Yates, H. M.,Pemble, M. E.,Blanco, A.,Miguez, H.,Lopez, C.,Meseguer, F.

2000

November

Chemical Vapor Deposition

Growth of tin oxide in opal

Validated

()

6

66

283

283

There is interest in enhancing photonic bandgap materials such as opal. Doping with tin oxide could add electrical contacting throughout the infilled opal rather than just the outer surface. Here tin oxide is chemical vapor deposited by alternate introduction of the: precursors. The polycrystalline deposit (see Figure) was found to coat the opal spheres to a thickness of about 18 nm.There is interest in enhancing photonic bandgap materials such as opal. Doping with tin oxide could add electrical contacting throughout the infilled opal rather than just the outer surface. Here tin oxide is chemical vapor deposited by alternate introduction of the: precursors. The polycrystalline deposit (see Figure) was found to coat the opal spheres to a thickness of about 18 nm.

0948-19070948-1907

://WOS:000166033500001://WOS:000166033500001