A preparation method of highly conductive and stretchable sponge-like graphene-based electrode material
A technology of graphene-based and electrode materials, which is applied in the preparation of highly conductive sponge-like graphene-based electrode materials and the preparation of stretchable materials, which can solve the problems of high resistance, insufficient tensile stability, and difficulty in stretching. Achieve the effect of high application value, simple and controllable method, and good conductivity
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Embodiment 1
[0034] Growth of graphene on foamed nickel substrates and eventually growth of graphene / nickel particle hybrid structures, such as figure 1 The preparation roadmap includes the following preparation steps:
[0035] 1. Take nickel foam with a size of 8cm×8cm and place it in a tube furnace;
[0036] 2. Turn on the vacuum pump to pump the air pressure of the tube furnace to the ultimate vacuum state of 3×10 -6 Torr;
[0037] 3. Keep vacuum 3×10 -6 After 15 minutes of Torr (the effect of vacuum for 15 minutes is to remove impurities, air, etc. inside the quartz tube to ensure that the reaction chamber is clean), the air pressure of the quartz tube 3 is raised to 3 × 10 -3 Torr;
[0038] 4. Set the hydrogen flow meter to 100sccm, and inject hydrogen into the vacuum chamber;
[0039] 5. After the tube furnace temperature rises to 300°C, anneal at a constant temperature for 20 minutes;
[0040] 6. After the tube furnace temperature rises to 1000°C, inject methane into the vacuu...
Embodiment 2
[0059] Growth of graphene on foamed copper substrates and eventually growth of graphene / copper particle hybrid structures, such as figure 1 The preparation roadmap includes the following preparation steps:
[0060] 1. Take foam copper with a size of 8cm×9cm and place it in a tube furnace;
[0061] 2. Turn on the vacuum pump to pump the air pressure of the tube furnace to the ultimate vacuum state of 3×10 -6 Torr;
[0062] 3. Keep vacuum 3×10 -6 After 15 minutes of Torr (the effect of vacuum for 15 minutes is to remove impurities, air, etc. inside the quartz tube to ensure that the reaction chamber is clean), the air pressure of the quartz tube 3 is raised to 3 × 10 -3 Torr;
[0063] 4. Set the hydrogen flow meter to 100sccm, and inject hydrogen into the vacuum chamber;
[0064] 5. After the tube furnace temperature rises to 300°C, anneal at a constant temperature for 20 minutes;
[0065] 6. After the tube furnace temperature rises to 1000°C, inject methane into the vacuu...
Embodiment 3
[0084] Growth of graphene on foamed nickel substrates and eventually growth of graphene / nickel particle hybrid structures, such as figure 1 The preparation roadmap includes the following preparation steps:
[0085] 1. Take nickel foam with a size of 5cm×9cm and place it in a tube furnace;
[0086] 2. Turn on the vacuum pump to pump the air pressure of the tube furnace to the ultimate vacuum state of 3×10 -6 Torr;
[0087] 3. Keep vacuum 3×10 -6 After 15 minutes of Torr (the effect of vacuum for 15 minutes is to remove impurities, air, etc. inside the quartz tube to ensure that the reaction chamber is clean), the air pressure of the quartz tube 3 is raised to 3 × 10 -3 Torr;
[0088] 4. Set the hydrogen flow meter to 100sccm, and inject hydrogen into the vacuum chamber;
[0089] 5. After the tube furnace temperature rises to 300°C, anneal at a constant temperature for 20 minutes;
[0090] 6. After the tube furnace temperature rises to 1000°C, inject methane into the vacuu...
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