Novel Ingredient Technology

Advancing

Novel Ingredient

Technology

Ingredient Discovery

Bioactive Design

Functional Targeting

Novel Ingredient Technology

Material Innovation Technology for Discovering Next-Generation Bioactives

We explore diverse bio-derived materials and functional ingredients, and design next-generation active ingredients based on skin applicability and biological relevance.
Through a technology system that connects ingredient discovery to functional targeting, we build differentiated material competitiveness.

Ingredient Discovery Technology

We explore next-generation functional ingredients with high efficacy potential from various sources, including minerals, natural materials, and bio-derived materials.

Functional Targeting Design

We design more sophisticated functional materials by considering the biological functions of ingredients and their intended applications.

Bioactive Discovery

Introducing Functional Bio-Material Discovery and Design Technologies

01 Mineral Bioactive - Technology for Converting Minerals into Functional Bio-Materials

Mineral Bioactive is a technology that redesigns mineral-based active ingredients into more biocompatible structures so they can be used as functional bio-materials. Since minerals may generally have limitations in absorption and usability when applied to the body or skin, structural design is applied to improve these properties. In addition, fermentation and complexation processes enhance activity and stability, securing an application foundation that enables more effective functional expression within the skin and tissues.

02 Botanical Bioactive - Functional Materials Scientifically Redesigned from Natural-Derived Ingredients

Botanical Bioactive is a technology that discovers active ingredients from natural and traditional herbal materials, scientifically analyzes them, and redesigns them into bio-materials with enhanced functionality. Rather than simply using naturally derived ingredients, it applies extraction and purification technologies focused on active components to increase the value of key ingredients. It also reinterprets traditionally used materials from a modern perspective to strengthen functionality and enhances practical applicability through bioactive design tailored to skin application purposes.

03 EV (Extracellular Vesicle) Bioactive - High-Efficiency Bio-Materials Using Intercellular Signaling Systems

EV Bioactive is a technology that uses cell-derived extracellular vesicles (EVs) to apply intercellular signaling mechanisms in the body to functional material development. EVs have the ability to effectively deliver various bioactive substances, such as proteins and RNA, offering higher biocompatibility and delivery efficiency compared to conventional ingredients. Based on this, functional materials are combined with EVs to enhance delivery performance and expand them into more precise and efficient bio-materials.

04 Chemical Bioactive - Synthetic-Based Materials Designed to Deliver Targeted Functions

Chemical Bioactive is a functional bio-material technology developed based on synthetic and derivative design to achieve purpose-specific functions. Molecular structures are precisely designed according to the desired efficacy and application direction, while consistent quality is secured through structural optimization that considers stability and reproducibility. It also enables the development of precision functional materials that act on specific targets, and can be expanded to enhance synergistic effects through combination with natural materials when needed.

Targeted Design

Introducing Molecular Mechanism Analysis and Target Design Technologies

01 Molecular Mechanism - Controlling Changes at the Molecular Level, the Starting Point of Aging

It is a technology that precisely regulates molecular-level changes associated with aging to prevent functional decline and maintain physiological balance. It is designed to respond to major aging factors such as inflammation, oxidative stress, and protein denaturation, while strengthening tissue stability by regulating gene expression related to the skin barrier and structural proteins. It also provides a foundation for maintaining overall cellular function by balancing intracellular signaling pathways.

02 Cellular Targeting - Precisely Targeting Cells with Functional Decline

It is a technology designed to selectively act on specific cells and cellular functions where needed. It is structured to directly respond to reduced cellular activity and functional decline, and induces more precise responses by regulating intercellular signaling and interactions. It also uses delivery technologies such as EVs to improve targeting efficiency and ensure that active ingredients are effectively delivered to the cells that need them.

03 Tissue Regeneration - Restoring Overall Tissue Function Beyond the Cellular Level

It is a technology that creates an environment capable of promoting the recovery and regeneration of damaged tissues. It enhances the physical stability of tissues by improving skin structure and increasing dermal density, while supporting tissue function recovery through the activation of regeneration-related signals. It is also designed to maintain a continuous regeneration cycle, helping preserve healthy skin and tissue conditions from a long-term perspective.

pharmology global

Proposing New Possibilities for Functional Bio-Materials

We complete the skin’s natural recovery with pharmaceutical standard biotechnology.

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Advancing