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Schulz

Koop T, Schindler W, Kazimirov A, Scherb G, Zegenhagen J, Schulz T, Feidenhans l R and Kirschner J 1998 Electrochemical cell tor in situ x-ray diffraction under ultrapure conditions Rev. Sc/, instrum. 69 1840... [Pg.321]

Ebert V, Schulz C, Voipp H R, Wolfrum J and Monkhouse P 1999 Laser diagnostics of combustion processes from chemical dynamics to technical devices Israel J. Chem. 39 1-24... [Pg.796]

Forbes M D E, Schulz G R and Avdievich N I 1996 Unusual dynamics of micellized radical pairs generated from photochemically active amphiphiles J. Am. Chem. Soc. 118 10 652-3... [Pg.1620]

Forbes M D E, Avdievich N I, Schulz G R and Ball J D 1996 Chain dynamics cause the disappearance of spin-correlated radical pair polarization in flexible biradicals J. Phys. Chem. 100 13 887-91... [Pg.1620]

Sinha M P, Schulz A and Zare R N 1973 Internal state distribution of alkali dimers in supersonic nozzle beams J. Chem. Phys. 58 549-56... [Pg.2149]

Zander C, Sauer M, Drexhage K H, Ko D-S, Schulz A, Wolfrun J, Brand L, Eggeling C and Seidel CAM 1996 Detection and characterization of single molecules in aqueous solution Appl. Phys. B 63 517-23... [Pg.2505]

Vonrhein et al. 1995] Vonrhein, C., Schlauderer, G.J., Schulz, G.E. Movie of the structural changes during a catalytic cycle of nucleoside monophosphate kinases. Structure 3 (1995) 483-490. [Pg.77]

M. S. Madison, K.-P. Schulz, A. A. Korytko, M. E. Munk, SESAMI an integrated desktop structure elucidation tool, Internet Journal of Chemistry, 1998, 1, 34. [Pg.537]

Pemtz M 1992. Protein Structure. New Approaches to Disease And Therapy. New York, W H Freeman. Schulz G E and R H Schirmer 1979. Principles of Protein Structure. New York, Springer-Verlag. [Pg.574]

Figure 6.2 Acceleration of the polymerization rate for methyl methacrylate at the concentrations shown in benzene at 50 C. [Reprinted from G. V. Schulz and G. Haborth, Makromol. Chem. 1 106 (1948).]... Figure 6.2 Acceleration of the polymerization rate for methyl methacrylate at the concentrations shown in benzene at 50 C. [Reprinted from G. V. Schulz and G. Haborth, Makromol. Chem. 1 106 (1948).]...
Figure 8.6 Effect of successive fractionations weight fraction n-mer versus n for seven successive precipitates and final residue (calculated for R = 10 ). [Adapted from G. V. Schulz, Z. Phys. Chem. B46 137 (1940) B47.155 (1940).]... Figure 8.6 Effect of successive fractionations weight fraction n-mer versus n for seven successive precipitates and final residue (calculated for R = 10 ). [Adapted from G. V. Schulz, Z. Phys. Chem. B46 137 (1940) B47.155 (1940).]...
Schottky mechanism Schott nomenclature Schradan [152-16-9] Schreibersite [12424-46-3] Schugi mixer Schulze-Hardy rule Schwann cells Schwarzembergite Schwenzfeier process Science policy... [Pg.872]

W. M. Kuheke, N. Boese, and M. Bouldin in D. N. Schulz and G. A. Stahl, eds., Water-Soluble Polymers for Petroleum Recorej, Plenum Publishing Corp., New York, 1988, pp. 1-18. [Pg.145]

Hemicellulose [9034-32-6] is the least utilized component of the biomass triad comprising cellulose (qv), lignin (qv), and hemiceUulose. The term was origiaated by Schulze (1) and is used here to distinguish the nonceUulosic polysaccharides of plant cell walls from those that are not part of the wall stmcture. Confusion arises because other hemicellulose definitions based on solvent extraction are often used in the Hterature (2—4). The term polyose is used in Europe to describe these nonceUulosic polysaccharides from wood, whereas hemicellulose is used to describe the alkaline extracts from commercial pulps (4). The quantity of hemicellulose in different sources varies considerably as shown in Table 1. [Pg.29]

W. W. Douglas, J. Nagasawa, and R. Schulz in H. Heller and K. Lederis, eds., Subcellular Organisation andFunction in Endocrine Tissues, University Press, Cambridge, Mass., 1971, pp. 353—377. [Pg.193]


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1-olefins Schulz-Flory type distribution

Anderson-Schulz-Flory

Anderson-Schulz-Flory distribution model

Anderson-Schulz-Flory product

Anderson-Schulz-Flory product distribution

Arndt-Schulz Law

Condensation Schulz

DLVO Schulze-Hardy rule

Fischer-Tropsch synthesis Schulz-Flory distribution

Flory-Schulz distribution, chain

Flory-Schulz fraction distribution

Flory-Schulz molecular weight distribution

Flory—Schulz plot

Free radical polymerization Flory-Schulz distribution

Kinetics Schulz-Flory polymerization

Molar mass Schulz-Zimm

Molecular weight Flory-Schulz

Molecular weight Schulz-Zimm

Oligomers Schulz—Flory distribution

Pichler and Schulz

Pichler-Schulz mechanism

Resonance Schulz

Rule of Schulze and Hardy

Schulz Stephan, Group

Schulz distribution

Schulz function

Schulz reflection method

Schulz transmission method

Schulz, Bernard

Schulz, Friedrich

Schulz, Georg

Schulz, Gerhard

Schulz, M., Kirschke, K., Cyclic Peroxides

Schulz-Blaschke constant

Schulz-Blaschke equation

Schulz-Dale

Schulz-Flory

Schulz-Flory chain length distribution

Schulz-Flory distribution

Schulz-Flory distribution function

Schulz-Flory distribution segments

Schulz-Flory equation

Schulz-Flory polymerization

Schulz-Flory product distributions

Schulz-Flory relationship

Schulz-Flory statistics

Schulz-Flory-Anderson distribution

Schulz-Flory-type distribution

Schulz-Zimm distribution

Schulz-Zimm distribution function

Schulz-Zimm distribution model

Schulze

Schulze Hardy Rule coagulation

Schulze Hardy Rule critical coagulation concentrations

Schulze ring shear tester

Schulze studies

Schulze, Friedrich

Schulze, William

Schulze-Hardy rule

Schulze-Hardy rule and the critical coagulation concentration (CCC)

Schulzes superposition model

Schulz—Hardy rule

Schulz—Zimm distribution parameters

The Schulz-Blaschke Equation

The Schulz-Flory Distribution

Total Potential Energy and the Schulze-Hardy Rule

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