PMID-sentid Pub_year Sent_text comp_official_name comp_offsetprotein_name organism prot_offset 27488937-1 2016 Nanoparticulate SnO2 produced by a hydrothermal method was characterised by BET, XRD, TGA-MS and in situ variable temperature diffuse reflectance infra red spectroscopy (DRIFTS) to determine the surface behaviour of water. Tin(IV) oxide 16-20 delta/notch like EGF repeat containing Homo sapiens 76-79 26628211-4 2016 A significant rise in the BET surface area is observed for SnO2 pillared carbon, when compared to pristine GO. Tin(IV) oxide 59-63 delta/notch like EGF repeat containing Homo sapiens 26-29 33691290-3 2021 The structure and morphology characteristics of SnO2 nanotube were examined via X-ray diffraction, BET, and scanning electron microscopy, respectively. Tin(IV) oxide 48-52 delta/notch like EGF repeat containing Homo sapiens 99-102 30903814-6 2019 Results represented that the effect of ultrasonic power and irradiation time on MnO2/SnO2 catalysts exerted a great influence on the BET surface area and average particle diameter. Tin(IV) oxide 85-89 delta/notch like EGF repeat containing Homo sapiens 133-136 24980621-4 2014 The resultant nanoporous polymer/SnO2 NPs composites with adjustable SnO2 contents possess high BET surface areas, large pore sizes and pore volumes, thus they exhibit high adsorptive capacities for H2O vapor. Tin(IV) oxide 33-37 delta/notch like EGF repeat containing Homo sapiens 96-99 24980621-4 2014 The resultant nanoporous polymer/SnO2 NPs composites with adjustable SnO2 contents possess high BET surface areas, large pore sizes and pore volumes, thus they exhibit high adsorptive capacities for H2O vapor. Tin(IV) oxide 69-73 delta/notch like EGF repeat containing Homo sapiens 96-99 23088260-4 2012 Detailed characterization of the structure, morphology, and chemical composition reveals that the synthesized material, 50 nm SnO2 porous nanospheres possess BET surface area of about 160 m2/g. Tin(IV) oxide 126-130 delta/notch like EGF repeat containing Homo sapiens 158-161