Located in Wuhu City, Anhui Province, we are a comprehensive chemical manufacturer with more than 15 years of deep industry experience. Since our inception, we have earned wide recognition in both domestic and international markets due to our commitment to product excellence and professional customer service.
With over 100 skilled employees, our technical team ensures high standards throughout R&D, production, and quality control, laying a strong foundation for our company’s continuous and stable development.
Vitamin H, more commonly known as biotin, is a water-soluble vitamin produced in the body by certain types of intestinal bacteria and obtained from food. Considered part of the B complex group of vitamins, biotin is necessary for the metabolism of carbohydrates, fats, and amino acids (the building blocks of protein). Deficiency may result in hair loss, dry scaly skin, cracking in the corners of the mouth (called cheilitis), swollen and painful tongue that is magenta in color (glossitis), dry eyes, loss of appetite, fatigue, insomnia, and depression.
Ferulic acid is a white or off white crystalloid powder hydrolyzed and refined from natural ferulic acid esterase. The plant origin is rice bran. Our company extracts natural trans-ferulic acid. Chemical formula:C10H10O4 Molecular weight:194.184 CAS No.: 1135-24-6 HS No.: 29189900.90
Phloretin is a natural dihydrochalcone found in the peel and root bark of juicy fruit such as apple and pear. It mainly used in cosmetics as a natural skin whitening agent, and food, medicine, health products and other fields.
Quality Advantages: High Purity and Stability Establish Industry Reputation
1. Pharmaceutical-Grade Product Standards
As a leading Azelaic acid supplier, we strictly follow USP and EP pharmaceutical guidelines. Our pharmaceutical-grade azelaic acid consistently achieves a purity level of ≥99%, with stringent impurity controls limiting heavy metals to ≤10 ppm and maintaining minimal chloride ion content. These standards enable safe use in topical and systemic medical applications.
2. Integration of Natural Extraction and Synthetic Processes
Our azelaic acid is produced through a hybrid process that combines natural plant oil oxidative cleavage with advanced synthetic refinement. This dual approach minimizes chemical residues and ensures compliance with REACH and other environmental regulations. The result is a clean, sustainable, and stable active ingredient that meets market demands for eco-conscious formulations.
3. Versatile Product Applications
Our azelaic acid is used across multiple industries. In cosmetics, it serves as a brightening, anti-acne, and keratolytic agent suitable for sensitive skin. In pharmaceuticals, it plays a role in treating conditions like rosacea and melasma. As an Azelaic acid supplier with technical support capabilities, we assist clients in optimizing formulations based on application needs.
Our business portfolio spans three core sectors: cosmetic raw materials, pharmaceutical raw materials, and food & health products. As a committed Azelaic acid supplier, we offer top-tier ingredients for skincare formulations, dermatological treatments, and pharmaceutical innovations. In cosmetics, we deliver high-quality raw materials including botanical extracts and functional actives that support safe and effective product development.
In the pharmaceutical sector, we manufacture APIs and intermediates that comply with international pharmacopoeial standards, aiding medical innovation and safety. For the food and health segment, our products contribute to safer, healthier, and more functional foods and supplements, aligning with modern nutritional needs.
1. Full Traceability and Transparent Documentation Each batch of azelaic acid we manufacture is traceable from raw material sourcing to final delivery. Documentation includes COA, MSDS, third-party test reports, and regulatory compliance certificates (e.g., REACH, ISO, GMP).
2. R&D Partnership for Innovation Beyond supply, we act as a technology partner—supporting clients’ product development with customized testing data, compatibility studies with other active ingredients, and formulation troubleshooting services. Our deep integration of R&D and production ensures consistent results from pilot batches to full-scale commercialization.
3. Global Export Experience We’ve served customers in over 30 countries, including cosmetic labs in France, dermatology brands in the U.S., and pharmaceutical factories in South Korea. Our logistics and customs experience makes us a reliable Azelaic acid supplier across regions.
4. Flexible MOQs for Emerging Brands and Labs To support independent labs and start-ups, we offer low minimum order quantities (MOQs) starting at 500 grams for cosmetic-grade and 1 kg for pharmaceutical-grade azelaic acid. This enables testing, prototyping, and small-batch production without financial strain.
5. Stable Lead Time and Scalable Supply With monthly production exceeding 20 MT, we can deliver from stock or ramp up to meet urgent orders. Our real-time inventory system and dedicated logistics team ensure prompt and predictable fulfillment.
Quality Control
We adhere to rigorous quality control principles, ensuring that every batch of material we produce—including azelaic acid—undergoes meticulous testing and compliance verification. Our in-house laboratories and quality assurance teams implement standardized inspection processes to guarantee consistency, safety, and traceability. Our identity as a dedicated Azelaic acid supplier drives us to innovate constantly, expanding our technical expertise to meet diverse customer needs across applications.
We maintain rigorous batch testing, retain samples for future reference, and employ standardized production protocols to ensure lot-to-lot consistency.
Yes, our regulatory affairs team can provide full dossiers including TDS, COA, MSDS, residual solvents analysis, and allergen statements.
Product Classification and Differentiation
1. Sustainability as a Market Entry Threshold:
Environmental awareness is reshaping the supply chain. As REACH-compliant Azelaic acid suppliers, we implement green chemistry principles and biodegradable packaging options, which help our clients meet regional regulatory standards and consumer sustainability expectations.
2. High-End Demand Driving Technological Advancements: There is growing demand for 99% solid azelaic acid in high-value applications such as dermocosmetics, advanced topical medications, and polymer-based biomedical materials. With the global market expected to grow at a CAGR of over 12% between 2025 and 2030, manufacturers are recommended to partner with an Azelaic acid supplier capable of upstream production control and downstream technical collaboration.
3. Customization and Technical Support:
We offer customization services such as adjusting particle size, altering pH levels, or packaging in specified formats (e.g., 25 kg fiber drums or 1 kg HDPE jars for lab-scale). Our R\&D team provides guidance on formulation compatibility, solubility profiles, and stability considerations to streamline customer development processes.
Vanillyl Butyl Ether, a synthetic derivative of vanillin, offers food manufacturers a unique ingredient that imparts a gentle warming sensation along with sweet, vanilla-like and woody flavor notes. It is considered safe for food use under regulatory limits and compatible with a variety of products, including baked goods, beverages, and confectionery. VBE enhances flavor complexity, masks off-notes, and aligns well with consumer trends for novel sensory experiences. This article discusses its chemical properties, safety, applications, and future potential in food innovation.
Vanillyl butyl ether is a synthetic fragrance compound derived from vanillin that enriches perfumes by providing a refined vanilla note combined with fresh, cooling undertones. Its chemical stability and consistent quality enhance fragrance longevity, diffusion, and sensory complexity. Widely used in various perfume categories, it offers advantages over natural vanilla in cost, sustainability, and stability. While offering numerous benefits, it must be used carefully considering allergenicity and regulatory requirements. With ongoing innovations, vanillyl butyl ether is set to play a major role in the future of perfumery.
Vanillyl Butyl Ether, widely known for its vanilla-like fragrance, offers significant benefits in oral care beyond scent. It provides a unique warming sensation, mild antimicrobial effects, and soothing properties that enhance oral hygiene experiences. Safe and versatile, VBE is emerging as a novel ingredient that boosts product appeal and effectiveness, marking a new frontier in oral care innovation.
Vanillyl Butyl Ether plays a significant role in body lotions by providing a soothing warm sensation through its interaction with skin receptors. This synthetic compound enhances user experience by increasing circulation and promoting skin comfort without irritation when used at appropriate concentrations. Widely appreciated for its gentle yet effective warming effect, Vanillyl Butyl Ether is a popular ingredient driving innovation in sensory skincare formulations.
Vanillyl Butyl Ether (VBE) is a synthetic warming agent increasingly used as a hair growth enhancer. It works by stimulating scalp blood flow, activating sensory receptors, and potentially reducing inflammation, leading to healthier hair follicles and improved scalp condition. While generally safe for most users, VBE is best used as part of a broader hair care routine with consistent application. Ongoing studies aim to better establish its effectiveness and safety profile, making it a promising addition to cosmetic treatments for hair thinning and scalp health.
Vanillyl Butyl Ether is a promising compound used in anti-cellulite and slimming products due to its ability to stimulate blood flow and thermogenesis, leading to fat metabolism and improved skin texture. Offering a safe, mild warming effect, it is well suited for topical formulations that target cellulite and localized fat reduction. Suitable for various product types and synergistic with other actives, it supports holistic cosmetic strategies to enhance body contouring and skin firmness.
Vanillyl Butyl Ether (VBE) is a valuable flavoring compound offering warm vanilla notes with fruity undertones. Selecting the right VBE for food applications requires understanding its chemical structure, sensory profile, purity, regulatory compliance, and interactions with food matrices. This article guides readers through these considerations, practical evaluation methods, and current trends, enabling optimal use of VBE to enhance diverse food products' flavors safely and effectively.
This article explores the advantages and drawbacks of natural extracts and Vanillyl Butyl Ether in cosmetic formulations. Natural extracts offer multiple skincare benefits and consumer appeal but face challenges with stability and potential allergens. Vanillyl Butyl Ether provides a consistent warming sensation and enhanced shelf life but lacks multifunctional skin benefits. Choosing between them depends on product goals, brand values, consumer preference, and formulation complexity.
This article provides a comprehensive guide on verifying the quality and purity of vanillyl butyl ether from suppliers. It covers the compound's properties, key quality parameters, sampling methods, advanced analytical testing techniques such as GC-MS, HPLC, and NMR, and best practices for handling and storage. The article also discusses common impurities, regulatory requirements, and supplier evaluation to ensure consistent, high-quality supplies for industrial applications.
Purchasing Vanillyl Butyl Ether in bulk requires attention to purity, supplier reliability, regulatory compliance, packaging, and cost management. High purity ensures efficacy and safety in skincare applications, while credible suppliers reduce risks related to quality and delivery. Compliance with regulations and proper storage safeguards product integrity. Understanding these factors aids businesses in optimizing their chemical procurement strategy.
Choosing high-quality Beta-D-Glucopyranosiduronic Acid is critical for product efficacy across pharmaceutical, cosmetic, and nutraceutical industries. This guide covers essential aspects including purity, source, manufacturing standards, stability, and supplier evaluation. It also discusses laboratory testing and formulation tips to help businesses secure a reliable, effective ingredient to enhance their product lines while maintaining compliance and sustainability.
Beta-D-Glucopyranosiduronic Acid is a naturally derived uronic acid gaining recognition in cosmetics for its exceptional moisturizing, anti-inflammatory, and skin barrier-enhancing properties. Its unique structure enables effective hydration and soothing benefits, making it ideal for sensitive and dry skin types. Extracted sustainably from plants and seaweed, it also plays a vital role in improving product texture and stability. With excellent safety and compatibility profiles, it holds strong future potential in innovative and eco-friendly skincare formulations.
Beta-D-glucopyranosiduronic acid is a naturally derived biopolymer component with significant applications in drug delivery systems due to its pH-responsive behavior, mucoadhesion, and biocompatibility. It enables controlled and targeted drug release, improves bioavailability, and facilitates drug protection and functionalization. Despite industrial and regulatory challenges, ongoing research underscores its role in advancing safer and more effective therapeutic platforms.
This article explores the distinct characteristics of Beta-D-glucopyranosiduronic acid compared to other glucuronides. Emphasizing its unique beta-anomeric pyranose structure, the discussion covers its biochemical roles, structural differences, and importance in drug metabolism and detoxification. Understanding these differences aids in pharmacological, toxicological, and diagnostic contexts, highlighting Beta-D-glucopyranosiduronic acid’s critical place in metabolic processes.
Beta-D-Glucopyranosiduronic acid is a sugar acid derived from glucose, characterized by a six-membered pyranose ring and a carboxyl group at carbon 6, giving it acidic properties. Its beta anomeric configuration and specific stereochemistry enable its roles in polysaccharide formation, detoxification, and molecular interactions. Understanding its structure reveals its significance in biological processes and material science applications.
Beta-D-Glucopyranosiduronic acid is an essential uronic acid derived from glucose that plays a pivotal role in drug metabolism, detoxification, and the structural integrity of biological polymers. It is critical in pharmaceutical sciences for its involvement in glucuronidation, influencing drug efficacy and safety. Beyond metabolism, it is used in drug delivery, tissue engineering, and personalized medicine. This article explores its chemical nature, biological significance, and pharmaceutical applications, highlighting why it remains a cornerstone in developing safer and more effective therapies.
This article provides a comprehensive guide on best practices for sourcing high-purity Beta-D-Glucopyranosiduronic acid, emphasizing quality control, supplier evaluation, and analytical verification. Proper handling, storage, and regulatory compliance are detailed to ensure consistent product performance. Future trends in synthetic biology and automation offer promise for improved purity and sustainability in sourcing.
This article provides an in-depth guide for selecting the best Beta-D-Glucopyranosiduronic acid suppliers by evaluating critical factors such as product quality, regulatory compliance, manufacturing capabilities, supply chain reliability, and customer support. It also outlines a step-by-step comparison process, common challenges, and future trends in the industry, empowering buyers to make informed decisions and build successful partnerships with manufacturers.
This article compares Beta-D-Glucopyranosiduronic Acid and Wogonoside—two distinctive natural compounds—with a focus on their chemical structures, biological functions, and therapeutic benefits. Beta-D-Glucopyranosiduronic Acid primarily supports structural integrity and detoxification, while Wogonoside offers anti-inflammatory, anticancer, and neuroprotective effects. Understanding their unique roles enhances potential health and medicinal applications.
This article explores the differences between natural extracts and synthetic Beta-D-Glucopyranosiduronic acid in formulations. It covers their sources, benefits, limitations, and environmental impact. While natural extracts offer biocompatibility and multifunctionality, synthetic versions provide consistency, purity, and customization. Choosing the right option depends on your formulation’s needs, safety standards, and sustainability goals.
Choosing the right Azelaic acid supplier is critical to ensuring the performance, safety, and marketability of your end products. With advanced manufacturing capacity, international certification, and a customer-first approach, we are committed to helping you accelerate innovation and achieve success in the global market.
WUHU TIANCI CHEMICAL CO., LTD is a comprehensive enterprise with profound background and innovative strength in the fields of cosmetic raw materials, pharmaceutical raw materials and food additives.
