Wheeler, Willis

Morris, Carl R., 1 Nixon, W. B., 24 Panek, Edward J., 61 Parks, Alice E., 47 Roadcap, Norma, 27 Royal, Patricia D., 75 Smith, J. W., 24 Spittler, Terry D., 117 Thompson, Neal P., 126 Townsend, Joseph B., 35 Ussary, James P., 99 Wheeler, Willis B., 126... [Pg.158]

Wheeler, Willis B., Pesticides in Agriculture and the Environment, Marcel Dekker, New York, 2002. [Pg.115]

Willis, J. N. and Wheeler, L., Use of a gel permeation chromatography-Fourier transform infrared spectroscopy interface for polymer analysis, in Chromatographic Characterization of Polymers, Hyphenated and Multidimensional Techniques, Provder, T., Barth, H. G., and Urban, M. W., Eds., American Chemical Society, Washington, D.C., 1995, chap. 19. [Pg.370]

Biological Control of Crop Diseases, edited by Samuel S. Gnanamanickam Pesticides in Agriculture and the Environment, edited by Willis B. Wheeler Mathematical Models of Crop Growth and Yield, Allen R. Overman and Richard V. Scholtz III... [Pg.460]

In a relatively short period of time the Lab Connections Transform system found its way into a large number of laboratories. Applications of the technique have been discussed in various fields. Willis and Wheeler demonstrated the determination of the vinyl acetate distribution in ethylene-vinyl acetate copolymers, the analysis of branching in high-density polyethylene, and the analysis of the chemical composition of a jet oil lubricant [143].Provder et al. [144] showed... [Pg.47]

Willis JN, Wheeler L (1995) Use of a GPC-FTIR interface for polymer analysis. In Provder T, Barth HG, Urban MW (eds) Chromatographic characterization of polymers. Hyphenated and multidimensional techniques, chap 19. Adv Chem Ser 247, American Chemical Society, Washington, DC... [Pg.64]

Lesec, James, 167 Meehan, Elizabeth, 243 Millequant, Michele, 167 Mori, Sadao, 211 Mourey, Thomas H., 123 Much, H., 223 O Donohue, Stephen, 243 O Driscoll, Kenneth F., 79 Patin, Maryse, 167 Prokai, Laszlo, 41 Rudin, Alfred, 79 Sanayei, Ramin A., 79 Schimpf, Martin E., 183 Schulz, G., 223 Schunk, T. C., 265 Simonsick, William J., Jr., 41 Suddaby, Kevin G., 79 Teyssie, Philippe, 167 Timpa, Judy D., 141 Wheeler, L., 253 Willis, James N., 253 Yau, Wallace W., 69... [Pg.283]

Willis JM, Dwyer JL, Wheeler L (1993) International Symposium on Polymer Analysis and Characterization. Crete, Greece July 11... [Pg.44]

The discovery of the NIR spectrum was reported in 1800 by William Herschel (17, 19), yet the NIR spectrum did not appear as a potential analytical tool until the middle of the twentieth century (7, 52, 65). The contributions of the pioneers cannot be ignored. People like Coblentz (5), Ellis (9), Wulf and Liddel (68), and Collins (6) were among the first to study NIR spectroscopy. After 1950 and well into the 1960s, NIR spectrometry became even more popular with researchers like Kaye (25), Willis (66), Goddu (13), Wetzel (59), Wheeler (58), and Norris (44) who made contributions to both NIR spectroscopy and spectrometry. It was Norris who first demonstrated that NIR spectrometry could be calibrated with multiple linear regression. [Pg.76]

Wheeler LM, Willis JN. Gel-permeation chromatography Fourier-transform infrared interface for polymer analysis. Appl Spec 1993 47 1128-30. [Pg.126]

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