If they can make them as cheap as silicon then obviously people will buy them instead, but it's not clear to me that panel efficiency is a relevant factor in the economics of commercial solar power.
Covering an entire Prius with exotic semiconductors is not the road to brisk sales.
Does the math check out? You would need about 10kW-h to get the claimed distance, times three for the efficiency (by the way, there are NO mass-produced cells with 34% efficiency; they must be using GaAs or…
A better way to understand Kafka is to fill a room with rakes, turn of the lights, and walk around.
California requires solar power on every new house. It's a huge cost. Most local governments also require off-street parking, which is a huge cost. The regulatory burden isn't just in planning and permitting.
If they can make them as cheap as silicon then obviously people will buy them instead, but it's not clear to me that panel efficiency is a relevant factor in the economics of commercial solar power.
Covering an entire Prius with exotic semiconductors is not the road to brisk sales.
Does the math check out? You would need about 10kW-h to get the claimed distance, times three for the efficiency (by the way, there are NO mass-produced cells with 34% efficiency; they must be using GaAs or…
A better way to understand Kafka is to fill a room with rakes, turn of the lights, and walk around.
California requires solar power on every new house. It's a huge cost. Most local governments also require off-street parking, which is a huge cost. The regulatory burden isn't just in planning and permitting.