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Detection of Botulinum Toxins A, B, E, and F in Foods by Endopep-MS.

Journal of agricultural and food chemistry

Kalb SR, Krilich JC, Dykes JK, Lúquez C, Maslanka SE, Barr JR.
PMID: 25578960
J Agric Food Chem. 2015 Feb 04;63(4):1133-1141. doi: 10.1021/jf505482b. Epub 2015 Jan 22.

Botulism is caused by exposure to botulinum neurotoxins (BoNTs). BoNTs are proteins secreted by some species of clostridia; these neurotoxins are known to interfere with nerve impulse transmission, thus causing paralysis. Botulism may be contracted through consumption of food...

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Kalb SR, Krilich JC, Dykes JK, et al. Detection of Botulinum Toxins A, B, E, and F in Foods by Endopep-MS. J Agric Food Chem. 2015;63(4):1133-1141doi: 10.1021/jf505482b.
Kalb, S. R., Krilich, J. C., Dykes, J. K., Lúquez, C., Maslanka, S. E., & Barr, J. R. (2015). Detection of Botulinum Toxins A, B, E, and F in Foods by Endopep-MS. Journal of agricultural and food chemistry, 63(4), 1133-1141. https://doi.org/10.1021/jf505482b
Kalb, Suzanne R, et al. "Detection of Botulinum Toxins A, B, E, and F in Foods by Endopep-MS." Journal of agricultural and food chemistry vol. 63,4 (2015): 1133-1141. doi: https://doi.org/10.1021/jf505482b
Kalb SR, Krilich JC, Dykes JK, Lúquez C, Maslanka SE, Barr JR. Detection of Botulinum Toxins A, B, E, and F in Foods by Endopep-MS. J Agric Food Chem. 2015 Feb 04;63(4):1133-1141. doi: 10.1021/jf505482b. Epub 2015 Jan 22. PMID: 25578960; PMCID: PMC4523457.
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Twitter for travel medicine providers.

Journal of travel medicine

Mills DJ, Kohl SE.
PMID: 26988200
J Travel Med. 2016 Mar 16;23(3). doi: 10.1093/jtm/taw002. Print 2016 Mar.

Travel medicine practitioners, perhaps more so than medical practitioners working in other areas of medicine, require a constant flow of information to stay up-to-date, and provide best practice information and care to their patients. Many travel medicine providers are...

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Mills DJ, Kohl SE. Twitter for travel medicine providers. J Travel Med. 2016;23(3)doi: 10.1093/jtm/taw002.
Mills, D. J., & Kohl, S. E. (2016). Twitter for travel medicine providers. Journal of travel medicine, 23(3), . https://doi.org/10.1093/jtm/taw002
Mills, Deborah J, and Kohl, Sarah E. "Twitter for travel medicine providers." Journal of travel medicine vol. 23,3 (2016). doi: https://doi.org/10.1093/jtm/taw002
Mills DJ, Kohl SE. Twitter for travel medicine providers. J Travel Med. 2016 Mar 16;23(3). doi: 10.1093/jtm/taw002. Print 2016 Mar. PMID: 26988200.
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Weak Effect on T(c) with Increased Interchain Distances. Structure and Magnetic Properties of (meso-Tetrakis(3,5-di-tert-butyl-4-hydroxyphenyl)porphinato)manganese(III) Tetracyanoethenide, [Mn(III)TP'P](+)[TCNE](*-).

Inorganic chemistry

Böhm A, Vazquez C, McLean RS, Calabrese JC, Kalm SE, Manson JL, Epstein AJ, Miller JS.
PMID: 11666501
Inorg Chem. 1996 May 22;35(11):3083-3088. doi: 10.1021/ic9516267.

(meso-Tetrakis(3,5-di-tert-butyl-4-hydroxyphenyl)porphinato)manganese(III) tetracyanoethenide, [MnTP'P][TCNE], has been structurally and magnetically characterized. [MnTP'P][TCNE] (C(96)H(108)MnN(8)O(4)) belongs to the triclinicP&onemacr; (No. 2) space group with a = 8.597(2) Å, b = 14.756(4) Å, c = 17.573(5) Å, alpha = 101.16 (2) degrees, beta =...

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Böhm A, Vazquez C, McLean RS, et al. Weak Effect on T(c) with Increased Interchain Distances. Structure and Magnetic Properties of (meso-Tetrakis(3,5-di-tert-butyl-4-hydroxyphenyl)porphinato)manganese(III) Tetracyanoethenide, [Mn(III)TP'P](+)[TCNE](*-). Inorg Chem. 1996;35(11):3083-3088doi: 10.1021/ic9516267.
Böhm, A., Vazquez, C., McLean, R. S., Calabrese, J. C., Kalm, S. E., Manson, J. L., Epstein, A. J., & Miller, J. S. (1996). Weak Effect on T(c) with Increased Interchain Distances. Structure and Magnetic Properties of (meso-Tetrakis(3,5-di-tert-butyl-4-hydroxyphenyl)porphinato)manganese(III) Tetracyanoethenide, [Mn(III)TP'P](+)[TCNE](*-). Inorganic chemistry, 35(11), 3083-3088. https://doi.org/10.1021/ic9516267
Böhm, Arno, et al. "Weak Effect on T(c) with Increased Interchain Distances. Structure and Magnetic Properties of (meso-Tetrakis(3,5-di-tert-butyl-4-hydroxyphenyl)porphinato)manganese(III) Tetracyanoethenide, [Mn(III)TP'P](+)[TCNE](*-)." Inorganic chemistry vol. 35,11 (1996): 3083-3088. doi: https://doi.org/10.1021/ic9516267
Böhm A, Vazquez C, McLean RS, Calabrese JC, Kalm SE, Manson JL, Epstein AJ, Miller JS. Weak Effect on T(c) with Increased Interchain Distances. Structure and Magnetic Properties of (meso-Tetrakis(3,5-di-tert-butyl-4-hydroxyphenyl)porphinato)manganese(III) Tetracyanoethenide, [Mn(III)TP'P](+)[TCNE](*-). Inorg Chem. 1996 May 22;35(11):3083-3088. doi: 10.1021/ic9516267. PMID: 11666501.
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Three-pion interferometry results from central Pb+Pb collisions at 158A GeV/c.

Physical review letters

Aggarwal MM, Agnihotri A, Ahammed Z, Angelis AL, Antonenko V, Arefiev V, Astakhov V, Avdeitchikov V, Awes TC, Baba PV, Badyal SK, Barlag C, Bathe S, Batiounia B, Bernier T, Bhalla KB, Bhatia VS, Blume C, Bock R, Bohne EM, Böröcz Z, Bucher D, Buijs A, Büsching H, Carlen L, Chalyshev V, Chattopadhyay S, Cherbatchev R, Chujo T, Claussen A, Das AC, Decowski MP, Delagrange H, Djordjadze V, Donni P, Doubovik I, Dutt S, Dutta Majumdar MR, El Chenawi K, Eliseev S, Enosawa K, Foka P, Fokin S, Ganti MS, Garpman S, Gavrishchuk O, Geurts FJ, Ghosh TK, Glasow R, Gupta SK, Guskov B, Gustafsson HA, Gutbrod HH, Higuchi R, Hrivnacova I, Ippolitov M, Kalechofsky H, Kamermans R, Kampert KH, Karadjev K, Karpio K, Kato S, Kees S, Klein-Bösing C, Knoche S, Kolb BW, Kosarev I, Koutcheryaev I, Krümpel T, Kugler A, Kulinich P, Kurata M, Kurita K, Kuzmin N, Langbein I, Lebedev A, Lee YY, Löhner H, Luquin L, Mahapatra DP, Manko V, Martin M, Martínez G, Maximov A, Mgebrichvili G, Miake Y, Mir MF, Mishra GC, Miyamoto Y, Mohanty B, Mora MJ, Morrison D, Mukhopadhyay DS, Naef H, Nandi BK, Nayak SK, Nayak TK, Neumaier S, Nianine A, Nikitine V, Nikolaev S, Nilsson P, Nishimura S, Nomokonov P, Nystrand J, Obenshain FE, Oskarsson A, Otterlund I, Pachr M, Pavliouk S, Peitzmann T, Petracek V, Pinganaud W, Plasil F, von Poblotzki U, Purschke ML, Rak J, Raniwala R, Raniwala S, Ramamurthy VS, Rao NK, Retiere F, Reygers K, Roland G, Rosselet L, Roufanov I, Roy C, Rubio JM, Sako H, Sambyal SS, Santo R, Sato S, Schlagheck H, Schmidt HR, Schutz Y, Shabratova G, Shah TH, Sibiriak I, Siemiarczuk T, Silvermyr D, Sinha BC, Slavine N, Söderström K, Solomey N, Sørensen SP, Stankus P, Stefanek G, Steinberg P, Stenlund E, Stüken D, Sumbera M, Svensson T, Trivedi MD, Tsvetkov A, Tykarski L, Urbahn J, Pijll EC, Eijndhoven N, Nieuwenhuizen GJ, Vinogradov A, Viyogi YP, Vodopianov A, Vörös S, Wysłouch B, Yagi K, Yokota Y, Young GR.
PMID: 11005962
Phys Rev Lett. 2000 Oct 02;85(14):2895-9. doi: 10.1103/PhysRevLett.85.2895.

Three-particle correlations have been measured for identified pi(-) from central 158A GeV Pb+Pb collisions by the WA98 experiment at CERN. A substantial contribution of the genuine three-body correlation has been found as expected for a mainly chaotic and symmetric...

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Aggarwal MM, Agnihotri A, Ahammed Z, et al. Three-pion interferometry results from central Pb+Pb collisions at 158A GeV/c. Phys Rev Lett. 2000;85(14):2895-9doi: 10.1103/PhysRevLett.85.2895.
Aggarwal, M. M., Agnihotri, A., Ahammed, Z., Angelis, A. L., Antonenko, V., Arefiev, V., Astakhov, V., Avdeitchikov, V., Awes, T. C., Baba, P. V., Badyal, S. K., Barlag, C., Bathe, S., Batiounia, B., Bernier, T., Bhalla, K. B., Bhatia, V. S., Blume, C., Bock, R., Bohne, E. M., Böröcz, Z., Bucher, D., Buijs, A., Büsching, H., Carlen, L., Chalyshev, V., Chattopadhyay, S., Cherbatchev, R., Chujo, T., Claussen, A., Das, A. C., Decowski, M. P., Delagrange, H., Djordjadze, V., Donni, P., Doubovik, I., Dutt, S., Dutta Majumdar, M. R., El Chenawi, K., Eliseev, S., Enosawa, K., Foka, P., Fokin, S., Ganti, M. S., Garpman, S., Gavrishchuk, O., Geurts, F. J., Ghosh, T. K., Glasow, R., Gupta, S. K., Guskov, B., Gustafsson, H. A., Gutbrod, H. H., Higuchi, R., Hrivnacova, I., Ippolitov, M., Kalechofsky, H., Kamermans, R., Kampert, K. H., Karadjev, K., Karpio, K., Kato, S., Kees, S., Klein-Bösing, C., Knoche, S., Kolb, B. W., Kosarev, I., Koutcheryaev, I., Krümpel, T., Kugler, A., Kulinich, P., Kurata, M., Kurita, K., Kuzmin, N., Langbein, I., Lebedev, A., Lee, Y. Y., Löhner, H., Luquin, L., Mahapatra, D. P., Manko, V., Martin, M., Martínez, G., Maximov, A., Mgebrichvili, G., Miake, Y., Mir, M. F., Mishra, G. C., Miyamoto, Y., Mohanty, B., Mora, M. J., Morrison, D., Mukhopadhyay, D. S., Naef, H., Nandi, B. K., Nayak, S. K., Nayak, T. K., Neumaier, S., Nianine, A., Nikitine, V., Nikolaev, S., Nilsson, P., Nishimura, S., Nomokonov, P., Nystrand, J., Obenshain, F. E., Oskarsson, A., Otterlund, I., Pachr, M., Pavliouk, S., Peitzmann, T., Petracek, V., Pinganaud, W., Plasil, F., von Poblotzki, U., Purschke, M. L., Rak, J., Raniwala, R., Raniwala, S., Ramamurthy, V. S., Rao, N. K., Retiere, F., Reygers, K., Roland, G., Rosselet, L., Roufanov, I., Roy, C., Rubio, J. M., Sako, H., Sambyal, S. S., Santo, R., Sato, S., Schlagheck, H., Schmidt, H. R., Schutz, Y., Shabratova, G., Shah, T. H., Sibiriak, I., Siemiarczuk, T., Silvermyr, D., Sinha, B. C., Slavine, N., Söderström, K., Solomey, N., Sørensen, S. P., Stankus, P., Stefanek, G., Steinberg, P., Stenlund, E., Stüken, D., Sumbera, M., Svensson, T., Trivedi, M. D., Tsvetkov, A., Tykarski, L., Urbahn, J., Pijll, E. C., Eijndhoven, N., Nieuwenhuizen, G. J., Vinogradov, A., Viyogi, Y. P., Vodopianov, A., Vörös, S., Wysłouch, B., Yagi, K., Yokota, Y., Young, G. R. (2000). Three-pion interferometry results from central Pb+Pb collisions at 158A GeV/c. Physical review letters, 85(14), 2895-9. https://doi.org/10.1103/PhysRevLett.85.2895
Aggarwal, M M, et al. "Three-pion interferometry results from central Pb+Pb collisions at 158A GeV/c." Physical review letters vol. 85,14 (2000): 2895-9. doi: https://doi.org/10.1103/PhysRevLett.85.2895
Aggarwal MM, Agnihotri A, Ahammed Z, Angelis AL, Antonenko V, Arefiev V, Astakhov V, Avdeitchikov V, Awes TC, Baba PV, Badyal SK, Barlag C, Bathe S, Batiounia B, Bernier T, Bhalla KB, Bhatia VS, Blume C, Bock R, Bohne EM, Böröcz Z, Bucher D, Buijs A, Büsching H, Carlen L, Chalyshev V, Chattopadhyay S, Cherbatchev R, Chujo T, Claussen A, Das AC, Decowski MP, Delagrange H, Djordjadze V, Donni P, Doubovik I, Dutt S, Dutta Majumdar MR, El Chenawi K, Eliseev S, Enosawa K, Foka P, Fokin S, Ganti MS, Garpman S, Gavrishchuk O, Geurts FJ, Ghosh TK, Glasow R, Gupta SK, Guskov B, Gustafsson HA, Gutbrod HH, Higuchi R, Hrivnacova I, Ippolitov M, Kalechofsky H, Kamermans R, Kampert KH, Karadjev K, Karpio K, Kato S, Kees S, Klein-Bösing C, Knoche S, Kolb BW, Kosarev I, Koutcheryaev I, Krümpel T, Kugler A, Kulinich P, Kurata M, Kurita K, Kuzmin N, Langbein I, Lebedev A, Lee YY, Löhner H, Luquin L, Mahapatra DP, Manko V, Martin M, Martínez G, Maximov A, Mgebrichvili G, Miake Y, Mir MF, Mishra GC, Miyamoto Y, Mohanty B, Mora MJ, Morrison D, Mukhopadhyay DS, Naef H, Nandi BK, Nayak SK, Nayak TK, Neumaier S, Nianine A, Nikitine V, Nikolaev S, Nilsson P, Nishimura S, Nomokonov P, Nystrand J, Obenshain FE, Oskarsson A, Otterlund I, Pachr M, Pavliouk S, Peitzmann T, Petracek V, Pinganaud W, Plasil F, von Poblotzki U, Purschke ML, Rak J, Raniwala R, Raniwala S, Ramamurthy VS, Rao NK, Retiere F, Reygers K, Roland G, Rosselet L, Roufanov I, Roy C, Rubio JM, Sako H, Sambyal SS, Santo R, Sato S, Schlagheck H, Schmidt HR, Schutz Y, Shabratova G, Shah TH, Sibiriak I, Siemiarczuk T, Silvermyr D, Sinha BC, Slavine N, Söderström K, Solomey N, Sørensen SP, Stankus P, Stefanek G, Steinberg P, Stenlund E, Stüken D, Sumbera M, Svensson T, Trivedi MD, Tsvetkov A, Tykarski L, Urbahn J, Pijll EC, Eijndhoven N, Nieuwenhuizen GJ, Vinogradov A, Viyogi YP, Vodopianov A, Vörös S, Wysłouch B, Yagi K, Yokota Y, Young GR. Three-pion interferometry results from central Pb+Pb collisions at 158A GeV/c. Phys Rev Lett. 2000 Oct 02;85(14):2895-9. doi: 10.1103/PhysRevLett.85.2895. PMID: 11005962.
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Differences in leaf gas exchange and water relations among species and tree sizes in an Arizona pine-oak forest.

Tree physiology

Kolb TE, Stone JE.
PMID: 12651521
Tree Physiol. 2000 Jan;20(1):1-12. doi: 10.1093/treephys/20.1.1.

We compared leaf gas exchange and water potential among the dominant tree species and major size classes of trees in an upland, pine-oak forest in northern Arizona. The study included old-growth Gambel oak (Quercus gambelii Nutt.), and sapling, pole,...

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Kolb TE, Stone JE. Differences in leaf gas exchange and water relations among species and tree sizes in an Arizona pine-oak forest. Tree Physiol. 2000;20(1):1-12doi: 10.1093/treephys/20.1.1.
Kolb, T. E., & Stone, J. E. (2000). Differences in leaf gas exchange and water relations among species and tree sizes in an Arizona pine-oak forest. Tree physiology, 20(1), 1-12. https://doi.org/10.1093/treephys/20.1.1
Kolb, T. E., and Stone, J. E.. "Differences in leaf gas exchange and water relations among species and tree sizes in an Arizona pine-oak forest." Tree physiology vol. 20,1 (2000): 1-12. doi: https://doi.org/10.1093/treephys/20.1.1
Kolb TE, Stone JE. Differences in leaf gas exchange and water relations among species and tree sizes in an Arizona pine-oak forest. Tree Physiol. 2000 Jan;20(1):1-12. doi: 10.1093/treephys/20.1.1. PMID: 12651521.
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Variation in seedling hydraulic architecture as a function of species and environment.

Tree physiology

Shumway DL, Steiner KC, Kolb TE.
PMID: 14969933
Tree Physiol. 1993 Jan;12(1):41-54. doi: 10.1093/treephys/12.1.41.

Northern red oak (Quercus rubra L.) and yellow-poplar (Liriodendron tulipifera L.) were grown for two years in full sunlight (unshaded) or 20% of full sunlight (shaded) under either well-watered or drought conditions. There was a close association between evaporative...

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Shumway DL, Steiner KC, Kolb TE. Variation in seedling hydraulic architecture as a function of species and environment. Tree Physiol. 1993;12(1):41-54doi: 10.1093/treephys/12.1.41.
Shumway, D. L., Steiner, K. C., & Kolb, T. E. (1993). Variation in seedling hydraulic architecture as a function of species and environment. Tree physiology, 12(1), 41-54. https://doi.org/10.1093/treephys/12.1.41
Shumway, D L, et al. "Variation in seedling hydraulic architecture as a function of species and environment." Tree physiology vol. 12,1 (1993): 41-54. doi: https://doi.org/10.1093/treephys/12.1.41
Shumway DL, Steiner KC, Kolb TE. Variation in seedling hydraulic architecture as a function of species and environment. Tree Physiol. 1993 Jan;12(1):41-54. doi: 10.1093/treephys/12.1.41. PMID: 14969933.
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Mass accommodation and chemical reactions at gas-liquid interfaces.

Chemical reviews

Davidovits P, Kolb CE, Williams LR, Jayne JT, Worsnop DR.
PMID: 16608183
Chem Rev. 2006 Apr;106(4):1323-54. doi: 10.1021/cr040366k.

No abstract available.

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Davidovits P, Kolb CE, Williams LR, et al. Mass accommodation and chemical reactions at gas-liquid interfaces. Chem Rev. 2006;106(4):1323-54doi: 10.1021/cr040366k.
Davidovits, P., Kolb, C. E., Williams, L. R., Jayne, J. T., & Worsnop, D. R. (2006). Mass accommodation and chemical reactions at gas-liquid interfaces. Chemical reviews, 106(4), 1323-54. https://doi.org/10.1021/cr040366k
Davidovits, Paul, et al. "Mass accommodation and chemical reactions at gas-liquid interfaces." Chemical reviews vol. 106,4 (2006): 1323-54. doi: https://doi.org/10.1021/cr040366k
Davidovits P, Kolb CE, Williams LR, Jayne JT, Worsnop DR. Mass accommodation and chemical reactions at gas-liquid interfaces. Chem Rev. 2006 Apr;106(4):1323-54. doi: 10.1021/cr040366k. PMID: 16608183.
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Uptake of organic gas phase species by 1-methylnaphthalene.

The journal of physical chemistry. A

Zhang HZ, Davidovits P, Williams LR, Kolb CE, Worsnop DR.
PMID: 16833713
J Phys Chem A. 2005 May 05;109(17):3941-9. doi: 10.1021/jp050323n.

Organic compounds are a significant component of tropospheric aerosols. In the present study, 1-methylnaphthalene was selected as a surrogate for aromatic hydrocarbons (PAHs) found in tropospheric aerosols. Mass accommodation coefficients (alpha) on 1-methylnaphthalene were determined as a function of...

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Zhang HZ, Davidovits P, Williams LR, et al. Uptake of organic gas phase species by 1-methylnaphthalene. J Phys Chem A. 2005;109(17):3941-9doi: 10.1021/jp050323n.
Zhang, H. Z., Davidovits, P., Williams, L. R., Kolb, C. E., & Worsnop, D. R. (2005). Uptake of organic gas phase species by 1-methylnaphthalene. The journal of physical chemistry. A, 109(17), 3941-9. https://doi.org/10.1021/jp050323n
Zhang, H Z, et al. "Uptake of organic gas phase species by 1-methylnaphthalene." The journal of physical chemistry. A vol. 109,17 (2005): 3941-9. doi: https://doi.org/10.1021/jp050323n
Zhang HZ, Davidovits P, Williams LR, Kolb CE, Worsnop DR. Uptake of organic gas phase species by 1-methylnaphthalene. J Phys Chem A. 2005 May 05;109(17):3941-9. doi: 10.1021/jp050323n. PMID: 16833713.
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Airborne infrared observations and analyses of a large forest fire.

Applied optics

Stearns JR, Zahniser MS, Kolb CE, Sandford BP.
PMID: 18231527
Appl Opt. 1986 Aug 01;25(15):2554. doi: 10.1364/ao.25.002554.

No abstract available.

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Stearns JR, Zahniser MS, Kolb CE, et al. Airborne infrared observations and analyses of a large forest fire. Appl Opt. 1986;25(15):2554doi: 10.1364/ao.25.002554.
Stearns, J. R., Zahniser, M. S., Kolb, C. E., & Sandford, B. P. (1986). Airborne infrared observations and analyses of a large forest fire. Applied optics, 25(15), 2554. https://doi.org/10.1364/ao.25.002554
Stearns, J R, et al. "Airborne infrared observations and analyses of a large forest fire." Applied optics vol. 25,15 (1986): 2554. doi: https://doi.org/10.1364/ao.25.002554
Stearns JR, Zahniser MS, Kolb CE, Sandford BP. Airborne infrared observations and analyses of a large forest fire. Appl Opt. 1986 Aug 01;25(15):2554. doi: 10.1364/ao.25.002554. PMID: 18231527.
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Theory of the pulsed molecular nitrogen laser.

Applied optics

Ali AW, Kolb AC, Anderson AD.
PMID: 20062372
Appl Opt. 1967 Dec 01;6(12):2115-9. doi: 10.1364/AO.6.002115.

It is shown that laser action at 3371 A terminates in times t < (tau(32)(-1) + Y(3))(-1), where tau(32) is the lifetime of the transition of C(3)pi(u) --> B(3)pi(g) and Y(3) is the electron depopulation rate of the upper...

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Ali AW, Kolb AC, Anderson AD. Theory of the pulsed molecular nitrogen laser. Appl Opt. 1967;6(12):2115-9doi: 10.1364/AO.6.002115.
Ali, A. W., Kolb, A. C., & Anderson, A. D. (1967). Theory of the pulsed molecular nitrogen laser. Applied optics, 6(12), 2115-9. https://doi.org/10.1364/AO.6.002115
Ali, A W, et al. "Theory of the pulsed molecular nitrogen laser." Applied optics vol. 6,12 (1967): 2115-9. doi: https://doi.org/10.1364/AO.6.002115
Ali AW, Kolb AC, Anderson AD. Theory of the pulsed molecular nitrogen laser. Appl Opt. 1967 Dec 01;6(12):2115-9. doi: 10.1364/AO.6.002115. PMID: 20062372.
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Determination of atmospheric methyl bromide by cryotrapping-gas chromatography and application to soil kinetic studies using a dynamic dilution system.

Analytical chemistry

Kerwin RA, Crill PM, Talbot RW, Hines ME, Shorter JH, Kolb CE, Harriss RC.
PMID: 21619187
Anal Chem. 1996 Mar 01;68(5):899-903. doi: 10.1021/ac950811z.

Methyl bromide (CH(3)Br) is considered to be a major source of stratospheric Br, which contributes to the destruction of ozone. It is therefore necessary to understand the natural sinks of this compound and to accurately measure ambient mixing ratios....

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Kerwin RA, Crill PM, Talbot RW, et al. Determination of atmospheric methyl bromide by cryotrapping-gas chromatography and application to soil kinetic studies using a dynamic dilution system. Anal Chem. 1996;68(5):899-903doi: 10.1021/ac950811z.
Kerwin, R. A., Crill, P. M., Talbot, R. W., Hines, M. E., Shorter, J. H., Kolb, C. E., & Harriss, R. C. (1996). Determination of atmospheric methyl bromide by cryotrapping-gas chromatography and application to soil kinetic studies using a dynamic dilution system. Analytical chemistry, 68(5), 899-903. https://doi.org/10.1021/ac950811z
Kerwin, R A, et al. "Determination of atmospheric methyl bromide by cryotrapping-gas chromatography and application to soil kinetic studies using a dynamic dilution system." Analytical chemistry vol. 68,5 (1996): 899-903. doi: https://doi.org/10.1021/ac950811z
Kerwin RA, Crill PM, Talbot RW, Hines ME, Shorter JH, Kolb CE, Harriss RC. Determination of atmospheric methyl bromide by cryotrapping-gas chromatography and application to soil kinetic studies using a dynamic dilution system. Anal Chem. 1996 Mar 01;68(5):899-903. doi: 10.1021/ac950811z. PMID: 21619187.
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OH-initiated heterogeneous aging of highly oxidized organic aerosol.

The journal of physical chemistry. A

Kessler SH, Nah T, Daumit KE, Smith JD, Leone SR, Kolb CE, Worsnop DR, Wilson KR, Kroll JH.
PMID: 22483038
J Phys Chem A. 2012 Jun 21;116(24):6358-65. doi: 10.1021/jp212131m. Epub 2012 May 17.

The oxidative evolution ("aging") of organic species in the atmosphere is thought to have a major influence on the composition and properties of organic particulate matter but remains poorly understood, particularly for the most oxidized fraction of the aerosol....

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Kessler SH, Nah T, Daumit KE, et al. OH-initiated heterogeneous aging of highly oxidized organic aerosol. J Phys Chem A. 2012;116(24):6358-65doi: 10.1021/jp212131m.
Kessler, S. H., Nah, T., Daumit, K. E., Smith, J. D., Leone, S. R., Kolb, C. E., Worsnop, D. R., Wilson, K. R., & Kroll, J. H. (2012). OH-initiated heterogeneous aging of highly oxidized organic aerosol. The journal of physical chemistry. A, 116(24), 6358-65. https://doi.org/10.1021/jp212131m
Kessler, Sean H, et al. "OH-initiated heterogeneous aging of highly oxidized organic aerosol." The journal of physical chemistry. A vol. 116,24 (2012): 6358-65. doi: https://doi.org/10.1021/jp212131m
Kessler SH, Nah T, Daumit KE, Smith JD, Leone SR, Kolb CE, Worsnop DR, Wilson KR, Kroll JH. OH-initiated heterogeneous aging of highly oxidized organic aerosol. J Phys Chem A. 2012 Jun 21;116(24):6358-65. doi: 10.1021/jp212131m. Epub 2012 May 17. PMID: 22483038.
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