MTPV POWER CORP has a total of 59 patent applications. It decreased the IP activity by 86.0%. Its first patent ever was published in 2007. It filed its patents most often in United States, EPO (European Patent Office) and Republic of Korea. Its main competitors in its focus markets environmental technology, semiconductors and electrical machinery and energy are KASICHAINULA SRIDHAR, ONAMBA CO LTD and SUZHOU COOP&INNO GREEN ENERGY TECH CO LTD.
# | Country | Total Patents | |
---|---|---|---|
#1 | United States | 10 | |
#2 | EPO (European Patent Office) | 7 | |
#3 | Republic of Korea | 5 | |
#4 | Taiwan | 5 | |
#5 | WIPO (World Intellectual Property Organization) | 4 | |
#6 | Brazil | 3 | |
#7 | Canada | 3 | |
#8 | China | 3 | |
#9 | Hong Kong | 3 | |
#10 | Israel | 3 | |
#11 | Mexico | 3 | |
#12 | Singapore | 3 | |
#13 | United Kingdom | 2 | |
#14 | Russian Federation | 2 | |
#15 | Australia | 1 | |
#16 | Japan | 1 | |
#17 | Malaysia | 1 |
# | Industry | |
---|---|---|
#1 | Environmental technology | |
#2 | Semiconductors | |
#3 | Electrical machinery and energy |
# | Name | Total Patents |
---|---|---|
#1 | Greiff Paul | 25 |
#2 | Brown Eric | 22 |
#3 | Brown Eric L | 18 |
#4 | Nardelli Bruno A | 18 |
#5 | Borrego Jose | 12 |
#6 | Zhang Bin | 12 |
#7 | Hubert Brian N | 11 |
#8 | Walsh Andrew | 10 |
#9 | Mather David | 10 |
#10 | Cody Trace W | 9 |
Publication | Filing date | Title |
---|---|---|
TW201806310A | Radiative micron-gap thermophotovoltaic system with transparent emitter | |
SG11201806579QA | Radiative micron-gap thermophotovoltaic system transparent emitter | |
US2015372634A1 | Lateral photovoltaic device for near field use | |
CA2907148A1 | Microchannel heat sink for micro-gap thermophotovoltaic device | |
EP2973733A1 | Method and structure for multi-cell devices without physical isolation | |
US2014137921A1 | Submicron gap thermophotovoltaic structure and fabrication method | |
US2013092212A1 | Submicron gap thermophotovoltaic structure and method | |
TW201403834A | Method and apparatus for converting heat energy to electric power using sub-micron gap thermal photovoltaic technology | |
RU2563551C2 | Method and device of thermo-photoelectric converters with micron gap (mptv) of high degree with submicron gap | |
MX2012009270A | Micron-gap thermal photovoltaic large scale sub-micron gap method and apparatus. | |
EP3392901A1 | Conversion of thermal energy to electric energy |