PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
33972848-1	2021	This research involved carrying out a unique micro-mesoporous carbon particle incorporation into P84 co-polyimide membrane for improved gas separation performance.	Carbon	62-68	gastrin	Homo sapiens	136-139	
31689974-0	2019	Gas Biosensor Arrays Based on Single-Stranded DNA-Functionalized Single-Walled Carbon Nanotubes for the Detection of Volatile Organic Compound Biomarkers Released by Huanglongbing Disease-Infected Citrus Trees.	Carbon	79-85	gastrin	Homo sapiens	0-3	
31444200-9	2019	These findings suggest that past HF activity in streams can affect the microbial community response to environmental perturbation such as that caused by the biocide DBNPA.IMPORTANCE Unconventional oil and gas activity can affect pH, total organic carbon, and microbial communities in surface water, altering their ability to respond to new environmental and/or anthropogenic perturbations.	Carbon	247-253	gastrin	Homo sapiens	205-208	
34742147-4	2022	When the background gas is pure nitrogen and a mixture of nitrogen and carbon dioxide, the recovery effect of this method on methane is both close to the theoretical value when the background gas is air.	Carbon	71-77	gastrin	Homo sapiens	20-23	
34657897-2	2021	It adsorbs toxic gaseous matters onto the surface of various granular adsorbents, such as silica gel or activated carbon packed in a thin glass tube, for quantitative analysis by gas chromatography.	Carbon	114-120	gastrin	Homo sapiens	179-182	
34914376-0	2021	Interfacial Ammonia Selectivity, Atmospheric Passivation, and Molecular Identification in Graphene-Nanopored Activated Carbon Molecular-Sieve Gas Sensors.	Carbon	119-125	gastrin	Homo sapiens	142-145	
34914376-3	2021	Herein, target gas sensing at the graphene-activated carbon interface of a graphene-nanopored activated carbon molecular-sieve sensor obtained via the postlithographic pyrolysis of Novolac resin residues on graphene nanoribbons is shown to simultaneously induce ammonia selectivity and atmospheric passivation of graphene.	Carbon	53-59	gastrin	Homo sapiens	15-18	
34914376-3	2021	Herein, target gas sensing at the graphene-activated carbon interface of a graphene-nanopored activated carbon molecular-sieve sensor obtained via the postlithographic pyrolysis of Novolac resin residues on graphene nanoribbons is shown to simultaneously induce ammonia selectivity and atmospheric passivation of graphene.	Carbon	104-110	gastrin	Homo sapiens	15-18	
34963966-0	2021	Experimental Analysis and Numerical Simulation of the Stability of Geological Storage of CO2: A Case Study of Transforming a Depleted Gas Reservoir into a Carbon Sink Carrier.	Carbon	155-161	gastrin	Homo sapiens	134-137	
34835803-0	2021	Tunable Low Crystallinity Carbon Nanotubes/Silicon Schottky Junction Arrays and Their Potential Application for Gas Sensing.	Carbon	26-32	gastrin	Homo sapiens	112-115	
34288694-0	2021	N2 Gas Adsorption Sites of Single-Walled Carbon Nanotube Bundles: Identifying Interstitial Channels at Very Low Relative Pressure.	Carbon	41-47	gastrin	Homo sapiens	3-6	
34546700-0	2021	Structural Study of Polyacrylonitrile-Based Carbon Nanofibers for Understanding Gas Adsorption.	Carbon	44-50	gastrin	Homo sapiens	80-83	
34677521-1	2021	Gas separation is of significant importance for many industrial processes including chemical purification, carbon capture, and fuel production (...).	Carbon	107-113	gastrin	Homo sapiens	0-3	
34578617-0	2021	Effect of Multi-Walled Carbon Nanotubes-Based Nanofluids on Marine Gas Turbine Intercooler Performance.	Carbon	23-29	gastrin	Homo sapiens	67-70	
34577697-0	2021	PEI-Functionalized Carbon Nanotube Thin Film Sensor for CO2 Gas Detection at Room Temperature.	Carbon	19-25	gastrin	Homo sapiens	60-63	
35214469-0	2022	Facile Synthesis of Polyaniline/Carbon-Coated Hollow Indium Oxide Nanofiber Composite with Highly Sensitive Ammonia Gas Sensor at the Room Temperature.	Carbon	32-38	gastrin	Homo sapiens	116-119	
34368567-0	2021	Preparation of Activated Carbon Doped with Graphene Oxide Porous Materials and Their High Gas Adsorption Performance.	Carbon	25-31	gastrin	Homo sapiens	90-93	
34368567-1	2021	It is still a great challenge to develop a new porous carbon adsorbent with excellent separation performance and to recover low-concentration CH4 in coal mine gas.	Carbon	54-60	gastrin	Homo sapiens	159-162	
34467289-7	2021	Using a commercially available benchmark IrO2 catalyst deposited on a carbon gas diffusion layer (GDL), it is shown that key parameters such as the OER mass activity, the activation energy, and even reasonable estimates of the exchange current density can be extracted in a realistic range of catalyst loadings for PEMWEs.	Carbon	70-76	gastrin	Homo sapiens	77-80	
35294315-8	2022	Implications  Adsorptive characteristics by activated carbon materials were examined for benzene and chlorobenzene in gas within the temperature range of 150 to 190  C.  The adsorption amount of benzene at high temperature and low concentration range below 20 ppm was in the range of 103 to 104 mg/kg-adsorbent.	Carbon	54-60	gastrin	Homo sapiens	118-121	
35072350-1	2022	Functionalized porous materials could play a key role in improving the efficiency of gas separation processes as required by applications such as carbon capture and storage (CCS) and across the hydrogen value chain.	Carbon	146-152	gastrin	Homo sapiens	85-88	
34201568-0	2021	Biomass Related Highly Porous Metal Free Carbon for Gas Storage and Electrocatalytic Applications.	Carbon	41-47	gastrin	Homo sapiens	52-55	
35297628-4	2022	Comparison results show that reasonably good agreement is achieved between the SLD model and GCMC simulations for both the gas adsorption isotherms and discrete-density profiles in multiwalled carbon nanoslit and nanotube.	Carbon	193-199	gastrin	Homo sapiens	123-126	
35268729-0	2022	Impact of Impure Gas on CO2 Capture from Flue Gas Using Carbon Nanotubes: A Molecular Simulation Study.	Carbon	56-62	gastrin	Homo sapiens	17-20	
35268729-0	2022	Impact of Impure Gas on CO2 Capture from Flue Gas Using Carbon Nanotubes: A Molecular Simulation Study.	Carbon	56-62	gastrin	Homo sapiens	46-49	
35268729-1	2022	We used a grand canonical Monte Carlo simulation to study the influence of impurities including water vapor, SO2, and O2 in the flue gas on the adsorption of CO2/N2 mixture in carbon nanotubes (CNTs) and carboxyl doped CNT arrays.	Carbon	176-182	gastrin	Homo sapiens	133-136	
35077132-5	2022	The erosion rates and layer thicknesses were measured using differential interferometric profiling (DIP), demonstrating a close correlation between the coating thickness and the carbon/hydrogen gas ratio.	Carbon	178-184	gastrin	Homo sapiens	194-197	
35214469-4	2022	The gas-sensing performances of the fabricated PANI/hollow C#In2O3 nanofiber composite sensor were estimated at room temperature, and the response value of the composite sensor with an exposure of 1 ppm NH3 was 18.2, which was about 5.74 times larger than that of the pure PANI sensor.	Carbon	59-60	gastrin	Homo sapiens	4-7	
35128270-1	2022	Excessive CO2 emissions have resulted in global warming and are a serious threat to the life of people, various strategies have been implemented to cut carbon emissions, and one of them is the use of a gas separation membrane to capture CO2 effectively.	Carbon	152-158	gastrin	Homo sapiens	202-205	
33876814-6	2021	This review examines recent studies of both experiments and theoretical modeling of gas hydrates within four categories of nanoporous material hosts that include porous carbons, metal-organic frameworks, graphene nanoslits, and carbon nanotubes.	Carbon	169-176	gastrin	Homo sapiens	84-87	
35054626-0	2022	Analysis of Influencing Factors on the Gas Separation Performance of Carbon Molecular Sieve Membrane Using Machine Learning Technique.	Carbon	69-75	gastrin	Homo sapiens	39-42	
35054626-1	2022	Gas separation performance of the carbon molecular sieve (CMS) membrane is influenced by multiple factors including the microstructural characteristics of carbon and gas properties.	Carbon	34-40	gastrin	Homo sapiens	0-3	
35054626-1	2022	Gas separation performance of the carbon molecular sieve (CMS) membrane is influenced by multiple factors including the microstructural characteristics of carbon and gas properties.	Carbon	34-40	gastrin	Homo sapiens	166-169	
35054626-1	2022	Gas separation performance of the carbon molecular sieve (CMS) membrane is influenced by multiple factors including the microstructural characteristics of carbon and gas properties.	Carbon	155-161	gastrin	Homo sapiens	0-3	
35054626-4	2022	Based on the calculation results, the inferred key factors affecting the gas permeability of CMS membrane were the fractional free volume (FFV) of the precursor, the average interlayer spacing of graphite-like carbon sheet, and the final carbonization temperature.	Carbon	210-216	gastrin	Homo sapiens	73-76	
35054626-5	2022	Moreover, the most influential factors for the gas separation performance were supposed to be the two structural factors of precursor influencing the porosity of CMS membrane, the carbon residue and the FFV, and the ratio of the gas kinetic diameters.	Carbon	180-186	gastrin	Homo sapiens	47-50	
33925077-0	2021	Fabrication of Carbon Nanomaterials Using Laser Scribing on Copper Nanoparticles-Embedded Polyacrylonitrile Films and Their Application in a Gas Sensor.	Carbon	15-21	gastrin	Homo sapiens	141-144	
33925077-7	2021	In addition, the fabricated gas sensor consists of carbon materials and quartz with excellent thermal stability; therefore, it is expected to operate as a gas sensor even in extreme environments.	Carbon	51-57	gastrin	Homo sapiens	28-31	
33925077-7	2021	In addition, the fabricated gas sensor consists of carbon materials and quartz with excellent thermal stability; therefore, it is expected to operate as a gas sensor even in extreme environments.	Carbon	51-57	gastrin	Homo sapiens	155-158	
33876814-6	2021	This review examines recent studies of both experiments and theoretical modeling of gas hydrates within four categories of nanoporous material hosts that include porous carbons, metal-organic frameworks, graphene nanoslits, and carbon nanotubes.	Carbon	169-175	gastrin	Homo sapiens	84-87	
33599041-3	2021	Here, an ionotronic gas-sensing sticker (IGS) is demonstrated, implemented with free-standing polymer electrolyte (ionic thermoplastic polyurethane, i-TPU) as a sensing channel and inkjet-printed stretchable carbon nanotube electrodes, which enables the IGS to exhibit high sensitivity, selectivity, stability (against mechanical stress, humidity, and temperature), and scalable fabrication, simultaneously.	Carbon	208-214	gastrin	Homo sapiens	20-23	
33872517-0	2021	Stepping on the Gas to a Circular Economy: Accelerating Development of Carbon-Negative Chemical Production from Gas Fermentation.	Carbon	71-77	gastrin	Homo sapiens	16-19	
33872517-0	2021	Stepping on the Gas to a Circular Economy: Accelerating Development of Carbon-Negative Chemical Production from Gas Fermentation.	Carbon	71-77	gastrin	Homo sapiens	112-115	
33872517-3	2021	Gas fermentation using carbon-fixing microorganisms offers an economically viable and scalable solution with unique feedstock and product flexibility that has been commercialized recently.	Carbon	23-29	gastrin	Homo sapiens	0-3	
33669424-7	2021	The revolution of integrating developed novel nanomaterials such as nanoparticles, carbon nanotubes, nanofibers and activated carbon, in polymers, have instigated revitalizing and favourable inventive nanotechnologies for the treatment of wastewater and gas separation.	Carbon	126-132	gastrin	Homo sapiens	254-257	
33752360-3	2021	Here, we study the effect of interconnections on gas adsorption in materials with spherical pores, such as three-dimensionally ordered mesoporous (3DOm) carbons.	Carbon	153-160	gastrin	Homo sapiens	49-52	
33379099-0	2021	A simple and efficient Solid-Phase Microextraction - Gas Chromatography - Mass Spectrometry method for the determination of fragrance materials at ultra-trace levels in water samples using multi-walled carbon nanotubes as innovative coating.	Carbon	202-208	gastrin	Homo sapiens	53-56	
33170611-0	2020	New Insights into Co-pyrolysis among Graphitic Carbon Nitride and Organic Compounds: Carbonaceous Gas Fragments Induced Synthesis of Ultrathin Mesoporous Nitrogen-Doped Carbon Nanosheets for Heterogeneous Catalysis.	Carbon	47-53	gastrin	Homo sapiens	98-101	
33383916-0	2020	Comparative Study of Phosgene Gas Sensing Using Carbon and Boron Nitride Nanomaterials-A DFT Approach.	Carbon	48-54	gastrin	Homo sapiens	30-33	
33143571-3	2022	To illustrate the applicability of the ACEI, the adsorption of CO2 and N2 was investigated on two kinds of activated carbons (ACs), which were used for gas purification and bulk separation.	Carbon	117-124	gastrin	Homo sapiens	152-155	
32886808-5	2020	Replacement of the Pd/C catalyst with one prepared in-situ by reduction of palladium trifluoroacetate with deuterium gas and dispersed upon micronised polytetrafluoroethylene, led to much reduced scrambling (typically 0-6% compared with up to 40% for palladium on carbon) and to high atom% abundance, regiospecific labelling.	Carbon	264-270	gastrin	Homo sapiens	117-120	
32604523-0	2020	Growing Properties of Carbon Nanowalls According to the Hydrogen Gas Ratio.	Carbon	22-28	gastrin	Homo sapiens	65-68	
32314913-0	2020	Metal-Organic Complexes@Melamine Foam Template Strategy to Prepare Three-Dimensional Porous Carbon with Hollow Spheres Structures for Efficient Organic Vapor and Small Molecule Gas Adsorption.	Carbon	92-98	gastrin	Homo sapiens	177-180	
33066660-0	2020	Response of Palladium and Carbon Nanotube Composite Films to Hydrogen Gas and Behavior of Conductive Carriers.	Carbon	26-32	gastrin	Homo sapiens	70-73	
32872479-0	2020	Oriented Carbon Nanostructures from Plasma Reformed Resorcinol-Formaldehyde Polymer Gels for Gas Sensor Applications.	Carbon	9-15	gastrin	Homo sapiens	93-96	
32318537-0	2020	The Functionalized Single-Walled Carbon Nanotubes Gas Sensor With Pd Nanoparticles for Hydrogen Detection in the High-Voltage Transformers.	Carbon	33-39	gastrin	Homo sapiens	50-53	
32318537-1	2020	Single-walled carbon nanotubes (SWCNTs) have been widely discussed and applied as novel gas sensing nanomaterials.	Carbon	14-20	gastrin	Homo sapiens	88-91