RUBICON TECHNOLOGY INC has a total of 30 patent applications. Its first patent ever was published in 2007. It filed its patents most often in United States, WIPO (World Intellectual Property Organization) and Taiwan. Its main competitors in its focus markets surface technology and coating, machines and machine tools are MOORE EPITAXIAL INC, AIXTRON AG and SYSNEX CO LTD.
# | Country | Total Patents | |
---|---|---|---|
#1 | United States | 11 | |
#2 | WIPO (World Intellectual Property Organization) | 7 | |
#3 | Taiwan | 5 | |
#4 | Republic of Korea | 4 | |
#5 | China | 3 |
# | Industry | |
---|---|---|
#1 | Surface technology and coating | |
#2 | Machines | |
#3 | Machine tools | |
#4 | Materials and metallurgy | |
#5 | Semiconductors |
# | Technology | |
---|---|---|
#1 | Unspecified technologies | |
#2 | Coating metallic material | |
#3 | Single-crystal-growth | |
#4 | Treatment of glass | |
#5 | Semiconductor devices | |
#6 | Hand-held cutting tools | |
#7 | Cutting | |
#8 | Soldering, welding and flame cutting | |
#9 | Perforating | |
#10 | Sawing |
# | Name | Total Patents |
---|---|---|
#1 | Ciraldo John P | 19 |
#2 | Levine Jonathan B | 9 |
#3 | Levine Jonathan | 8 |
#4 | Phatak Sunil B | 4 |
#5 | Burks Timothy D | 4 |
#6 | Podlozhenov Sergey | 4 |
#7 | Montgomery Matthew | 4 |
#8 | Nabulsi Faisal A | 3 |
#9 | Ko Donggeun | 1 |
#10 | Allain Eric G | 1 |
Publication | Filing date | Title |
---|---|---|
US2016161991A1 | Ultra-Thin, Passively Cooled Sapphire Windows | |
US2016008926A1 | Method of cold-cleaving sapphire material at cryogenic temperatures | |
US2015092920A1 | Intelligent machines and process for production of monocrystalline products with goniometer continual feedback | |
US2015308013A1 | Method of producing free-standing net-shape sapphire | |
US2015159268A1 | Method of deposition of highly scratch-resistant diamond films onto glass substrates by use of a plasma-enhanced chemical vapor deposition | |
US2014272346A1 | Method of growing aluminum oxide onto substrates by use of an aluminum source in an oxygen environment to create transparent, scratch resistant windows | |
US9390906B1 | Method for creating asymmetrical wafer | |
US2014082947A1 | Method for creating atomically sharp edges on objects made of crystal material | |
US2015023866A1 | Method and system of producing large oxide crystals from a melt | |
US8348720B1 | Ultra-flat, high throughput wafer lapping process |