Superabsorbent Polymers: Classification and Applications

SAP can be categorized as powders, particles, fibers, spheres, emulsions, and membranes.

Superabsorbent Polymers (SAP) can be classified from different perspectives:

1. Morphological Structures:

SAP can be categorized as powders, particles, fibers, spheres, emulsions, and membranes. These structural variations are designed to meet diverse application requirements. For example, powders can be used in the production of sanitary napkins and diapers by incorporating them into multi-layered sheets. Spherical products and particles are suitable for deodorant applications. Fiber-based SAP are used to create antistatic electric fibers, while membranes find use in anti-frost sheets. Emulsion forms are preferred for soaking and painting applications.

2. Sources:

SAP can be classified into three main categories based on their sources:

a. Natural macromolecules, including polysaccharide-based and polypeptide-based materials. Polysaccharide-Based SAP, such as cellulose, starch, chitin, chitosan, and natural gums (e.g., xanthan, guar, and alginates), can be prepared through direct cross-linking of polysaccharides or by graft copolymerization of vinyl monomers onto polysaccharides in the presence of a crosslinking agent .

b. Semi-synthetic polymers.

c. Synthetic polymers, such as petrochemical-based.

Compared to synthetic counterparts, natural-based SAP offer several advantages, including degradability (reducing environmental pollution), compatibility, non-toxicity, and cost-effectiveness . However, petrochemical-based SAP have encountered challenges such as rising global oil prices and environmental pollution concerns. One drawback of natural polymers is their low solubility in water, necessitating chemical modifications to create soluble derivatives like carboxymethyl starch (CMS) and carboxymethyl cellulose (CMC) .

3. Preparation Methods:

SAP can be categorized based on preparation methods into crosslinking polymerization, radiation cross-linking, graft polymerization, and the formation of water-soluble polymer networks [4].

4. Electrical Charges on Cross-linked Chains:

A. Non-ionic polymers: They absorb water and aqueous fluids through a mixing effect due to hydrophilic groups, resulting in a swollen, soft gel due to hydrogen bond solvation .

B. Ionic polymers: These include anionic and cationic polymers. The presence of charges along the backbone significantly increases swelling due to strong ion-dipole interactions and osmotic pressure enhancement from solvated counter-ions.

C. Ampholytic (amphoteric) polymers: These contain both basic and acidic groups.

D. Polybetaines (zwitterionic): They contain both cationic and anionic groups in each repeating unit . Recently, photochromic hydrogels were developed with a water absorption capacity of 2800 g/g.

Agricultural Applications:

SAP incorporated into the soil can absorb water from rainfall or excessive irrigation. They then release this water slowly based on root demand through osmotic pressure differences, leading to improved growth rates. Additionally, SAP can be utilized for the controlled release of pesticides and agrochemicals. SAP have a significant impact on various soil properties, including permeability, aeration, density, structure, erosion resistance, evaporation, microbial activity, and infiltration rates. They are also used to enhance nutrient retention and water-holding capacity in sandy soils (macro-porous medium), particularly in arid regions. Furthermore, SAP can reduce water losses, irrigation frequency, and soil compaction tendencies.

In terms of plant health, SAP can enhance color intensity, coverage percentage, sport turf density, and reduce wilting levels. In agriculture, SAP are mixed with soil, seeds, agricultural chemicals, and fertilizers, creating water-absorbent slow-release fertilizers. In forestry, SAP are applied over roots to protect trees from drying out during transportation.

Other Applications:

SAP can also be used in many applications such as flame retardants, dehydration of adulterated fuels, artificial snow, ice packs, decorative (colored) products, sanitary napkins, building interior decoration, waste solidifiers in sludge treatment, drilling fluids, medical waste solidifiers, nursing pads, etc.