Algid Technology

    Product Information

        Based on graphene elements as the core, ALGID technology is focusing to develop every kind of composite application. Both thin graphene sticker and high radiation painting can achieve and bring the new solutions for the engineers, that those traditional heat-sink materials are not capable in the past.

    Graphene Sticker
    Graphene Aluminum Heatsink
    Graphene Thermal Paint

    Thermal Pad
    High K-value Plastic



    █ Graphene Sticker
        The interior of our graphene radiators contains structures specifically designed for heat dissipation. The heat sink is made of multilayer high-end graphene, copper foil with different thickness and graphene composite copper, and finally made of graphene composite heat sink with adhesive layer to have good conductivity. This product is an excellent thermal diffuser for heat diffusion.

        Because of the special graphene coating technology, the thermal diffusivity can be increased to 2.2 ~ 3 times of that of copper. Therefore, the K value of this structure is quite high, so as to achieve the effect of rapid conduction for heat dissipation. According to the different applications, the structure of the composite radiator can be ever-changing, and will be stacked with various thickness and structure for different product applications.


        Graphene heat depression sticker is quite thin. It can fit and solve the heat dissipation requirement of high heat body in all kinds of limited space. For example, the PCI-e bus (m.2 interface) solid state hard disk (SSD), the smart phone, the driving recorder, the 3D face recognition module and so on. In this very limited space, it is almost impossible to install aluminum extrusion heatsink, no fan application, and there has been no effective heat dissipation solution. At present, the graphene sticker has become the mainstream solution of this kind of application, gradually increasing the market share.
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    █ Graphene Aluminum Heatsink
        Aluminum extrusion heatsink has been widely applied in the field of heat dissipation. If combined with a high efficiency fan, it can take away the high heat quickly and achieve the purpose of cooling the system. But it is well known that aluminum extruded heatsink also has the following limitations or shortcomings::

        ● Large, limited to ID design
        ● Heavy weight, fall-test design difficulties, freight increase
        ● Anode post processing will increase cost
        ● In extremely high heat environment, improving the efficiency of heat dissipation is only to increase the volume (or surface area).

        Graphene aluminum heatsink , is on the surface of the traditional aluminum heat sink, which is sprayed or plated with high performance heat dissipation paint. In addition to increasing the thermal conductivity (K value), it is also radiated in the form of radiation. Under the condition of the same heat conditions, heat dissipation of graphene coated with aluminum sheet surface temperature, 3-8 degree will reduce the temperature experiment of uncoated graphene group (as a variety of applications and different cooling conditions are different); if the fixed heating conditions and the experimental group (uncoated graphene) temperature results, is the control group (plating graphene) of aluminum heaksink, can reduce the volume measured by the experimental group and the same temperature.

        In other words, graphene aluminum heatsink improves the heat dissipation of the original aluminum one, and thus brings other benefits beyond the temperature drop. For example, reducing the volume of aluminum heatsink, reducing the weight of the product, reducing the freight cost of the product, reducing the limitation on the design of ID, and so on are advantages of aluminum heatsink would have.

        Moreover, in the application of restrictions on the use of a fan, for example: industrial computer, industrial Ethernet switch, high requirements for noise, and opening restrictions on the appearance of the application, the natural convection is often difficult to quickly take away the heat generated by the heat source, at this time, if to use graphene aluminum heatsink, you can use the way of radiation, helps to expel heat, to achieve the aim of heat radiation.

         Comparison diagram of Graphene Aluminum Heatsink:



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    █ Graphene Thermal Paint
        The high radiation properties of Graphene Thermal Paint is applied to directly coat the product housing (either inside or outside), effectively radiate away the heat inside the product, and achieve the purpose of air exchange convection similar to that caused by fans. Radiating radiation can allow energy to penetrate the external barrier material. For example, the upper plastic housing paint or label paper and so on. Drilling a hole on the housing for heat exchange is even unnecessary. (If the energy of the metal housing will be worn out of the gap after the internal shock of the product, it still has some effect).

        In addition to achieving the cooling requirements of the system, another advantage of the product is to reduce the temperature of the product housing surface and enhance the texture of the product, especially for the consumer electronic products that are very concerned about the temperature of its housing. For example: handheld game machine, mobile phone back cover and mobile phone protection shell, notebook keyboard and the palm rest, or large machines need to drop the shell temperature rapidly and widely, for example: 4K LCD TV, projector and so on.


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    █ Thermal Pad
        Our thermal pads provide customers with excellent and high cost and competitive thermal solutions. The traditional thermal gasket, heat conduction K value from 2-4 before and few thermal conductivity could occasionally have 5. ALGID technology is currently working on graphene hybrid silicone material, the development of high thermal conductivity for 8 or even as high as 10, so that the traditional aluminum can get faster conduction in the direction of Z axis.



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    █ High K-value Plastic
        Plastic products, generally speaking, are bad conductors of heat. However, plastic products are widely accepted by product developers because of their low cost, easy forming, much lighter and various appearances. ALGID technology uses Nylon 6 material, with high thermal conductivity of graphene to develop high K value (K=3.8) plastic materials, which can break through the traditional heat conduction defects, as much as possible to let the heat flow out into the air.     Especially for the consumer electronic products which are very concerned with the temperature of the housing, such as high-speed pen drive (UFD), portable hard disk, palmtop gaming console, mobile phone lower housing and mobile phone protection shell, this product has a very good effect on keeping the housing surface cooling. If it is supplemented with graphene thermal paint products, the better effect of addition and multiplication can be obtained.

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    Algid Technology


    Algid Technology Co., Ltd.

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     Address: 2F-1, No.293, Fuxing S. Rd., Da'an Dist. 116, Taipei City, Taiwan.
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