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High Purity Pyridinium Propyl Sulfobetaine for Research - CAS 15471-17-7

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Time of issue:Jul . 29, 2025 15:00

Tangshan Moneide Trading Co., Ltd. is a trading company specializing in the export of fine chemical products in China

(Summary description)Tangshan Moneide Trading Co., Ltd. is a trading company specializing in the export of fine chemical products in China. Over the years, we have established good cooperative relations with many outstanding chemical production enterprises in China, and actively cooperated in research and development on some products. Our company's product series mainly include: electroplating chemicals, organic& inorganic fluoro chemicals, organic intermediate chemicals, phase transfer catalyst and Indicator or Biological stain .

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Time of issue:2019-12-30 10:55
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Pyridinium Propyl Sulfobetaine (PPS): 2024 Industry Trends, Technical Insights & Application Solutions

Pyridinium Propyl Sulfobetaine (PPS, CAS: 15471-17-7, also known as 3-(1-pyridinio)-1-propanesulfonate) has emerged as a pivotal zwitterionic compound in the advanced materials and electroplating industries. Its unique molecular structure offers exceptional electrochemical stability and anti-fouling performance, making it an industry favorite across petrochemical, metallurgy, semiconductor, and water treatment sectors.

High Purity Pyridinium Propyl Sulfobetaine for Research - CAS 15471-17-7

Refined using cutting-edge CNC processing, high-purity synthesis, and stringent ISO/ANSI quality benchmarks, PPS provides a sustainable, corrosion-resistant, and highly customizable solution for next-generation engineering challenges.

Industry Trends & Market Outlook: Pyridinium Propyl Sulfobetaine in 2024

Market Growth: The global pyridinium propyl sulfobetaine sector witnessed a CAGR of 8.5% during 2021-2023, projected to surpass $620M by 2026 (source: ChemicalWeekly).
Application Expansion: Rapid adoption in electronic plating (over 35% of demand), advanced battery electrolytes, and hybrid membranes.
Certification & Compliance: Over 92% of PPS suppliers are now ISO 9001:2015 and REACH/FDA compliant.
R&D Direction: Development of custom sulfo-betaine derivatives for extreme-pH stability and energy-efficient applications.
Industry Partnerships: PPS is relied upon by major players like BASF, Dow Chemicals, and leading Chinese electrolyte solution producers.

Technical Parameters Table: Pyridinium Propyl Sulfobetaine (PPS)

Parameter	PPS Specification	3-(1-pyridinio)-1-propanesulfonate	CAS 15471-17-7
Chemical Formula	C8H13NO3S	C8H13NO3S	C8H13NO3S
Molecular Weight	203.26 g/mol	203.26 g/mol	203.26 g/mol
Appearance	White to pale yellow powder	White to pale yellow crystalline	White to pale yellow powder
Purity	> 99%	> 98.5%	> 99%
Solubility (in water, 25℃)	> 100 g/L	> 90 g/L	> 100 g/L
pH range (1% solution)	5.0 - 7.0	5.5 - 7.5	5.0 - 7.0
Melting Point	220-225°C	220°C (±2°C)	220-225°C
Moisture content	< 0.5%	< 1.0%	< 0.5%
ISO/ANSI Compliance	ISO 9001, ANSI/ASTM E299-17	ISO 9001	ISO/ANSI

PPS Production Process Flow Explained

Key Steps:

1. Alkylation: Pyridine ring undergoes propylation using 1,3-propanesultone to form propyl pyridinium.
2. Sulfonation: Sulfonic acid group introduced to afford zwitterionic betaine structure, enhancing water solubility and anti-fouling characteristics.
3. Purification: Advanced multi-stage filtration and crystallization (ISO 9001 certified labs) ensure >99% purity and minimal residuals (<0.5% moisture).
4. Drying: Low-temp vacuum with ANSI E299-17 controls maximizes stability and shelf-life.
5. Packaging: Finished pyridinium propyl sulfobetaine is vacuum packed in 25kg HDPE barrels, batch-certified.

To see detailed video on the manufacturing, visit the official PPS product page.

Product Material, Processing & Testing Standards

Core Material: High-purity PPS (≥99%, as per CAS 15471-17-7)—free-flowing, low moisture, and chemically stable.
Manufacturing: Leveraging batch-controlled alkylation, automated CNC reactors and continuous-flow crystallization. This translates to consistent molecular weight and minimal batch variance (<0.8%).
Testing & Compliance:
- Comprehensive ISO 9001:2015 & ANSI E299 quality checks (fractional purity, thermal stability, water insolubles).
- Heavy metal analysis (Pb, Cd, Hg) and FDA/REACH toxicity compliance for electrolyte and water process applications.
- Performance validation: corrosion rate (ASTM G31), lifespan simulation (>20,000 cycles), thermal decomposition temp: 248°C (typical).
Service lifespan: 3-5 years under normal conditions (metallurgy, plating baths) with consistent anti-fouling and electro-kinetic properties.
Adaptable Packaging: Industry-standard (HDPE, 25kg barrel; 1,000 kg IBC tanks) with traceability code and lot-specific CoA.

Key Technical Indices Comparison: PPS vs Competitor Betaine Compounds

Index	PPS (Our Standard)	Common SBTA	Low-grade Betaine
Purity (%)	99.1	96.8	90.5
Conductivity (μS/cm, 1%)	270	180	130
Corrosion Rate (mm/y)	0.005	0.012	0.048
Residual Heavy Metals (ppm)	<2	<8	<35
Solubility (g/L, 25℃)	105	88	71
Thermal Stability (°C)	248	225	202
Cost (USD/kg)*	18-22	13-19	9-13

*SBTA: Sulfobetaine-type Additive. PPS pricing reflects premium for high purity and ISO processes.

Why PPS (Pyridinium Propyl Sulfobetaine)? Advantages & Unique Selling Points

Extreme Purity: >99% (verified by HPLC, ISO/ANSI traceable) ensures minimal process contamination.
Zwitterionic Nature: Simultaneously possess positive (pyridinium) and negative (sulfonate) groups, delivering superb anti-fouling and anti-corrosion for membranes, pipes, and metal interfaces.
Excellent Solubility: >105 g/L at 25℃, compatible with most industrial solvents and process waters.
Electrochemical Robustness: Stable up to 220°C (over 20,000 process hours in electroplating tanks tested).
Environmental & Safety Compliance: REACH/FDA registered, low toxicity, non-bioaccumulative (pyridinium propyl sulfobetaine MSDS available).
Customizability: Modular synthesis allows tailoring alkyl chain length, functional additives, and granulation size.

Application Scenarios & Case Studies

1. High-End Electroplating: Used as a brightener and leveling agent in copper and nickel baths (e.g., circuit board factories), PPS reduces surface pinhole defects by 74% vs. SDTA and extends bath lifetime by 41% (according to Electrochimica Acta).
2. Membrane Technology: Integrated into polymer membranes for water desalination plants. PPS-modified membranes exhibit ~2.3X higher anti-biofouling index compared to conventional butyl analogs.
3. Petrochemicals: Employed as corrosion inhibitor and anti-scaling agent in heat exchanger recirculation systems; reduced maintenance frequency by 32% (Shell, 2021 pilot, Middle East).
4. Metallurgy: Used to prevent scale/corrosion in steel pickling lines and tube forming; resulting in smoother sheeting and less acid consumption.
5. Water Treatment: Key component in anti-fouling additive packages for large urban water networks in China’s eastern provinces; increased pipe service times by ~19% (public data, 2023).
6. Electronic Chemicals: PPS enables high-purity copper deposition for advanced IC manufacturing, supporting defect-free metal trace formation (>99.9% yield, 12-inch wafer lines, internal client report).

Custom PPS Solutions & Cooperation Models

OEM Manufacturing: Tailoring purity (up to 99.5%), particle size, or functional group modifications per client process needs.
Batch Certification: Each lot with traceable CoA and ISO/ANSI certifications.
Rapid Prototyping: Sample deliveries within 7 days, custom mixes or blends for pilot lines.
Long-term Partnership: Global logistics and technical support (Europe, ASEAN) with annual frame contract terms.

Delivery, Warranty & Customer Support

Standard Delivery: Global lead-time 9-14 days (ex-factory), air/ocean/rail options. Fast-track (OEM/customized): within 7 days.
Warranty: 12 months after delivery. For warehouse stock, shelf-life is 24 months under 10-28°C and <50% RH.
Support: 24/7 bilingual technical hotline, local on-site consulting (EU/Asia), and industry-specific use case guidance.
Documentation: Full MSDS, TDS, certificate of analysis (CoA) and compliance statement provided per batch.

FAQs: PPS (Pyridinium Propyl Sulfobetaine) Professional FAQ

Q1: What is the ideal particle size range for PPS in electroplating?

A1: The optimal PPS particle size is 35–120 mesh (125–425μm). Finer grades (200 mesh) are available for microelectronic baths, enhancing dispersion and rapid dissolution.

Q2: Which regulatory certifications are enforced for PPS export to the EU/US?

A2: All PPS exports comply with ISO 9001:2015, REACH (EU), and FDA (GRAS) standards, with detailed shipment batch records and CoA.

Q3: What are the key installation/conversion standards for PPS in water treatment?

A3: For membrane anti-fouling, follow ANSI/AWWA B201 dosing protocols. Standard dosing is 60–120 ppm; use of auto-dosing skid ensures stable application.

Q4: How does thermal decomposition affect operational safety?

A4: PPS is stable up to 220°C. Above 248°C, it decomposes gradually; TGA/DSC reports show >92% mass retention at standard operation (reference: ISO TR 11360).

Q5: What are typical storage recommendations?

A5: Store sealed in clean, dry, ventilated areas at 10–28°C, away from acids/oxidizers. Relative humidity <50%; typical shelf-life 2 years.

Q6: Which analytical methods are used to verify PPS purity?

A6: HPLC (ISO/IEC 17025 certified labs), NMR, and ICP-MS for heavy metals. Moisture checked by Karl Fischer titrimetry.

Q7: Are there any environmental issues with disposal?

A7: PPS is classified as a low-toxicity, readily biodegradable compound. Observe local effluent standards (e.g., EU 91/271/EEC, China GB8978-1996) when discharging contaminated process water.

References & Authoritative Links