BANDGAP ENG INC has a total of 32 patent applications. Its first patent ever was published in 2009. It filed its patents most often in WIPO (World Intellectual Property Organization), EPO (European Patent Office) and United States. Its main competitors in its focus markets semiconductors, environmental technology and micro-structure and nano-technology are ADVANCED SILICON GROUP INC, LIYANG DONGDA TECHNOLOGY TRANSFER CENTRAL CO LTD and DONGGUAN WANFENG NANOMETER MATERIALS CO LTD.
# | Country | Total Patents | |
---|---|---|---|
#1 | WIPO (World Intellectual Property Organization) | 12 | |
#2 | EPO (European Patent Office) | 5 | |
#3 | United States | 5 | |
#4 | China | 4 | |
#5 | Taiwan | 2 | |
#6 | Canada | 1 | |
#7 | Hong Kong | 1 | |
#8 | Israel | 1 | |
#9 | Republic of Korea | 1 |
# | Industry | |
---|---|---|
#1 | Semiconductors | |
#2 | Environmental technology | |
#3 | Micro-structure and nano-technology | |
#4 | Machines | |
#5 | Electrical machinery and energy | |
#6 | Optics | |
#7 | Surface technology and coating | |
#8 | Chemical engineering |
# | Name | Total Patents |
---|---|---|
#1 | Black Marcie R | 27 |
#2 | Buchine Brent A | 18 |
#3 | Modawar Faris | 16 |
#4 | Miller Jeff | 14 |
#5 | Murphy Brian | 13 |
#6 | Jura Michael | 8 |
#7 | Forziati Joanne | 6 |
#8 | Jura Mike | 5 |
#9 | Black Marcie | 4 |
#10 | Yim Joanne | 4 |
Publication | Filing date | Title |
---|---|---|
WO2015038340A1 | Metal assisted etch combined with regularizing etch | |
WO2014105569A1 | Metal backed nanowire arrays | |
WO2013123066A1 | Screen printing electrical contacts to nanowire areas | |
TW201330294A | Electrical contacts to nanostructured areas | |
TW201245033A | Method of electrically contacting nanowire arrays | |
WO2012064373A2 | Process for forming silver films on silicon | |
WO2011017173A2 | Silicon nanowire arrays on an organic conductor | |
KR20110098910A | Nanostructured devices | |
WO2010042209A1 | Process for structuring silicon | |
WO2009137241A2 | Process for fabricating nanowire arrays | |
US2009296189A1 | Designing the host of nano-structured optoelectronic devices to improve performance |