Bis[3-(diethoxyphosphoryl)propyl]diallylammonium chloride: Synthesis and use of its cyclopolymer as an antiscalant

Shaikh A. Ali; Shamsuddeen A. Haladu; Hasan A. Al-Muallem

doi:10.1002/app.40615

Bis[3-(diethoxyphosphoryl)propyl]diallylammonium chloride: Synthesis and use of its cyclopolymer as an antiscalant

Shaikh A. Ali^*, Shamsuddeen A. Haladu, Hasan A. Al-Muallem

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

9 Scopus citations

Abstract

A new symmetrically substituted cationic monomer bis[3-(diethoxyphosphoryl) propyl]diallylammonium chloride has been synthesized and cyclopolymerized to give the corresponding cationic polyelectrolyte (+) (CPE) bearing two identical (diethoxyphosphoryl)propyl penedents on the pyrrolidinium repeating units. The hydrolysis of the phosphonate ester in (+) (CPE) gave a pH-responsive cationic polyacid (+) (CPA) bearing the motifs of a tetrabasic acid. The (+) (CPA) under pH-induced transformation was converted into a water-insoluble polyzwitterion acid (±) (PZA) or water-soluble polyzwitterion/monoanion (± -) (PZMAN) or polyzwitterion/dianion (± =) (PZDAN) or polyzwitterion/ trianion (± ≡) (PZTAN), all having identical degree of polymerization. The interesting solubility and viscosity behaviors of the polymers have been investigated in some detail. The apparent protonation constants of the anionic centers in (± ≡) (PZTAN) and its corresponding monomer (± ≡) (ZTAN) have been determined. Evaluation of antiscaling properties of the PZA using supersaturated solutions of CaSO₄ revealed ≈100% scale inhibition efficiency at a meager concentration of 10 ppm for a duration over 71 h at 40°C. The PZA has the potential to be an effective antiscalant in Reverse Osmosis plants. © 2014 Wiley Periodicals, Inc. J. Appl. Polym. Sci. 2014, 131, 40615.

Original language	English
Article number	40615
Journal	Journal of Applied Polymer Science
Volume	131
Issue number	16
DOIs	https://doi.org/10.1002/app.40615
State	Published - 15 Aug 2014

Keywords

polyelectrolytes
properties and characterization
radical polymerization
stimuli-sensitive polymers
synthesis and processing

ASJC Scopus subject areas

General Chemistry
Surfaces, Coatings and Films
Polymers and Plastics
Materials Chemistry

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title = "Bis[3-(diethoxyphosphoryl)propyl]diallylammonium chloride: Synthesis and use of its cyclopolymer as an antiscalant",

abstract = "A new symmetrically substituted cationic monomer bis[3-(diethoxyphosphoryl) propyl]diallylammonium chloride has been synthesized and cyclopolymerized to give the corresponding cationic polyelectrolyte (+) (CPE) bearing two identical (diethoxyphosphoryl)propyl penedents on the pyrrolidinium repeating units. The hydrolysis of the phosphonate ester in (+) (CPE) gave a pH-responsive cationic polyacid (+) (CPA) bearing the motifs of a tetrabasic acid. The (+) (CPA) under pH-induced transformation was converted into a water-insoluble polyzwitterion acid (±) (PZA) or water-soluble polyzwitterion/monoanion (± -) (PZMAN) or polyzwitterion/dianion (± =) (PZDAN) or polyzwitterion/ trianion (± ≡) (PZTAN), all having identical degree of polymerization. The interesting solubility and viscosity behaviors of the polymers have been investigated in some detail. The apparent protonation constants of the anionic centers in (± ≡) (PZTAN) and its corresponding monomer (± ≡) (ZTAN) have been determined. Evaluation of antiscaling properties of the PZA using supersaturated solutions of CaSO4 revealed ≈100\% scale inhibition efficiency at a meager concentration of 10 ppm for a duration over 71 h at 40°C. The PZA has the potential to be an effective antiscalant in Reverse Osmosis plants. {\textcopyright} 2014 Wiley Periodicals, Inc. J. Appl. Polym. Sci. 2014, 131, 40615.",

keywords = "polyelectrolytes, properties and characterization, radical polymerization, stimuli-sensitive polymers, synthesis and processing",

author = "Ali, \{Shaikh A.\} and Haladu, \{Shamsuddeen A.\} and Al-Muallem, \{Hasan A.\}",

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T2 - Synthesis and use of its cyclopolymer as an antiscalant

AU - Ali, Shaikh A.

AU - Haladu, Shamsuddeen A.

AU - Al-Muallem, Hasan A.

PY - 2014/8/15

Y1 - 2014/8/15

N2 - A new symmetrically substituted cationic monomer bis[3-(diethoxyphosphoryl) propyl]diallylammonium chloride has been synthesized and cyclopolymerized to give the corresponding cationic polyelectrolyte (+) (CPE) bearing two identical (diethoxyphosphoryl)propyl penedents on the pyrrolidinium repeating units. The hydrolysis of the phosphonate ester in (+) (CPE) gave a pH-responsive cationic polyacid (+) (CPA) bearing the motifs of a tetrabasic acid. The (+) (CPA) under pH-induced transformation was converted into a water-insoluble polyzwitterion acid (±) (PZA) or water-soluble polyzwitterion/monoanion (± -) (PZMAN) or polyzwitterion/dianion (± =) (PZDAN) or polyzwitterion/ trianion (± ≡) (PZTAN), all having identical degree of polymerization. The interesting solubility and viscosity behaviors of the polymers have been investigated in some detail. The apparent protonation constants of the anionic centers in (± ≡) (PZTAN) and its corresponding monomer (± ≡) (ZTAN) have been determined. Evaluation of antiscaling properties of the PZA using supersaturated solutions of CaSO4 revealed ≈100% scale inhibition efficiency at a meager concentration of 10 ppm for a duration over 71 h at 40°C. The PZA has the potential to be an effective antiscalant in Reverse Osmosis plants. © 2014 Wiley Periodicals, Inc. J. Appl. Polym. Sci. 2014, 131, 40615.

AB - A new symmetrically substituted cationic monomer bis[3-(diethoxyphosphoryl) propyl]diallylammonium chloride has been synthesized and cyclopolymerized to give the corresponding cationic polyelectrolyte (+) (CPE) bearing two identical (diethoxyphosphoryl)propyl penedents on the pyrrolidinium repeating units. The hydrolysis of the phosphonate ester in (+) (CPE) gave a pH-responsive cationic polyacid (+) (CPA) bearing the motifs of a tetrabasic acid. The (+) (CPA) under pH-induced transformation was converted into a water-insoluble polyzwitterion acid (±) (PZA) or water-soluble polyzwitterion/monoanion (± -) (PZMAN) or polyzwitterion/dianion (± =) (PZDAN) or polyzwitterion/ trianion (± ≡) (PZTAN), all having identical degree of polymerization. The interesting solubility and viscosity behaviors of the polymers have been investigated in some detail. The apparent protonation constants of the anionic centers in (± ≡) (PZTAN) and its corresponding monomer (± ≡) (ZTAN) have been determined. Evaluation of antiscaling properties of the PZA using supersaturated solutions of CaSO4 revealed ≈100% scale inhibition efficiency at a meager concentration of 10 ppm for a duration over 71 h at 40°C. The PZA has the potential to be an effective antiscalant in Reverse Osmosis plants. © 2014 Wiley Periodicals, Inc. J. Appl. Polym. Sci. 2014, 131, 40615.

KW - polyelectrolytes

KW - properties and characterization

KW - radical polymerization

KW - stimuli-sensitive polymers

KW - synthesis and processing

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ER -

Bis[3-(diethoxyphosphoryl)propyl]diallylammonium chloride: Synthesis and use of its cyclopolymer as an antiscalant

Abstract

Keywords

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