SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2099871392> ?p ?o ?g. }

Showing items 1 to 100 of ±148 with 100 items per page.

W2099871392 endingPage "175501" @default.
W2099871392 startingPage "175501" @default.
W2099871392 abstract "We demonstrate a new method for tailoring the selectivity of chemical sensors using semiconductor nanowires (NWs) decorated with metal and metal oxide multicomponent nanoclusters (NCs). Here we present the change of selectivity of titanium dioxide (TiO2) nanocluster-coated gallium nitride (GaN) nanowire sensor devices on the addition of platinum (Pt) nanoclusters. The hybrid sensor devices were developed by fabricating two-terminal devices using individual GaN NWs followed by the deposition of TiO2 and/or Pt nanoclusters (NCs) using the sputtering technique. This paper present the sensing characteristics of GaN/(TiO2–Pt) nanowire–nanocluster (NWNC) hybrids and GaN/(Pt) NWNC hybrids, and compare their selectivity with that of the previously reported GaN/TiO2 sensors. The GaN/TiO2 NWNC hybrids showed remarkable selectivity to benzene and related aromatic compounds, with no measurable response for other analytes. Addition of Pt NCs to GaN/TiO2 sensors dramatically altered their sensing behavior, making them sensitive only to methanol, ethanol and hydrogen, but not to any other chemicals we tested. The GaN/(TiO2–Pt) hybrids were able to detect ethanol and methanol concentrations as low as 100 nmol mol−1 (ppb) in air in approximately 100 s, and hydrogen concentrations from 1 µmol mol−1 (ppm) to 1% in nitrogen in less than 60 s. However, GaN/Pt NWNC hybrids showed limited sensitivity only towards hydrogen and not towards any alcohols. All these hybrid sensors worked at room temperature and are photomodulated, i.e. they responded to analytes only in the presence of ultraviolet (UV) light. We propose a qualitative explanation based on the heat of adsorption, ionization energy and solvent polarity to explain the observed selectivity of the different hybrids. These results are significant from the standpoint of applications requiring room-temperature hydrogen sensing and sensitive alcohol monitoring. These results demonstrate the tremendous potential for tailoring the selectivity of the hybrid nanosensors for a multitude of environmental and industrial sensing applications." @default.
W2099871392 created "2016-06-24" @default.
W2099871392 creator A5014863276 @default.
W2099871392 creator A5030539968 @default.
W2099871392 creator A5050074868 @default.
W2099871392 creator A5060898507 @default.
W2099871392 creator A5079837274 @default.
W2099871392 creator A5088628770 @default.
W2099871392 creator A5091851475 @default.
W2099871392 date "2012-04-05" @default.
W2099871392 modified "2023-10-06" @default.
W2099871392 title "Methanol, ethanol and hydrogen sensing using metal oxide and metal (TiO<sub>2</sub>–Pt) composite nanoclusters on GaN nanowires: a new route towards tailoring the selectivity of nanowire/nanocluster chemical sensors" @default.
W2099871392 cites W1966041701 @default.
W2099871392 cites W1966634721 @default.
W2099871392 cites W1973002607 @default.
W2099871392 cites W1974073406 @default.
W2099871392 cites W1976592308 @default.
W2099871392 cites W1976632818 @default.
W2099871392 cites W1978872589 @default.
W2099871392 cites W1979252696 @default.
W2099871392 cites W1980379070 @default.
W2099871392 cites W1983316131 @default.
W2099871392 cites W1983371303 @default.
W2099871392 cites W1984315444 @default.
W2099871392 cites W1987416224 @default.
W2099871392 cites W1994426754 @default.
W2099871392 cites W1997531035 @default.
W2099871392 cites W1998722051 @default.
W2099871392 cites W2002656034 @default.
W2099871392 cites W2003567100 @default.
W2099871392 cites W2004280018 @default.
W2099871392 cites W2004972070 @default.
W2099871392 cites W2005862796 @default.
W2099871392 cites W2008836657 @default.
W2099871392 cites W2009453518 @default.
W2099871392 cites W2009475773 @default.
W2099871392 cites W2009600186 @default.
W2099871392 cites W2014990097 @default.
W2099871392 cites W2015143486 @default.
W2099871392 cites W2017900419 @default.
W2099871392 cites W2019434195 @default.
W2099871392 cites W2022611059 @default.
W2099871392 cites W2022689845 @default.
W2099871392 cites W2028666400 @default.
W2099871392 cites W2031990816 @default.
W2099871392 cites W2035556653 @default.
W2099871392 cites W2038713674 @default.
W2099871392 cites W2038811481 @default.
W2099871392 cites W2040457931 @default.
W2099871392 cites W2049947593 @default.
W2099871392 cites W2052097886 @default.
W2099871392 cites W2055309529 @default.
W2099871392 cites W2061839692 @default.
W2099871392 cites W2070228886 @default.
W2099871392 cites W2070902743 @default.
W2099871392 cites W2071790669 @default.
W2099871392 cites W2080303482 @default.
W2099871392 cites W2090141637 @default.
W2099871392 cites W2101851133 @default.
W2099871392 cites W2110852276 @default.
W2099871392 cites W2112959450 @default.
W2099871392 cites W2124187419 @default.
W2099871392 cites W2145274462 @default.
W2099871392 cites W2148684064 @default.
W2099871392 cites W2151833078 @default.
W2099871392 cites W2154271793 @default.
W2099871392 cites W2158477740 @default.
W2099871392 cites W2161939334 @default.
W2099871392 cites W2331039536 @default.
W2099871392 cites W2953128392 @default.
W2099871392 doi "https://doi.org/10.1088/0957-4484/23/17/175501" @default.
W2099871392 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/22481611" @default.
W2099871392 hasPublicationYear "2012" @default.
W2099871392 type Work @default.
W2099871392 sameAs 2099871392 @default.
W2099871392 citedByCount "66" @default.
W2099871392 countsByYear W20998713922012 @default.
W2099871392 countsByYear W20998713922013 @default.
W2099871392 countsByYear W20998713922014 @default.
W2099871392 countsByYear W20998713922015 @default.
W2099871392 countsByYear W20998713922016 @default.
W2099871392 countsByYear W20998713922017 @default.
W2099871392 countsByYear W20998713922018 @default.
W2099871392 countsByYear W20998713922019 @default.
W2099871392 countsByYear W20998713922020 @default.
W2099871392 countsByYear W20998713922021 @default.
W2099871392 countsByYear W20998713922022 @default.
W2099871392 countsByYear W20998713922023 @default.
W2099871392 crossrefType "journal-article" @default.
W2099871392 hasAuthorship W2099871392A5014863276 @default.
W2099871392 hasAuthorship W2099871392A5030539968 @default.
W2099871392 hasAuthorship W2099871392A5050074868 @default.
W2099871392 hasAuthorship W2099871392A5060898507 @default.
W2099871392 hasAuthorship W2099871392A5079837274 @default.
W2099871392 hasAuthorship W2099871392A5088628770 @default.
W2099871392 hasAuthorship W2099871392A5091851475 @default.
W2099871392 hasConcept C118792377 @default.
W2099871392 hasConcept C127413603 @default.