atomic force microscope (AFM) tip.	Carbon	118-124	TOR signaling pathway regulator	Homo sapiens	249-252