山东稀有科技发展有限公司（稀有高科），成功实现白色石墨烯功能纤维/纱线系列产品的大规模量产，解决了长期以来石墨烯改性纤维行业的典型技术痛点，功能表现更加突出，深浅色系产品均可使用，并且纤维易染色，满足色彩丰富度需求，产品适用面更加广泛。

Shandong Rare Technology Development Co., LTD. (Rare Hi-Tech) has successfully achieved large-scale mass production of white graphene functional fiber/yarn series products, solving the typical technical pain points in the graphene-modified fiber industry for a long time. The functional performance is more prominent, and both light and dark color series products can be used. Moreover, the fibers are easy to dye, meeting the demand for color richness, and the application scope of the products is more extensive.

      稀有高科，采用独特的高纯度石墨烯纳米相变材料，利用两亲特性生物质分散对石墨烯进行插层剥离，形成长时间稳定的高品质石墨烯分散液，通过自主固液混合技术实现了石墨烯分散液与PET、PA6基材均匀吸附和高效络合，生产出不同规格的白色石墨烯改性短纤和长丝，并成功实现大规模量产，其出色的可染性，可以制备各种靓丽颜色的纺织织物。

Rare Hi-Tech adopts a unique high-purity graphene nano-phase change material. It utilizes amphiphilic biomass dispersion to intercalate and exfoliate graphene, forming a high-quality graphene dispersion that remains stable for a long time. Through its own solid-liquid mixing technology, it has achieved uniform adsorption and efficient complexation of the graphene dispersion with PET and PA6 substrates. Different specifications of white graphene-modified short fibers and filaments have been produced and large-scale mass production has been successfully achieved. Its excellent dyeability can be used to prepare various bright colored textile fabrics.

       启脉®白色石墨烯功能纤维/纱线具有释放远红外、长效抑菌和抗病毒、抗静电、释放负离子、防螨虫等优异功能，而且远红外线发射和抑菌功能是永久性的，不需要任何特殊处理。在抗菌试验中，金黄色葡萄球菌和肺炎球菌的死亡率在洗涤前后均达到99%，表明该材料具有很强的抗菌性。在抗病毒测试中，甲型流感病毒减少了99.89%，该材料的紫外线阻隔率和远红外线发射率也高于行业标准，表现非常出色。

SelfActiv ® white graphene functional fibers/yarns feature outstanding functions such as far-infrared emission, long-lasting antibacterial and antiviral effects, antistatic properties, negative ion release, and mite prevention. Moreover, the far-infrared emission and antibacterial functions are permanent and do not require any special treatment. In the antibacterial test, the mortality rates of Staphylococcus aureus and Streptococcus pneumoniae both reached 99% before and after washing, indicating that this material has strong antibacterial properties. In the antiviral test, the amount of influenza A virus was reduced by 99.89%. The ultraviolet blocking rate and far-infrared emission rate of this material are also higher than the industry standards, demonstrating an outstanding performance.

【产品品类】Product categories

石墨烯涤纶短纤Graphene Polyester short fiber：1.5D*38mm；3D*64mm；2.5D*32mm（三维中空 Three-dimensional hollow）；

石墨烯涤纶长丝Graphene polyester filament：50D/48F；75D/72F；100D/96F；150D/144F；

石墨烯锦纶长丝Graphene nylon filament：20D/24F；40D/24F；70D/48F；

石墨烯涤纶毛条Graphene polyester wool strips：2D*88mm；3D*88mm；

石墨烯混纺纱线Graphene blended yarn：21S/1—80S/1赛紧纺siro compact spinning ；

石墨烯红外暖绒（絮片）Graphene infrared warm fluff：克重Gram weight 60g/㎡-300g/㎡幅宽Width 150cm-220cm；

注：可依据客户实际需求定制产品规格

Note: Product specifications can be customized according to the actual needs of customers

       石墨烯（Graphene），是世界上发现的最薄、强度最大、导电导热性能最强、延展性最好的一种新型纳米材料，被称为“黑金”、“新材料之王”。科学家预言石墨烯将彻底改变21世纪，将掀起一场席卷全球的颠覆性新技术、新产业的革命。

Graphene, the thinnest, strongest, most conductive and thermally conductive, and most malleable new type of nanomaterial discovered in the world, is known as "black gold" and "King of New Materials". Scientists predict that graphene will completely transform the 21st century and trigger a revolution of disruptive new technologies and industries that will sweep the world.

       石墨烯所具有的优异的光学、电学、热学、力学特性，在材料学、微纳加工、储能、传感器、电子信息、智能穿戴、生物医学和药物传递等方面具有重要的应用前景，被认为是一种未来革命性的材料。

The outstanding optical, electrical, thermal and mechanical properties of graphene hold significant application prospects in materials science, micro-nano processing, energy storage, sensors, electronic information, smart wearables, biomedicine and drug delivery, and it is regarded as a revolutionary material of the future.

       2004年，英国曼彻斯特大学物理学家康斯坦丁.诺沃肖洛夫和安德烈.海姆教授成功从石墨薄片中剥离出了石墨烯，证实它可以单独存在，两人因此荣获了2010年度的诺贝尔物理学奖。

In 2004, Constantine, a physicist from the University of Manchester in the UK. Novoselov and Andrei. Professor Geim successfully exfoliated graphene from graphite sheets, confirming that it can exist independently. The two were awarded the Nobel Prize in Physics in 2010 for this achievement.

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