A high-performance dishwasher pod utilizing dual enzymes, oxygen bleach, and corrosion inhibitors for tough stain removal, though it relies on synthetic fragrances and ethoxylated surfactants.
This ingredient list represents a premium, high-performance formulation. It combines a strong bleaching system (Sodium Carbonate Peroxide with a Transition Metal Catalyst) to tackle oxidizable stains like tea and coffee. The use of Trisodium Dicarboxymethyl Alaninate (MGDA) is a sign of a modern detergent; it is an exceptionally strong, biodegradable chelating agent that handles hard water effectively to prevent filming. The inclusion of both Subtilisin (Protease) and Amylase enzymes ensures the breakdown of stubborn protein and starch residues, while Benzotriazole and Tolyltriazole serve as dedicated corrosion inhibitors to protect silverware.
While better than older phosphate-containing detergents, this formula relies heavily on synthetic chemistry. Isotridecanol Ethoxylated and PEG/PPG Propylheptyl Ether are ethoxylated surfactants, which can be associated with manufacturing impurities like 1,4-dioxane and may persist in the environment. Subtilisin is classified as a respiratory sensitizer and allergen. The generic listing of Fragrances masks potential allergens. Additionally, the Copolymer of Acrylic and Sulphonic Acids acts as a dispersant but is generally not biodegradable. The pod format is highly concentrated, posing acute risks for eye irritation and ingestion if not stored correctly.
This product achieves a high overall rating due to its elite cleaning potential. The chemistry used here is designed to eliminate the need for pre-rinsing and handles tough water conditions well. However, it is not an ‘eco-friendly’ product in the strict sense, despite being phosphate-free. The final score reflects a balance between industrial-strength efficacy and the moderate safety profile typical of conventional chemical detergents.
This formulation represents a highly effective, conventional dishwasher detergent designed for maximum stain removal and shine. The backbone of the cleaning power lies in the combination of Sodium Carbonate Peroxide (oxygen bleach) and a Transition Metal Catalyst. This duo works aggressively to oxidize organic stains like tea, coffee, and tomato sauce, ensuring that dishes come out bright and bleached clean without the harshness of chlorine.
To complement the bleaching action, the inclusion of dual enzymes—Subtilisin (a protease) and Amylase—is a crucial addition. These biological catalysts target specific food residues; the protease breaks down proteins like egg and meat, while the amylase tackles starchy residues like pasta and potatoes. This enzymatic approach is the industry standard for high-performance detergents, significantly reducing the need for pre-rinsing your dishes before loading them.
The formula also pays distinct attention to glassware protection and machine maintenance. The presence of Tolyltriazole and Benzotriazole serves as corrosion inhibitors, specifically protecting silver and copper components within the dishwasher and potentially reducing the etching and cloudiness often seen on glassware over time. Furthermore, the Copolymer of Acrylic and Sulphonic Acids acts as an anti-redeposition agent and scale inhibitor, preventing hard water minerals from settling back onto clean dishes, which is essential for achieving a spot-free finish.
However, consumers seeking a strictly “green” or non-toxic product might find this ingredient list less appealing. The use of Isotridecanol Ethoxylated and PEG/PPG Propylheptyl Ether involves ethoxylation, a process that can leave trace contaminants, though they are excellent surfactants for grease removal. Additionally, the inclusion of unspecified Fragrances can be a trigger for those with respiratory sensitivities or contact dermatitis. While Trisodium Dicarboxymethyl Alaninate is a biodegradable chelating agent that replaces harmful phosphates, the overall reliance on synthetic polymers and soluble plastic films (Polyvinyl Alcohol Polymer) places this product firmly in the convenience and performance category rather than the zero-waste or all-natural segment. If your priority is cleaning power and convenience over strict ingredient purity, this is a robust choice.
🧪 Sodium Carbonate / 碳酸钠
Purpose: Provides alkalinity to help cleaning and softens water.
Concerns: Can be irritating to eyes and skin.
Notes: Commonly known as soda ash.
🧪 Trisodium Dicarboxymethyl Alaninate / 甲基甘氨酸二乙酸三钠
Purpose: A strong chelating agent that binds minerals in hard water to improve cleaning efficiency.
Concerns: Generally considered safe and biodegradable.
Notes: Often used as an eco-friendly alternative to phosphates.
🧪 Sodium Carbonate Peroxide / 过碳酸钠
Purpose: Releases oxygen to remove tough stains like tea and coffee.
Concerns: Strong oxidizer; irritating to eyes and skin.
Notes: Also known as oxygen bleach.
🧪 Transition Metal Catalyst / 过渡金属催化剂
Purpose: Activates the bleaching agent at lower temperatures.
Concerns: Specific toxicity depends on the metal used (often Manganese), generally low in final dilution.
Notes: Enhances the efficiency of sodium carbonate peroxide.
🧪 Isotridecanol Ethoxylated / 乙氧基化异十三醇
Purpose: Non-ionic surfactant used to break down grease and oil.
Concerns: Can be toxic to aquatic life if released in large quantities.
Notes: Helps in wetting surfaces.
🧪 PEG/PPG Propylheptyl Ether / PEG/PPG 丙基庚基醚
Purpose: A low-foaming surfactant that aids in rinsing.
Concerns: Low concern in consumer dilutions.
Notes: Designed to prevent excess foam in the dishwasher.
🧪 Subtilisin / 枯草杆菌蛋白酶
Purpose: Protease enzyme that breaks down protein-based stains like egg or meat.
Concerns: Can cause respiratory sensitization or allergic reactions if inhaled.
Notes: Essential for food removal.
🧪 Amylase Enzyme / 淀粉酶
Purpose: Breaks down starch-based stains like pasta, rice, and potatoes.
Concerns: Potential respiratory allergen.
Notes: Works in conjunction with protease for broad cleaning.
🧪 Polyvinyl Alcohol Polymer / 聚乙烯醇聚合物
Purpose: Forms the water-soluble film that encases the detergent pod.
Concerns: Generally safe, though biodegradability in all water conditions is sometimes debated.
Notes: Dissolves upon contact with water.
🧪 Copolymer of Acrylic and Sulphonic Acids / 丙烯酸和磺酸共聚物
Purpose: Dispersant that prevents scale deposits and spotting on dishes.
Concerns: Synthetic polymers are often not readily biodegradable.
Notes: Helps maintain the shine on glassware.
🧪 Tolyltriazole / 甲基苯并三氮唑
Purpose: Protects metals, particularly silver and copper, from corrosion.
Concerns: Toxic to aquatic life with long-lasting effects.
Notes: Prevents tarnishing of silverware.
🧪 Benzotriazole / 苯并三氮唑
Purpose: Corrosion inhibitor for metals.
Concerns: Persistent in the environment and toxic to aquatic life.
Notes: Similar function to Tolyltriazole.
🧪 Sodium Sulfate / 硫酸钠
Purpose: Filler and flow aid.
Concerns: Low toxicity.
Notes: Often a byproduct of manufacturing or used to adjust bulk density.
🧪 Water / 水
Purpose: Solvent and processing aid.
Concerns: None.
Notes: Present in trace amounts or as a solvent in liquid sections.
🧪 Dipropylene Glycol / 二丙二醇
Purpose: Solvent and carrier for other ingredients.
Concerns: Low toxicity.
Notes: Helps stabilize the formula.
🧪 Glycerin / 甘油
Purpose: Humectant and solvent.
Concerns: None.
Notes: Helps maintain the integrity of the pod film.
🧪 Fragrances / 香精
Purpose: Provides a pleasant scent.
Concerns: Common cause of contact dermatitis and allergies.
Notes: Exact composition is proprietary.