Vinyl polymerization. 361. Polymerization of 2,2,4-trimethyl-3-on-1-pentyl methacrylate

2,2,4-Trimethyl-3-on-1-pentyl methacrylate (TMPM) was first synthesized from the condensation reaction of 2,2,4-trimethyl-1-pentanol-3-on with methacrylic acid. Second, the polymerization of TMPM and the copolymerization of TMPM with styrene (St) were carried out in benzene at 60°C, using 2,2′-azobisisobutyronitrile (AIBN) as an initiator. As the result of kinetic investigation, the rate of polymerization (R_p) could be expressed by: R_p = k[AIBN]^0.5 [TMPM]^1.0. Kinetic constants of polymerization of TMPM were obtained as follows: k_p/k = 0.27 dm^3/2 mole^?1/2 sec^?1/2, 2fk_d = 1.23 × 10^?5 sec^?1, f = 0.73, C_m = 2.6 × 10^?5, C_s = 1.1 × 10^?5. From the results the reactivity of TMPM was found to be larger than that of methyl methacrylate. The overall activation energy was calculated to be 110 kJ mole^?1. The following monomer reactivity ratios and Q, e values were obtained: TMPM(M₁) ? St(M₂): r₁ = 1.50, r₂ = 0.14, Q₁ = 2.63, E₁ = 0.45.     

THE EFFECTS OF HINDERED AMINES ON METHYL METHACRYLATE POLYMERIZATION

The effects of hindered amines, such as TMP, TMPM, TUV-770, on MMA and St homopoly-merization have been studied. It was found that in the MMA polymerization initiated with BPO orAIBN, the presence of TMPM, TUV-770 prolonged the induction period and a little change on R_p wasobserved. However, in the presence of TMP R_p increased slightly. The activation energy of poly-merization and polymerization rate equation were determined.     

溶剂对4-甲基丙烯酸-2,2,6,6-四甲基哌啶醇酯与苯乙烯自由基共聚活性的影响

本文研究了溶剂对4-甲基丙烯酸-2,2,6,6-四甲基哌啶醇酯(TMPM)与苯乙烯(St)自由基共聚的影响。其共聚活性与TMPM在不同溶剂中β-C上质子化学位移差(ΔδH)之间存在着较好的线性关系。     

EFFECT OF TEMPERATURE ON COPOLYMERIZATION PARAMETERS OF HYDROXYETHYL ACRYLATE AND METHYL METHACRYLATE

The copolymerization of 2-hydroxyethyl acrylate (HEA, M_1) and methylmethacrylate (MMA, M_2) in cyclohexanone was studied. The multiple experiments ofsolution copolymerization with low conversion were carried out at two sensitive compositionfeed points at 60, 80, 100, 120 and 140℃, respectively. The composition of the copolymerswas analyzed by ~1H-NMR. The reactivity ratios which were estimated by the Error-in-Variable Method (EVM) of Mayo-Lewis equation were found to be r_1 = 0.328, r_2 = 1.781for 60℃; 0.375, 1.709 for 80℃; 0.406, 1.654 for 100℃; 0.439, 1.540 for 120℃ and 0.455,1.400 for 140℃, and the 95% joint confidence intervals of the reactivity ratios were alsodetermined. According to r_1 and r_2, Arrhenius relations and the activity energy differencebetween the homo- and cross-propagation were calculated.     

4-甲基丙烯酸2,2,6,6-四甲基哌啶醇酯自由基聚合的研究

本文研完了不同引发体系对带受阻胺基团的单体4-甲基丙烯酸2,2,6,6-四甲基哌啶醇酯(TMPM)自由基聚合的影响。分析比较了偶氮型引发剂和过氧化物引发聚合的结果,并讨论了以过氧化苯甲酰(BPO)引发TMPM聚合的阻聚机理。发现TMPM与BPO反应生成一个新的化合物——4-甲基丙烯酸-N-苯甲酰氧基2,2,6,6-四甲基哌啶醇酯。用IR、ESR、NMR及质谱等方法,对此化合物的结构进行了测定与表征。     

FLUORESCENCE OF PHYTOCHROME IN THE CELLS OF DARK-GROWN PLANTS AND ITS CONNECTION WITH THE PHOTOTRANSFORMATIONS OF THE PIGMENT

Abstract Fluorescence of phytochrome is found in the cells of etiolated monocotyledonous and dicotyledonous plants. The red light-absorbing form of phytochrome (P_r) fluoresces at 77 K with a yield 0.3±0.1 and maxima at 672–673 nm and 684–686 nm in the excitation and emission spectra, respectively. The emission is characterized by the sharp temperature dependence of its intensity, its high (～ 40%) polarization, and the violation of the mirror symmetry rule. Connection of the fluorescence with P_r photoreactions is followed in the interval 77–293 K. A P, photoproduct, lumi-R, is fluorescent with maxima at 696 nm and 705 nm in the excitation and emission spectra; the far-red light absorbing form of phytochrome (P_fr) is practically nonfluorescent. Three isochromic emitting P_r species are present differing in their photochemical properties: P_r1 and P_r2 which phototransform irreversibly and reversibly at T 170 K into lumi-R, and lumi-R₂, respectively, and P_r3 which undergoes photoconversion only at T > 240 K. The activation energies of P_r2 and P_r3 photoreactions are evaluated to be 2.9–3.3 kJ/mol and 26 kJ/mol. Complex dynamics of changes of P_r fluorescence and of the extent of its decrease in the photoconversion P_r? P_fr in germinating pea and bean seeds suggests the existence of two P_r pools one of which is incapable of P_r? P_fr phototransformation. Thus, the developed fluorescent method of phytochrome assay and investigation in the cell revealing multiplicity of phytochrome states in vivo proves to be very sensitive (about 1 ng) and informative.     

Random copolycondensation of isophthalic acid/terephthalic acid with bisphenols by tosyl chloride/dimethylformamide/pyridine in terms of the monomer reactivity ratios of bisphenols

The random copolycondensation of isophthalic acid/terephthalic acid with various combinations of bisphenols (M₁ and M₂) with a tosyl chloride/dimethylformamide/pyridine condensing agent was carried out to investigate the effects of the monomer reactivity ratios, r₁′ and r₂′, on the reaction, like r₁ and r₂ in radical copolymerization. The ratios were calculated from the probabilities of finding an M₂ unit next to an M₁ unit and of finding an M₁ unit next to an M₂ unit, which were determined by an NMR analysis of the resultant copolymers. They were discussed with respect to the inherent viscosities (molecular weights) of the resultant copolymers. There was a fairly good relationship between r₁′ and r₂′ and the inherent viscosity values of the copolymers, indicating that copolycondensation could be facilitated by a combination of bisphenols; the lowering of r₁′ and r₂′ was indicative of random distributions in the copolymers. © 2003 Wiley Periodicals, Inc. J Polym Sci Part A: Polym Chem 41: 3908–3915, 2003     

PHOSPHORESCENCE QUENCHING OF POLY rA IN GLUCOSE-SODIUM ACETATE SOLUTION AT 77 K*

Abstract. The phosphorescence of poly rA at 77 K in an aqueous medium containing glucose is half-quenched by bound ethidium bromide at a fractional concentration, r_1/2, of 0.005, and by bound proflavine at r_1/2= 0.002: r_1/2= 0.024 for Co²⁺ and r_1/2= 0.039 for Mn²⁺. The decay of the dye-quenched poly rA phosphorescence is markedly nonexponential and decays more rapidly with increasing dye concentration, while the decay of the metal-ion quenched poly rA phosphorescence parallels that of the unquenched poly rA, independent of metal-ion concentration. Förster overlap integrals and critical distances for transfer of both poly rA singlet and triplet excitation to dye singlet states are calculated, and used to explain a consistent interpretation of the experimental results in terms of one-step direct excitation transfer from base to dye or metal ion in a highly folded polymer conformation.     

Organotin polymers—VIII. Binary and ternary copolymerizations of triphenyltin methacrylate with arylonitrile,styrene, N-vinyl pyrrolidone and n-butyl methacrylate

Copolymerizations involving triphenyltin methacrylate (PTMA) were carried out in solution at 70° in the presence of a free radical initiator; the copolymer compositions were determined from tin analyses. The monomer reactivity ratios for the copolymerizations of PTMA with acrylonitrile, styrene, and N-vinyl pyrrolidone were: r₁ = 0.69, r₂ = 0.16; r₁ = 0.76, r₂ = 0.47, and r₁ = 1.22, r₂ = 0.36, respectively. The sequence distribution of the alternation diads for the systems were calculated at various feed compositions. Ternary copolymerization of PTMA-acrylonitrile-butyl methacrylate was studied; the variation of terpolymer composition with conversion fit satisfactorily the experimental results. Ternary azeotropy for PTMA-acrylonitrile-styrene system was verified experimentally.     

Free Radical Copolymerization of N‐Cyclohexylmaleimide with Cyclohexene

The radical copolymerization of cyclohexene (M₁) and N‐cyclohexylmaleimide (M₂) was carried out with 2,2′‐azobis(isobutyronitrile) as an initiator in various solvents at 55°C. The copolymerization of cyclohexene with N‐cyclohexylmaleimide in chloroform, dioxane and benzene proceeded in a homogeneous system to give an alternating copolymer when the monomer of cyclohexene was over 40 mol% in the feed. It was found that the initial rate of the copolymerization (R_p), as well as the number‐average molecular weight of copolymers, were dependent on the monomer composition and was at maximum at about 30 mol% of cyclohexene in the feed. The effects of solvents on the R_p and reactivity ratios were also investigated in this copolymerization system. The copolymerization in dioxane produced a higher R_p than that in chloroform and benzene, and the monomer reactivity ratios were found to be r₁=0, r₂=0.032 in chloroform; r₁=0, r₂=0.065 in benzene and r₁=0, r₂=0.14 in dioxane, respectively.     

Sulfur-Containing Vinyl Monomers. XIV. Radical Polymerizations and Copolymerizations of Vinyl Mercaptobenzazoles

Vinyl mercaptobenzazoles [thiazole (VMBT), oxazole (VMBO), and imidazole (VMBI)] were prepared through dehydrochlorination of the respective β-chloroethyl mercaptobenzazoles. These monomers were found to undergo vinyl polymerization in the presence of light or radical initiator, α,α'-azobisisobutyonitrile, to give relatively high molecular weight homopolymers. From the results of radical copolymerizations of these monomers with various monomers, the copolymerization parameters were determined as follows: VMBT(M₂): r₁ styrene(M₁): r₁ = 2.12 ± 0.09, r₂ = 0.336 ± 0.028, Q₂ = 0.75, e_z = ?1.38; VMBO(M₂)-styrene(M₁): r₁ = 2.61 ± 0.13, r₂ = 0.274 ± 0.03, Q₂ = 0.61, e₂ = ?1.38; VBMI(M₂)-styrene(M₁) r₁ =4.0, r₂ = 0.2, Q₂ = 0.37, e₂ = ?1.17. The polymerization reactivities of these monomers obtained from these parameters were compared with those of other vinyl sulfide monomers and discussed.     

THE EFFECT OF DEUTERIUM OXIDE ON THE FLUORESCENCE AND PHOTOTRANSFORMATION OF 124 kDALTON PHYTOCHROME*

Abstract— To probe the nature of primary photoprocess and the mechanism of the phototransformation of undegraded 124 kDa oat phytochrome, solvent deuterium isotope effects on the fluorescence and phototransformation of phytochrome have been investigated. The fluorescence intensity and lifetime of phytochrome (P_r form) are greater in D₂0-buffer than in H₂O-buffer, suggesting a possible involvement of proton transfer in the primary photoprocess of phytochrome. Although the photostationary equilibrium (P_r to P_fr ratio) was not altered by deuterium oxide, in contrast to degraded phytochrome, the rate constants of both transformations, P_r→ P_fr and P_fr→ P_r were enhanced by up to 24%. The P_r to P_fr phototransformation of degraded phytochrome, however, was retarded by about the same percentage in D₂O. These opposite effects of D₂O with degraded and undegraded phytochromes underscore the fact that the P_r form from the former reverts to the P_r form in the dark, apparently catalyzed by deuterated general and/or conjugate acidic group(s). With the degraded phytochrome the deuterium oxide enhancement of the rate of dark reversion was approximately 2-fold (Sarkar and Song, 1981). Both the fluorescence intensity and the rates of phototransformation of phytochrome were enhanced in D₂O with successive photocyclings (P_r→ P_fr→ P_r→ P_fr→ P_r etc.) with alternating red and far-red irradiation. It has been proposed that successive photocycling of phytochrome in D₂O results in proton-deuteron exchange in the partially exposed P_tr chromophore and/or its surrounding amino acid residues.     

Copolymerization of 4‐Propanoylphenyl Acrylate with Methyl Methacrylate: Synthesis,Characterization and Reactivity Ratios

The new acrylic monomer 4‐propanoylphenyl acrylate (PPA) was synthesized and copolymerized with methyl methacrylate (MMA) in methyl ethyl ketone at 70±1°C using benzoyl peroxide as a free radical initiator. The copolymers were characterized by FT‐IR, ¹H‐NMR and ¹³C‐NMR spectroscopic techniques. The compositions of the copolymers were determined by ¹H‐NMR analysis. The reactivity ratios of the monomers were determined using Fineman‐Ross (r₁=0.5535 and r₂=1.5428), Kelen‐Tüdös (r₁=0.5307 and r₂=1.4482), and Ext. Kelen‐Tüdös (r₁=0.5044 and r₂=1.4614), as well as by a nonlinear error‐in‐variables model (EVM) method using a computer program, RREVM (r₁=0.5314 and r₂=1.4530). The solubility of the polymers was tested in various polar and non‐polar solvents. The elemental analysis was determined by a Perkin‐Elmer C‐H analyzer. The molecular weights (M_w and M_n) of the copolymers were determined by gel permeation chromatography. Thermogravimetric analysis of the polymers reveals that the thermal stability of the copolymers increases with an increase in the mole fraction of MMA in the copolymers. Glass transition temperatures of the copolymers were found to increase with an increase in the mole fraction of MMA in the copolymers.     

SYNTHESIS AND CHARACTERIZATION OF 1-NAPHTHYLMETHYL METHACRYLATE-METHYL METHACRYLATE COPOLYMERS

A series of 1-naphthylmethyl methacrylate (NMMA)-methyl methacrylate (MMA) copolymerswere synthesized on free radical mechanism. The reactivity ratios of NMMA (r_1) and MMA (r_2) werereported to be 0.83 and 0.89, respectively. The characterization of the copolymers by using IR, NMR,GPC, UV and fiuorescence spectrometry was described in this paper.     

Effects of complexing agents in radical copolymerization

Radical copolymerization of methyl methacrylate (MMA, M₁) with various monomers has been studied in presence of modifiers, i.e., complexing agents (CA): ZnCl₂, AlCl₃, AlBr₃, Al(C₂H₅)₂Cl, forming coordinate complexes with ester group of the monomer and of the propagating radical. The comonomers of the first group form complexes of similar structure and stability as MMA, methyl acrylate, or butyl acrylate. The comonomers of the second group do not form complexes with the modifiers (vinylidene chloride, 2,6-dichlorostyrene, p-chlorostyrene, styrene). For all systems studied the copolymer composition follows the Mayo-Lewis equation. In the first group of the systems the effective reactivity ratios (r₁, r₂) approach unity with increase of the CA molar content (r₁ = r₂ ? 1 at [(CA)/MMA] + [MA] ≥ 0,3) In the second group of the systems the values of r₁ either increase to a limit value (at [CA]/[MMA] ≥ 0.3), pass through maximum, or decrease to a limiting value with the CA molar content. The values of r₂ decrease in all systems. The character of variation of r₁ and r₂ has been explained in terms of effects of the CA's on reactivity of MMA and PMMA radical. The equations for the copolymer compositions in these systems have been derived.     

Copolymerization of glycidyl methacrylate with alkyl acrylate monomers

A newer approach to obtaining acrylic thermoset polymers with adequate hydrophilicity required for various specific end uses is reported. Glycidyl methacrylate (GMA) was copolymerized with n-butyl acrylate (n-BA), isobutyl acrylate (i-BA), and 2-ethylhexyl acrylate (2-EHA) in bulk at 60°C. with benzoyl peroxide as free radical initiator. The copolymer composition was determined from the estimation of epoxy group. Reactivity ratios were calculated by the Yezrielev, Brokhina, and Roskin method. For copolymerization of GMA (M₁) with n-BA (M₂) the reactivity ratios were r₁ = 2.15 ± 0.14, r₂ = 0.12 ± 0.03; with i-BA (M₂) they were r₁ = 1.27 ± 0.06, r₂ = 0.33 ± 0.031; and with 2-EHA (M₂) they were r₁ = 2.32 ± 0.14, r₂ = 0.13 ± 0.009. The reactivity ratios were the measure of distribution of monomer units in a copolymer chain; the values obtained are compared and discussed.     

Complete spectral assignments of methacrylonitrile-styrene-methyl methacrylate terpolymers by 2D NMR spectroscopy

Methacrylonitrile-styrene-methyl methacrylate (N/S/M) terpolymers of different monomer concentrations were prepared by bulk polymerization. The terpolymer compositions were determined by quantitative ¹³C{¹H} NMR spectra and compared with those calculated by Goldfinger's equation using comonomer reactivity ratios: r_NS=0.30, r_SN=0.45; r_NM=0.91, r_MN=0.88; r_SM=0.52, r_MS=0.47. The overlapping and complex ¹³C{¹H} and ¹H NMR spectra of the terpolymers were assigned with the help of distortionless enhancement by polarization transfer and two-dimensional (2D) ¹³C-¹H heteronuclear single quantum coherence experiments. The various vicinal and geminal couplings between the protons in the polymer chains can be seen in the 2D total correlated spectroscopy experiments.     

Penultimate effects in methyl methacrylate-4-vinyl pyridine copolymers

From the ¹H-NMR spectra of methyl methacrylate (M₁)-4-vinyl pyridine (M₂) radical copolymers with various monomer ratios, the reactivity ratios have been found using the penultimate model (r₁₁ = 1.51 r₂₁ = 0.10 r₂ = 0.24) and the co-isotactic alternating addition probability (σ = 0.5) as the best fit of the pentad distribution between the three parts of the methoxy signal.     

Reactivity of fluorostyrenes in cationic polymerization

Reactivity ratios relative for cationic copolymerization of three fluorostyrenes and styrene were studied. The values of r₁ and r₂ for various experimental conditions were determined. The influence of the nature of the solvent and of the polymerization temperature were studied in particular. Relative activation entropies and enthalpies were determined, and an isokinetic relationship was found for 2-, 3-, and 4-fluorostyrenes. There is a fairly linear correlation between the C8 chemical shift and the values of 1/r₂. All the experimental reactivities were correlated with the quantum chemistry parameters. From this correlation, interaction with C8 and also with C7 and F, was found to be possible, depending on the nature of the monomer.     

Synthesis and Polymerization of Optically Active Mono-I-Menthyl Itaconate

Optically active mono-l-menthyl itaconate (MMI) was prepared from ita-conic acid and l-menthol. MMI was polymerized in bulk at 80°C to give a chiral homopolymer having -49.5° specific rotation. MMI (M₁ was copolymerized with styrene (ST, M₂), methyl methacrylate (MMA, M₂), and N-cyclohexylmaleimide (CHMI, M₂) by using 2,2′-azobisisobutyronitrile (AIBN) as the radical initiator and benzene as the polymerization solvent at 50°C. The monomer reactivity ratios (r₁, r₂) and Alfrey-Price Q, e values were determined to be r₁ = 0.28, r₂ = 0.32, Q₁ = 0.90, and e₁ = 0.75 in MMI-ST; r₁ = 0.09 and r₂ = 0.51 in MMI-MMA; and r₁ = 0.78 and r₂ = 0.39 in MMI-CHMI. The chiroptical properties of the polymers were investigated.