Green Technology

Green de Corp. Limited

🌍 Official Website 🏢 HKSTP Source
78 Potential

Decision Maker

N/A
enquiry.marketing@hkstp.org
+852 2629 1818
5/F, Building 5E, 5 Science Park East Avenue, Hong Kong Science Park
Raw Description
Our company is a young and dynamic lighting solution provider, using High Intensity LEP light source for indoor high-level and outdoor (e.g.: road, area and parking lot lights) applications. | Our objective : development of paradigm-shift Remote Lighting System by using energy saving light source, components focus are light emitting device, distribution of light and optic/fixture design. || Product | Light Emitting Plasma (LEP): Road, Parking and High | Bay Lights, | Building façade lighting | Natural light : Sunlight system

Strategic Analysis

Executive Brief

Green de Corp. Limited is an innovative lighting solution provider specializing in Light Emitting Plasma (LEP) technology. Unlike traditional LED or HID lighting, LEP uses a high-frequency RF driver to excite a plasma field within a quartz bulb, producing high-intensity, full-spectrum light. Their technical focus lies in "Remote Lighting Systems" and sunlight simulation, which require managing extreme power densities and precise optical delivery.

Strategic Fit & Lead Score

Lead Score: 78 (Strong Potential)

Why this Score? LEP technology is characterized by extreme power density. A tiny plasma bulb generates massive amounts of light and heat simultaneously. The primary engineering bottlenecks for Green de Corp. are thermal management of the RF engine and the longevity of optical components under intense UV/thermal stress. 6C’s Polycrystalline Diamond (PCD) is the world's most effective thermal conductor (up to 2000 W/mK), making it the ultimate solution for their "paradigm-shift" lighting systems that likely face thermal throttling or reliability issues at high wattages.

6C Solutions Proposal

Application Area 6C Solution Technical Value Prop
LEP Thermal Management PCD Heat Spreaders LEP sources concentrate high heat in a microscopic area. 6C Diamond spreaders offer thermal conductivity 4-5x higher than Copper, preventing RF driver overheating and extending bulb life.
Optical Windows Optical Grade PCD/SCD Diamond has the widest spectral transparency and highest thermal shock resistance. It can serve as a high-durability exit window for high-intensity plasma light without degrading or cracking.
RF Dielectrics Low-Loss SCD Diamond LEP relies on RF energy. Diamond has a low dielectric constant and extremely low loss tangent (tan δ), improving the efficiency of RF coupling into the plasma bulb.
R&D Innovation Custom MPCVD System To lead the "paradigm shift," Green de Corp. can use a 6C Reactor to develop proprietary diamond-glass composites or diamond-coated reflectors in-house.
Reflector Coatings Direct Diamond Coating Applying diamond via MPCVD to secondary optics provides a chemically inert, high-reflectivity (when polished) surface that withstands the "sun-like" intensity of LEP without yellowing.

Engagement Hooks

  • Technical Question: "As you scale your LEP systems for high-bay and sunlight simulation, how are you addressing the localized heat flux at the RF-to-plasma coupling point? Are you seeing thermal-induced spectral shifts or degradation in your optical components?"
  • Value Statement: "6C can help Green de Corp. push the boundaries of LEP power density by integrating CVD diamond heat spreaders, ensuring your 'Remote Lighting Systems' operate with 5x the thermal efficiency of standard metal-core solutions."