Graphene: Difference between revisions

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     |Out1Qty=1
     |Out1Qty=1
     |CraftTime=4 s
     |CraftTime=4 s
     |In1=Optical Grating Crystal
     |In1=Grating Crystal
     |In1Qty=4
     |In1Qty=4
     |In2=Graphene
     |In2=Graphene

Revision as of 21:52, 8 January 2024

Graphene
Material, Fuel
If one layer of graphene is laid on top of another layer of graphene, through rotation, the double-layer graphene will form a complex repeating structure - a superlattice. Upon rotation to a certain "Magic Angle", the double-layer graphene will become superconductive and become a new type of nano-superconducting material.
Icon Graphene.png
Fuel TypeChemical
Energy96.0 kJ
Fuel Chamber Gen.-70%
Made InChemical Facility
 Cannot make in replicator
Stack Size100

Icon Graphene.png
2
3 s
Icon Energetic Graphite.png
3
Icon Sulfuric Acid.png
1
Icon Graphene.png
2
Icon Hydrogen.png
1
2 s
Icon Fire Ice.png
2

Summary

The double-layer graphenes will form a complex repeating structure, a superlattice by rotating when stack one layer of graphene on top of another. After rotating to a certain "Magic Angle", double-layer graphene will appear superconductivity. Graphene has become a new type of nano-superconducting material.

Production Chain

Recipe Building Replicator? Technology
Icon Graphene.png
2
3 s
Icon Energetic Graphite.png
3
Icon Sulfuric Acid.png
1
Icon Chemical Plant.pngIcon Quantum Chemical Plant.png
Tech Applied Superconductor.png
Icon Graphene.png
2
Icon Hydrogen.png
1
2 s
Icon Fire Ice.png
2
Icon Chemical Plant.pngIcon Quantum Chemical Plant.png
Tech Applied Superconductor.png

Production Progression Chart

For more information on reading and using these charts, see Production Progression Chart.
Click here to show or hide the Production Progression Charts.
Fire Ice-based production
Stage 1 Stage 2
Icon Fire Ice.png
60
Icon Chemical Plant.png
1
White arrow right.svg
Icon Graphene.png
60
Icon Hydrogen.png
30
Buildings Required
Icon Chemical Plant.png
1
Raw Materials Required
(per minute)
Icon Fire Ice.png
60
Raw Materials Required
(per unit)
Icon Fire Ice.png
1
Coal and Sulfuric Acid-based production
Stage 1 Stage 2 Stage 3
Icon Coal.png
120
Icon Smelter.png
2
White arrow right.svg
Icon Energetic Graphite.png
60
Icon Chemical Plant.png
1
White arrow right.svg
Icon Graphene.png
40
Icon Sulfuric Acid.png
20
White arrow right.svg
Buildings Required
Icon Smelter.png
2
Icon Chemical Plant.png
1
Raw Materials Required
(per minute)
Icon Coal.png
120
Icon Sulfuric Acid.png
20
Raw Materials Required
(per unit)
Icon Coal.png
3
Icon Sulfuric Acid.png
0.5
Crude Oil and Sulfuric Acid-based production
Stage 1 Stage 2 Stage 3 Stage 4
Icon Crude Oil.png
60
Icon Oil Refinery.png
2
White arrow right.svg
Icon Refined Oil.png
60
Icon Hydrogen.png
30
Icon Oil Refinery.png
4
White arrow right.svg
Icon Energetic Graphite.png
60
Icon Hydrogen.png
90
Icon Chemical Plant.png
1
White arrow right.svg
Icon Graphene.png
40
Icon Hydrogen.png
90
Arrow right to up.svg
Icon Hydrogen.png
90
Icon Sulfuric Acid.png
20
White arrow right.svg
Buildings Required
Icon Oil Refinery.png
6
Icon Chemical Plant.png
1
Raw Materials Required
(per minute)
Icon Crude Oil.png
60
Icon Sulfuric Acid.png
20
Raw Materials Required
(per unit)
Icon Crude Oil.png
1.5
Icon Sulfuric Acid.png
0.5

Note: Hydrogen created during the refining process during Crude Oil-based production must be recycled through the system to ensure full efficiency. Hydrogen quantity shown in final Stage is remaining surplus Hydrogen which can be diverted elsewhere.

Stone, Water, Coal and Crude Oil-based production
Stage 1 Stage 2 Stage 3 Stage 4
Icon Coal.png
240
Icon Smelter.png
4
White arrow right.svg
Icon Energetic Graphite.png
120
White arrow right.svg
Icon Chemical Plant.png
2
White arrow right.svg
Icon Graphene.png
80
Icon Hydrogen.png
30
Icon Crude Oil.png
60
Icon Oil Refinery.png
2
White arrow right.svg
Icon Refined Oil.png
60
Icon Hydrogen.png
30
Icon Chemical Plant.png
1
White arrow right.svg
Icon Sulfuric Acid.png
40
Icon Hydrogen.png
30
Icon Stone.png
80
White arrow right.svg
Icon Water.png
40
White arrow right.svg
Buildings Required
Icon Smelter.png
4
Icon Oil Refinery.png
2
Icon Chemical Plant.png
3
Raw Materials Required
(per minute)
Icon Coal.png
240
Icon Crude Oil.png
60
Icon Stone.png
80
Icon Water.png
40
Raw Materials Required
(per unit)
Icon Coal.png
3
Icon Crude Oil.png
0.75
Icon Stone.png
1
Icon Water.png
0.5
Stone, Water, and Crude Oil-based production
Stage 1 Stage 2 Stage 3 Stage 4
Icon Crude Oil.png
120
Icon Oil Refinery.png
4
White arrow right.svg
Icon Refined Oil.png
120
Icon Hydrogen.png
60
Icon Oil Refinery.png
8
White arrow right.svg
Icon Energetic Graphite.png
120
Icon Hydrogen.png
180
Icon Chemical Plant.png
2
White arrow right.svg
Icon Graphene.png
80
Icon Hydrogen.png
210
Arrow right to up.svg
Icon Hydrogen.png
180
Icon Crude Oil.png
60
Icon Oil Refinery.png
2
White arrow right.svg
Icon Refined Oil.png
60
Icon Hydrogen.png
30
Icon Chemical Plant.png
1
White arrow right.svg
Icon Sulfuric Acid.png
40
Icon Hydrogen.png
30
Icon Stone.png
80
White arrow right.svg
Icon Water.png
40
White arrow right.svg
Buildings Required
Icon Oil Refinery.png
14
Icon Chemical Plant.png
3
Raw Materials Required
(per minute)
Icon Crude Oil.png
180
Icon Stone.png
80
Icon Water.png
40
Raw Materials Required
(per unit)
Icon Crude Oil.png
2.25
Icon Stone.png
1
Icon Water.png
0.5

Note: Hydrogen created during the refining process during Crude Oil-based production must be recycled through the system to ensure full efficiency. Hydrogen quantity shown in final Stage is remaining surplus Hydrogen which can be diverted elsewhere.

Used in

Components

Recipe Building Replicator? Technology
Icon Carbon Nanotube.png
2
4 s
Icon Graphene.png
3
Icon Titanium Ingot.png
1
Icon Chemical Plant.pngIcon Quantum Chemical Plant.png
Tech High-Strength Material.png
Icon Casimir Crystal.png
1
4 s
Icon Titanium Crystal.png
1
Icon Graphene.png
2
Icon Hydrogen.png
12
Icon Assembling Machine Mk.I.pngIcon Assembling Machine Mk.II.pngIcon Assembling Machine Mk.III.pngIcon Re-composing Assembler.png
Tech Casimir Crystal.png
Icon Casimir Crystal.png
1
4 s
Icon Grating Crystal.png
4
Icon Graphene.png
2
Icon Hydrogen.png
12
Icon Assembling Machine Mk.I.pngIcon Assembling Machine Mk.II.pngIcon Assembling Machine Mk.III.pngIcon Re-composing Assembler.png
Tech Casimir Crystal.png
Icon Particle Container.png
1
4 s
Icon Electromagnetic Turbine.png
2
Icon Copper Ingot.png
2
Icon Graphene.png
2
Icon Assembling Machine Mk.I.pngIcon Assembling Machine Mk.II.pngIcon Assembling Machine Mk.III.pngIcon Re-composing Assembler.png
Tech Magnetic Particle Trap.png
Icon Solar Sail.png
2
4 s
Icon Graphene.png
1
Icon Photon Combiner.png
1
Icon Assembling Machine Mk.I.pngIcon Assembling Machine Mk.II.pngIcon Assembling Machine Mk.III.pngIcon Re-composing Assembler.png
Tech Solar Sail Orbit System.png

Buildings

Recipe Building Replicator? Technology
Icon Miniature Particle Collider.png
1
15 s
Icon Titanium Alloy.png
20
Icon Frame Material.png
20
Icon Super-Magnetic Ring.png
25
Icon Graphene.png
10
Icon Processor.png
8
Icon Assembling Machine Mk.I.pngIcon Assembling Machine Mk.II.pngIcon Assembling Machine Mk.III.pngIcon Re-composing Assembler.png
Tech Miniature Particle Collider.png
Icon Conveyor Belt Mk.III.png
3
1 s
Icon Conveyor Belt Mk.II.png
3
Icon Super-Magnetic Ring.png
1
Icon Graphene.png
1
Icon Assembling Machine Mk.I.pngIcon Assembling Machine Mk.II.pngIcon Assembling Machine Mk.III.pngIcon Re-composing Assembler.png
Tech Planetary Logistics System.png
Icon Assembling Machine Mk.II.png
1
3 s
Icon Assembling Machine Mk.I.png
1
Icon Graphene.png
8
Icon Processor.png
4
Icon Assembling Machine Mk.I.pngIcon Assembling Machine Mk.II.pngIcon Assembling Machine Mk.III.pngIcon Re-composing Assembler.png
Tech High-Speed Assembling Processes.png

Player Tips & Tricks

  • Although Graphene can be used as fuel, its energy value per unit is extremely low--even lower than the ingredients used to make the Graphene. However, the ability to burn Graphene means it can be easily disposed of when extracting Hydrogen from Fire Ice (although in the late game there are more efficient ways to gather Hydrogen in large quantities).
  • Graphene may be rarely harvested in small quantities from certain plants. However, this is not a reliable way to get Graphene for even medium-scale production.


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