Emran Ismail scite author profile

Emran Ismail

5Publications

91Citation Statements Received

132Citation Statements Given

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University of Malaya

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Effects of non‐ionic and mixed cationic–non‐ionic micelles on the rate of alkaline hydrolysis of phthalimide

Khan

Ismail

2002

J of Physical Organic Chem

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Pseudo-first-order rate constants (k obs ) for the alkaline hydrolysis of phthalimide (PTH) show a monotonic decrease with the increase in [C 16 E 20 ] T (total concentration of Brij 58) at constant [CH 3 CN] and [NaOH]. This micellar effect is explained in terms of the pseudophase model of micelles. The rate of hydrolysis of PTH in C 16 E 20 micellar pseudophase appears to be negligible compared with that in the aqueous pseudophase. The values of k obs for C 12 E 23 (Brij 35) show a sharp decrease at very low values of [C 12 E 23 ] T followed by a very slow decrease with increase in [C 12 E 23 ] T at relatively higher values of the latter. The rate of hydrolysis becomes too slow to monitor at [C 12 E 23 ] T !0.04 M in the absence of cetyltrimethylammonium bromide (CTABr) and at [C 12 E 23 ] T !0.05 M in the presence of 0.006-0.02 M CTABr at 0.02 M NaOH whereas such characteristic behavior is kinetically absent with C 16 E 20 . The values of k obs , obtained at different [NIS] T (where NIS represents C 16 E 20 and C 12 E 23 ) in the presence of a constant amount of CTABr, follow the empirical relationship k obs = (k 0 kK[NIS] T )/(1 K[NIS] T ) where k and K are empirical parameters. The values of k are only slightly affected whereas the values of K decrease with increase in [CTABr] T for the mixed C 16 E 20 -CTABr micellar system. The rate of hydrolysis of PTH at !0.01 M C 12 E 23 and !0.01 M CTABr reveals the formation of phthalic anhydride whereas this was not observed in the mixed C 16 E 20 -CTABr micellar system under similar experimental conditions. a Conditions: [phthalimide] 0 = 2 Â 10 À4 M, [NaOH] = 0.02 M, 35°C, l = 300 nm and aqueous reaction mixture for each kinetic run contained 2% (v/v) CH 3 CN. b Y obs = k h w/k obs with 10 4 k h w = 24.6 s À1 . c Calculated from Eqn. (4) with (1 À c.m.c.K s ) = 0.99 and K s = 7.5 M À1 . d Error limits are standard deviations.

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Effects of non‐ionic and mixed non‐ionic–cationic micelles on the rate of aqueous cleavages of phenyl benzoate and phenyl salicylate in alkaline medium

Khan

Ismail

2004

J of Physical Organic Chem

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Pseudo‐first‐order rate constants (kobs) for the hydrolysis of phenyl salicylate (PSH) and phenyl benzoate (PB) in the alkaline medium show a monotonic decrease with the increase in [C16E20]T (total concentration of Brij 58) at constant [CH3CN] and [NaOH]. This micellar effect is explained in terms of the pseudophase model of micelles. These results show a characteristic difference between the effects of [C16E20]T and previously published effects of [C12E23]T (total concentration of Brij 35) on the rates of aqueous cleavage of PSH and PB at [CnEm]T/[NaOH]≥∼3. The values of kobs, obtained at different [C16E20]T in the presence of a constant amount of CTABr, follow the empirical relationship kobs=(k0+θK[C16E20]T)/(1+K[C16E20]T), where θ and K are empirical parameters. The values of θ are not affected whereas the values of K decrease with increase in [CTABr]T in a mixed C16E20–CTABr micellar system. The values of θ at different [CTABr]T show that θ>k0 for hydrolysis of PSH and θ<k0 for hydrolysis of PB in the presence of 0.01 M NaOH. The effects of [CTABr]T on K and θ are explained in terms of the pseudophase model of micelles coupled with the empirical relationship KS=KS0/(1+KC16E20/S[C16E20]T). Copyright © 2004 John Wiley & Sons, Ltd.

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An empirical approach to study the occurrence of ion exchange in the alkaline hydrolysis of phthalimide in the presence of cationic micelles and inert salts

Khan¹,

Ismail²

2007

Journal of Molecular Liquids

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Effects of Nonionic, Cationic, and Mixed Nonionic–Cationic Surfactants on the Acid–Base Behavior of Phenyl Salicylate

Khan

Arifin

Yusoff

et al. 1999

Journal of Colloid and Interface Science

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Kinetic Evidence for the Occurrence of Independent Ion-Exchange Processes in the Cationic Micellar-Mediated Reaction of Piperidine with Anionic Phenyl Salicylate

Khan

Ismail

2009

J. Phys. Chem. A

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A kinetic probe, which involves the determination of pseudo-first-order rate constants (k(obs)) for the nucleophilic reaction of piperidine (Pip) with ionized phenyl salicylate (S(-)) at constant [Pip](T) (= 0.1 M), [S(-)](T) (= 2 x 10(-4) M), [CTABr](T), < or = 0.10 M NaOH and varying concentration of MX (= 3-ClC(6)H(4)CO(2)Na and C(6)H(5)CH=CHCO(2)Na), gives the following information. The nonlinear plots of k(obs) versus [MX] reveal indirectly the occurrence of more than one independent ion-exchange processes at the CTABr micellar surface. These observed data fit to a kinetic relationship derived from an empirical equation coupled with pseudophase micellar (PM) model. This relationship gives an empirical constant (K(X/S)) that is used to determine the usual ion-exchange constant (K(X)(Y)). The values of K(X)(Br) (Y = Br) have been calculated for X = 3-ClC(6)H(4)CO(2)(-) and C(6)H(5)CH=CHCO(2)(-). More than 12-fold larger value of K(X)(Br) for X = 3-ClC(6)H(4)CO(2)(-) than that for X = 2-ClC(6)H(4)CO(2)(-) is attributed to the presence and absence of viscoelasticity in the respective presence of 3-ClC(6)H(4)CO(2)(-) and 2-ClC(6)H(4)CO(2)(-).

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Emran Ismail

Effects of non‐ionic and mixed cationic–non‐ionic micelles on the rate of alkaline hydrolysis of phthalimide

Effects of non‐ionic and mixed non‐ionic–cationic micelles on the rate of aqueous cleavages of phenyl benzoate and phenyl salicylate in alkaline medium

An empirical approach to study the occurrence of ion exchange in the alkaline hydrolysis of phthalimide in the presence of cationic micelles and inert salts

Effects of Nonionic, Cationic, and Mixed Nonionic–Cationic Surfactants on the Acid–Base Behavior of Phenyl Salicylate

Kinetic Evidence for the Occurrence of Independent Ion-Exchange Processes in the Cationic Micellar-Mediated Reaction of Piperidine with Anionic Phenyl Salicylate

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