Reprint of “Using single-molecule magnets as analyte-recognition compounds in photo-electric chemical sensors: Recent results from [Mn12O12(O2CCH3)16(H2O)4]·2CH3COOH·4H2O, and [Mn12O12(O2CPh)16(H2O)4]”

Joseph D. Henthorn; Netra Mishra; Christopher D. Haun; Ana L. Castro; Hunter G. Douglas; Matthew Pegram; Brian Stadelmaier; Jay S. Huebner; Christos Lampropoulos

doi:10.1016/j.poly.2013.01.017

Reprint of “Using single-molecule magnets as analyte-recognition compounds in photo-electric chemical sensors: Recent results from [Mn12O12(O2CCH3)16(H2O)4]·2CH3COOH·4H2O, and [Mn12O12(O2CPh)16(H2O)4]”

Joseph D. Henthorn, Netra Mishra, Christopher D. Haun, Ana L. Castro, Hunter G. Douglas, Matthew Pegram, Brian Stadelmaier, Jay S. Huebner, Christos Lampropoulos

University of North Florida

Producción científica: Article › revisión exhaustiva

Resumen

Single-molecule magnets (SMMs) were tested for their chemical sensing properties on photo-electric chemical sensors. Photo-electric chemical sensors or PECS are contact sensors for the detection of various chemical analytes, with a wide range of possible applications, using different analyte-recognition compounds (ARCs). The ARC-analyte interaction on the surface of the sensor generates photovoltages (PVs), due to the Becquerel effect, as in photovoltaics. Detection of analyte is documented as modified PVs upon excitation of both the analyte and the ARC using an optical source providing fast light flashes (<10 μs). Single crystals of the SMMs were grown, and were applied mechanically on the PECS electrodes. The background-corrected data revealed significant ARC activity for the two SMMs considered, namely [Mn12O12(O2CCH3)16(H2O)4]·2CH3COOH·4H2O, and [Mn12O12(O2CPh)16(H2O)4], for vapor and liquid analytes, respectively.

Idioma original	American English
Páginas (desde-hasta)	62-66
Número de páginas	5
Publicación	Polyhedron
Volumen	53
DOI	https://doi.org/10.1016/j.poly.2013.01.017
Estado	Published - abr 1 2013

ASJC Scopus Subject Areas

Analytical Chemistry

Disciplines

Analytical Chemistry

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10.1016/j.poly.2013.01.017Licencia: Unspecified

Citar esto

Henthorn, J. D., Mishra, N., Haun, C. D., Castro, A. L., Douglas, H. G., Pegram, M., Stadelmaier, B., Huebner, J. S., & Lampropoulos, C. (2013). Reprint of “Using single-molecule magnets as analyte-recognition compounds in photo-electric chemical sensors: Recent results from [Mn12O12(O2CCH3)16(H2O)4]·2CH3COOH·4H2O, and [Mn12O12(O2CPh)16(H2O)4]”. Polyhedron, 53, 62-66. https://doi.org/10.1016/j.poly.2013.01.017

Reprint of “Using single-molecule magnets as analyte-recognition compounds in photo-electric chemical sensors: Recent results from [Mn12O12(O2CCH3)16(H2O)4]·2CH3COOH·4H2O, and [Mn12O12(O2CPh)16(H2O)4]”. / Henthorn, Joseph D.; Mishra, Netra; Haun, Christopher D. et al.
En: Polyhedron, Vol. 53, 01.04.2013, p. 62-66.

Producción científica: Article › revisión exhaustiva

Henthorn, JD, Mishra, N, Haun, CD, Castro, AL, Douglas, HG, Pegram, M, Stadelmaier, B, Huebner, JS & Lampropoulos, C 2013, 'Reprint of “Using single-molecule magnets as analyte-recognition compounds in photo-electric chemical sensors: Recent results from [Mn12O12(O2CCH3)16(H2O)4]·2CH3COOH·4H2O, and [Mn12O12(O2CPh)16(H2O)4]”', Polyhedron, vol. 53, pp. 62-66. https://doi.org/10.1016/j.poly.2013.01.017

@article{d9913212dcca4982a332109d4fcece7e,

title = "Reprint of “Using single-molecule magnets as analyte-recognition compounds in photo-electric chemical sensors: Recent results from [Mn12O12(O2CCH3)16(H2O)4]·2CH3COOH·4H2O, and [Mn12O12(O2CPh)16(H2O)4]”",

abstract = "Single-molecule magnets (SMMs) were tested for their chemical sensing properties on photo-electric chemical sensors. Photo-electric chemical sensors or PECS are contact sensors for the detection of various chemical analytes, with a wide range of possible applications, using different analyte-recognition compounds (ARCs). The ARC-analyte interaction on the surface of the sensor generates photovoltages (PVs), due to the Becquerel effect, as in photovoltaics. Detection of analyte is documented as modified PVs upon excitation of both the analyte and the ARC using an optical source providing fast light flashes (<10 μs). Single crystals of the SMMs were grown, and were applied mechanically on the PECS electrodes. The background-corrected data revealed significant ARC activity for the two SMMs considered, namely [Mn12O12(O2CCH3)16(H2O)4]·2CH3COOH·4H2O, and [Mn12O12(O2CPh)16(H2O)4], for vapor and liquid analytes, respectively.",

keywords = "Chemical sensors, Contact sensors, Photoelectric effect, Single-molecule magnets, Transition metal clusters",

author = "Henthorn, {Joseph D.} and Netra Mishra and Haun, {Christopher D.} and Castro, {Ana L.} and Douglas, {Hunter G.} and Matthew Pegram and Brian Stadelmaier and Huebner, {Jay S.} and Christos Lampropoulos",

note = "Joseph D. Henthorn, Netra Mishra, Christopher D. Haun, Ana L. Castro, Hunter G. Douglas, Matthew Pegram, Brian Stadelmaier, Jay S. Huebner, Christos Lampropoulos, Using single-molecule magnets as analyte-recognition compounds in photo-electric chemical sensors: Recent results from [Mn12O12(O2CCH3)16(H2O)4]·2CH3COOH·4H2O, and [Mn12O12(O2CPh)16(H2O)4], Polyhedron, Volume 53, 2013, Pages 62-66, ISSN 0277-5387, https://doi.org/10.1016/j.poly.2013.01.017",

year = "2013",

month = apr,

day = "1",

doi = "10.1016/j.poly.2013.01.017",

language = "American English",

volume = "53",

pages = "62--66",

journal = "Polyhedron",

issn = "0277-5387",

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T1 - Reprint of “Using single-molecule magnets as analyte-recognition compounds in photo-electric chemical sensors

T2 - Recent results from [Mn12O12(O2CCH3)16(H2O)4]·2CH3COOH·4H2O, and [Mn12O12(O2CPh)16(H2O)4]”

AU - Henthorn, Joseph D.

AU - Mishra, Netra

AU - Haun, Christopher D.

AU - Castro, Ana L.

AU - Douglas, Hunter G.

AU - Pegram, Matthew

AU - Stadelmaier, Brian

AU - Huebner, Jay S.

AU - Lampropoulos, Christos

N1 - Joseph D. Henthorn, Netra Mishra, Christopher D. Haun, Ana L. Castro, Hunter G. Douglas, Matthew Pegram, Brian Stadelmaier, Jay S. Huebner, Christos Lampropoulos, Using single-molecule magnets as analyte-recognition compounds in photo-electric chemical sensors: Recent results from [Mn12O12(O2CCH3)16(H2O)4]·2CH3COOH·4H2O, and [Mn12O12(O2CPh)16(H2O)4], Polyhedron, Volume 53, 2013, Pages 62-66, ISSN 0277-5387, https://doi.org/10.1016/j.poly.2013.01.017

PY - 2013/4/1

Y1 - 2013/4/1

N2 - Single-molecule magnets (SMMs) were tested for their chemical sensing properties on photo-electric chemical sensors. Photo-electric chemical sensors or PECS are contact sensors for the detection of various chemical analytes, with a wide range of possible applications, using different analyte-recognition compounds (ARCs). The ARC-analyte interaction on the surface of the sensor generates photovoltages (PVs), due to the Becquerel effect, as in photovoltaics. Detection of analyte is documented as modified PVs upon excitation of both the analyte and the ARC using an optical source providing fast light flashes (<10 μs). Single crystals of the SMMs were grown, and were applied mechanically on the PECS electrodes. The background-corrected data revealed significant ARC activity for the two SMMs considered, namely [Mn12O12(O2CCH3)16(H2O)4]·2CH3COOH·4H2O, and [Mn12O12(O2CPh)16(H2O)4], for vapor and liquid analytes, respectively.

AB - Single-molecule magnets (SMMs) were tested for their chemical sensing properties on photo-electric chemical sensors. Photo-electric chemical sensors or PECS are contact sensors for the detection of various chemical analytes, with a wide range of possible applications, using different analyte-recognition compounds (ARCs). The ARC-analyte interaction on the surface of the sensor generates photovoltages (PVs), due to the Becquerel effect, as in photovoltaics. Detection of analyte is documented as modified PVs upon excitation of both the analyte and the ARC using an optical source providing fast light flashes (<10 μs). Single crystals of the SMMs were grown, and were applied mechanically on the PECS electrodes. The background-corrected data revealed significant ARC activity for the two SMMs considered, namely [Mn12O12(O2CCH3)16(H2O)4]·2CH3COOH·4H2O, and [Mn12O12(O2CPh)16(H2O)4], for vapor and liquid analytes, respectively.

KW - Chemical sensors

KW - Contact sensors

KW - Photoelectric effect

KW - Single-molecule magnets

KW - Transition metal clusters

U2 - 10.1016/j.poly.2013.01.017

DO - 10.1016/j.poly.2013.01.017

M3 - Article

SN - 0277-5387

VL - 53

SP - 62

EP - 66

JO - Polyhedron

JF - Polyhedron

ER -