BOC Sciences focuses on the research, synthesis, and large-scale production of peptides, committed to providing high-quality anti-aging peptide raw materials for the global pharmaceutical, biotechnology, and cosmetics industries. With advanced synthetic technologies, a rigorous quality control system, and flexible customization services, BOC Sciences is capable of meeting the diverse needs of clients in the anti-aging field. Our services cover everything from the design, optimization, and custom synthesis of anti-aging peptides to large-scale production, along with formulation support to ensure the bioactivity and market competitiveness of the products. With extensive experience and a professional technical team, BOC Sciences occupies a leading position in the anti-aging peptide field, offering one-stop solutions for clients.
Anti-aging peptides are bioactive molecules composed of amino acids that can delay the aging process through various mechanisms, enhance skin elasticity, promote collagen synthesis, and reduce wrinkles and pigmentation. These peptides typically activate cell repair mechanisms by mimicking the functions of natural signaling molecules, such as promoting fibroblast proliferation, reducing oxidative stress, or inhibiting inflammatory responses. In the cosmetics and biomedical fields, anti-aging peptides are widely used in skincare products, oral supplements, and pharmaceutical formulations to improve skin health and maintain a youthful appearance. Based on their mechanism of action, anti-aging peptides can be classified into signaling peptides (promoting collagen and elastin synthesis), enzyme-inhibiting peptides (reducing collagen degradation), and neurotransmitter-regulating peptides (reducing wrinkle formation).
BOC Sciences is deeply engaged in the field of peptide synthesis, providing highly flexible and precise custom synthesis services for anti-aging peptides to global clients. With advanced solid-phase peptide synthesis (SPPS), liquid-phase peptide synthesis (LPPS), and combinatorial synthesis technologies, we are able to meet various client demands for anti-aging peptides, including specific sequence synthesis, structural optimization, chemical modifications, and improvements in purity and stability. Our custom synthesis services cover the entire process from laboratory research and development to large-scale production, ensuring that each batch of anti-aging peptide products meets the highest standards.
We offer comprehensive anti-aging peptide synthesis services, including custom synthesis of short peptides (2-10 amino acids), medium-length peptides (10-50 amino acids), and long peptides (over 50 amino acids) to meet various needs.
By optimizing techniques such as N-terminal and C-terminal modifications, cyclic peptide design, PEGylation, and fluorescent labeling and biotinylation, we ensure the functionality and stability of the peptides.
Additionally, we utilize efficient synthesis processes such as microwave-assisted synthesis, continuous flow synthesis, and large-scale purification technologies to guarantee high-quality peptide products and exceptional production efficiency.
With the rapid development of the anti-aging skincare market, bioactive peptides have become key ingredients in the cosmetics industry due to their remarkable efficacy. Anti-aging peptides promote collagen synthesis, enhance skin elasticity, reduce wrinkles, and resist oxidative damage, effectively delaying the skin aging process. As a professional peptide synthesis supplier, BOC Sciences offers a variety of efficient anti-aging peptide raw materials widely used in skincare, cosmetics, and related industries. Below is our curated list of popular anti-aging peptide products:
| Anti-Aging Peptide Ingredient | Main Functions and Benefits |
| Palmitoyl Tripeptide-1 | Promotes collagen synthesis, improves skin elasticity, reduces fine lines and wrinkles. |
| Palmitoyl Pentapeptide-4 | Stimulates collagen production, enhances skin firmness, repairs damaged skin. |
| Acetyl Hexapeptide-8 | Mimics botulinum toxin effects, reduces dynamic wrinkles, relaxes facial muscles. |
| Copper tripeptide 1 | Antioxidant, promotes wound healing, stimulates collagen and elastin synthesis. |
| Palmitoyl Oligopeptide | Enhances skin repair, strengthens skin barrier, reduces wrinkles and roughness. |
| Trifluoroacetyl Tripeptide-2 | Protects skin from oxidative stress, improves skin firmness and anti-aging effects. |
| L-Carnosine | Powerful antioxidant, neutralizes free radicals, prevents glycation-induced skin aging. |
| Collagen Peptide | Provides collagen precursors, improves skin hydration, enhances elasticity. |
| Glutathione Peptide | Potent antioxidant, brightens skin, reduces melanin deposition. |
| Ergothioneine | Antioxidant, protects against UV damage, shields skin cells from environmental stress |
BOC Sciences possesses world-leading large-scale manufacturing capabilities for anti-aging peptides, able to meet the full range of needs from laboratory R&D to industrial-scale production. Supported by advanced production facilities, automated synthesis platforms, a stringent quality control system, and efficient supply chain management, we offer anti-aging peptide production services from gram-scale to ton-scale, helping clients in industries such as cosmetics, pharmaceuticals, and nutritional supplements to advance their commercialization processes.
In the development of anti-aging products, the formulation design of peptides is crucial as it directly impacts the final product's stability, bioactivity, permeability, efficacy, and market competitiveness. BOC Sciences not only provides high-quality anti-aging peptide raw materials but also offers professional formulation development support through its powerful R&D team and advanced technical platforms, helping optimize the application of anti-aging peptides in skincare products, functional foods, and pharmaceutical products.
Our team can scientifically combine various peptide ingredients based on different anti-aging mechanisms (such as antioxidant, collagen synthesis promotion, anti-glycation, etc.) to enhance the overall anti-aging effect.
We provide dose optimization solutions to ensure that the peptide's active concentration achieves the desired effect without causing unnecessary cost increases.
For skincare applications, we optimize peptide formulations to enhance their transdermal absorption, such as through nanomulsion technology, liposome encapsulation, or special permeation enhancers, improving the bioavailability of peptide ingredients.
For different dosage forms (such as lotions, serums, masks, oral supplements, etc.), we offer water-soluble or lipid-soluble modification solutions to ensure the uniform distribution and stability of peptides within the product system.
Many anti-aging peptides are prone to degradation in acidic or alkaline environments. We optimize the pH range of the formulation to ensure long-term stability in cosmetics or functional foods.
Peptides may lose their activity in the formulation due to oxidation. We provide antioxidant protection strategies, such as adding vitamin C, vitamin E, antioxidants, or chelating agents, to enhance the peptide's resistance to oxidation.
For the skincare and food industries, we provide non-irritating, safe preservative systems to prevent peptides from losing activity due to microbial contamination while ensuring the gentleness of the formulation.
BOC Sciences offers microencapsulation or nanocarrier encapsulation technologies that effectively protect anti-aging peptides from hydrolysis, oxidation, or light degradation, improving their stability and controlled release in end products.
BOC Sciences always adheres to high-quality standards, establishing a rigorous and comprehensive quality control system for anti-aging peptides to ensure all products meet the requirements for high purity, high activity, and high stability, in compliance with global regulations and industry standards. Our quality control system covers the entire process, from raw material selection, production process monitoring, final product testing, to stability evaluation, ensuring that customers receive the highest quality anti-aging peptide products.
Demand Analysis and Consultation
Peptide Synthesis Design
Synthesis and Modification
Purification and Characterization
Quality Control and Testing
Delivery and Ongoing Support
In the skincare industry, anti-aging peptides are widely used in various products such as creams, serums, masks, and lotions due to their potent biological activity. These peptides effectively promote collagen synthesis, reduce fine lines and wrinkles, and improve skin elasticity and firmness.
In the health supplement sector, anti-aging peptides are mainly used to delay aging, enhance immunity, and improve overall health. Anti-aging peptides, especially in collagen drinks, peptide powders, gummies, and tablets, have become core ingredients for people seeking health and beauty.
In the pharmaceutical field, anti-aging peptides are used in skin repair, joint protection, antioxidant treatments, and anti-aging therapies, with significant potential in regenerative medicine.
Anti-aging peptide raw materials are also widely used in scientific research, providing high-quality experimental materials for studies on anti-aging mechanisms and the development of new peptide compounds.
Peptides are widely considered effective for anti-aging, primarily by promoting skin repair, increasing collagen production, improving skin elasticity, and reducing fine lines. Studies have shown that certain peptides can stimulate skin cell regeneration and repair, helping to address common aging issues such as sagging, dryness, and pigmentation. However, the effects of peptides are usually gradual and may vary between individuals. They typically work best when combined with other skincare ingredients for optimal results.
The most commonly used and effective peptides for anti-aging include copper peptides, hexapeptides, and EGF (epidermal growth factor) peptides. Copper peptides promote collagen synthesis and skin repair, while hexapeptides help reduce the formation of wrinkles and fine lines. EGF peptides stimulate rapid skin cell regeneration, aiding in the repair of damaged skin. Additionally, peptides like retinol peptides have antioxidant properties and accelerate skin renewal.
