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Biomaterials Product List and Ranking from 5 Manufacturers, Suppliers and Companies | IPROS GMS

Last Updated: Aggregation Period:Mar 04, 2026~Mar 31, 2026
This ranking is based on the number of page views on our site.

Biomaterials Manufacturer, Suppliers and Company Rankings

Last Updated: Aggregation Period:Mar 04, 2026~Mar 31, 2026
This ranking is based on the number of page views on our site.

  1. スリー・ディー・マトリックス Tokyo//Pharmaceuticals and Biotechnology
  2. マーケットリサーチセンター Tokyo//Service Industry
  3. ナード研究所 Hyogo//Chemical
  4. 4 東レリサーチセンター Tokyo//Service Industry
  5. 5 ボレガード エーエス 日本支店 Tokyo//Chemical
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Biomaterials Product ranking

Last Updated: Aggregation Period:Mar 04, 2026~Mar 31, 2026
This ranking is based on the number of page views on our site.

  1. Biomaterial "Self-assembling Peptide Hydrogel" スリー・ディー・マトリックス
  2. [Research Material] World Market for Biomedical Materials マーケットリサーチセンター
  3. [Material] Medical high polymers and biomaterials ナード研究所
  4. 4 Technical Information Magazine 201911-01 Biomaterials in the Field of Regenerative Medicine 東レリサーチセンター
  5. 4 What is lignin? Unexpected discoveries have expanded its industrial use. ボレガード エーエス 日本支店

Biomaterials Product List

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[Material] Medical high polymers and biomaterials

[Material] Medical high polymers and biomaterials

We will examine material development, including considerations from a biochemical perspective! We contribute to our customers' research and development.

Nard Laboratory Co., Ltd. supports the research and development of polymer materials used in environments that come into contact with biological cells such as skin and blood. The development of biocompatible materials is attracting significant attention in the fields of medical devices and regenerative medicine research and development. Surface properties act on the contacting cells, influencing cell adhesion promotion or inhibition, and even the secretion of growth factors due to extracellular stimuli. Our company examines the development of these materials from a biochemical perspective to contribute to our customers' research and development. 【Features】 ■ Prototype development of polymers for coating surfaces of devices and equipment ■ Support for the development of biodegradable polymers ■ Fluorescent labeling of polymer materials and functional molecular labeling (biochemical research reagents) ■ Process development for medical polymers ■ Chemical modification of reactive functional groups on polymers ■ Hydrogel modification *For more details, please refer to the related links page or feel free to contact us.

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  • Biomaterials

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Biomaterial "Self-assembling Peptide Hydrogel"

Biomaterial "Self-assembling Peptide Hydrogel"

Contributing to advancements in healthcare! Self-organizing peptide hydrogels with diverse applications.

"Self-Organizing Peptide Hydrogel" can acquire new properties by modifying peptide sequences or adding bioactive motifs, and its applications are diverse. Current application fields include chondrocytes, osteocytes, neurons, vascular endothelial cells, cardiomyocytes, stem cells, and maintenance of undifferentiated ES cells. 【Peptide Sequence Lineup and Features】 ○ RADA16 (PuraMatrix): Sequence Ac-(RADA)4-NH2 → Forms a fine structure (nanofibers) similar to natural ECM, allowing various cells to adhere. ○ KLD12: Sequence Ac-(KLDL)3-NH2 → A scaffold similar to RADA, forming a harder gel. ○ IEIK13: Sequence Ac-(EIKI)3-NH2 → Resistant to heat and enzymes, forming a harder gel at lower concentrations than RADA. For more details, please contact us or download the catalog.

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Technical Information Magazine 201911-01 Biomaterials in the Field of Regenerative Medicine

Technical Information Magazine 201911-01 Biomaterials in the Field of Regenerative Medicine

The technical information magazine The TRC News provides the latest information on analytical techniques that are useful for research and development, solving production troubles, and quality control.

**Abstract** In the field of regenerative medicine, biomaterials require material design aimed at enhancing cell function. The details of which properties contribute to cell function remain an unresolved issue, but mechanical and morphological characteristics are gaining attention. This paper introduces examples of property evaluations focusing on alginate gels. Furthermore, elucidating the gelation mechanism is crucial for property control, and a proposal for the gelation mechanism was made through the analysis of the gelation process from an aqueous solution of alginate. **Table of Contents** 1. Introduction 2. Property Evaluation of Alginate Gels 3. Gelation Mechanism of Alginate 4. Conclusion

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  • Technical and Reference Books
  • Biomaterials

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What is lignin? Unexpected discoveries have expanded its industrial use.

What is lignin? Unexpected discoveries have expanded its industrial use.

- Applications of lignin discovered in the plastic casing of lead-acid batteries - [Samples available]

Currently, lignin is attracting attention as a powerful biomaterial, but in the past, it was only used for limited applications. Bolegard is a company that has consistently produced lignin since its early days. One of the applications that supported that early period was lead-acid batteries. Lead-acid batteries were invented in 1859 by the Frenchman Gaston Planté. The current basic structure consists of lead dioxide as the positive electrode, sponge lead as the negative electrode, and dilute sulfuric acid as the electrolyte. Until the first few decades of the 20th century, the containers for battery cells were made of wood. However, with improvements that changed the containers to plastic, a problem arose where the cycle life became shorter. Upon investigating the cause, it was found that lignin was what supported the cycle life of lead-acid batteries. It was discovered that the polymer structure of lignin has excellent functions in inhibiting or dispersing the crystallization of inorganic compounds due to steric hindrance. Subsequently, Bolegard followed a business path of developing lignin-based dispersants suitable for various applications. We are introducing various new uses for lignin. Please take a look at our special webpage.

  • Chemicals
  • Biomaterials

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[Research Material] World Market for Biomedical Materials

[Research Material] World Market for Biomedical Materials

Global Market for Biomedical Materials: Metal Biomaterials, Ceramics, Polymers, Natural Biomaterials, Others, Cardiovascular, Orthopedic, Ophthalmic ...

This research report (Global Biomedical Materials Market) investigates and analyzes the current state and outlook for the global biomedical materials market over the next five years. It includes information on the overview of the global biomedical materials market, trends of major companies (sales, selling prices, market share), market size by segment, market size by major regions, and distribution channel analysis. The segments by type in the biomedical materials market include metal biomaterials, ceramics, polymers, natural biomaterials, and others, while the segments by application cover cardiovascular, orthopedic, ophthalmology, wound healing, tissue engineering, and others. The regional segments are categorized into North America, the United States, Europe, Asia-Pacific, Japan, China, India, South Korea, Southeast Asia, South America, the Middle East, and Africa to calculate the market size of biomedical materials. It also includes the market share of major companies in biomedical materials, product and business overviews, and sales performance.

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