The Results of Our Efforts

      The Results of Our Efforts

      Grid Parity is Our Goal

      We believe that through durable R & D investment and technology breakthroughs, Gold Stone will become one of the leaders of the photovoltaic industry. Our confidence is rooted in our restless technology innovations.

      26.33%
      26.33%
      World Record
      Conversion efficiency of the technology has been reached
      Grid Parity
      Grid Parity
      Most cost-effective
      Lowest end use cost
      Less Energy Consumption Process
      Less Energy Consumption Process
      Low temperature process
      220 ° C or less
      HDT Solar Cell Technology R&D

      HDT Solar Cell Technology R&D

      HDT solar cells has a bifacial structure design that can absorb the incident light and scattered light from both sides, By using a PECVD, a very thin intrinsic silicon passivation layer and a P-type silicon doped layer is formed on the upper side of the N-type monocrystalline silicon wafer after texturing and surface clean, and then a very thin intrinsic silicon passive layer and N-type silicon doped layer is deposited on the other side. After the deposition of amorphous silicon layer stacks, PVD magnetron sputtering coating technology is applied to deposit transparent oxide conductive film (TCO) and metal stack on both sides of the cells. At last, the metal grids on both sides are formed by our innovated metallization technology. All processes for HDT solar cells are carried out at temperatures below 220 ° C.

      Advantages of HDT Solar Cells Technologies

      Advantages of HDT Solar Cells Technologies

      Low processing temperature:The highest process temperature for producing HDT solar cells is less than 250oC,meaning more energy saving in production;

      Hetero-junction emitter:Band engineering technology improves the quality of the amorphous silicon and widens its band gap, making the layer more transparent, resulting in the high short-circuit current (Isc) and high open-circuit voltage (Voc). The world record efficiency for this type of solar cells has reached to ~ 26.3%;

      Low power-temperature coefficient:The power-temperature coefficient of HDT solar cell is less than ~-0.3%/oC, making it more suitable working in hot outdoor environment.


      Readiness of flexible solar cells technology:Gold Stone developed the technology to fabricate the very thin silicon solar cells.  At this thickness, the solar cells are flexible, suitable for more practical applications;

      Glass-glass module technology:HDT solar cells have a double-sided structure, which can receive the sunlight from both sides, well for making the glass-glass modules. With optimal positioning on the ground, the modules could generate ~10% more output power.


      Functions of Amorphous Silicon

      Functions of Amorphous Silicon

      HDT solar cell contains a total of four layers of silicon film, in which P-type and N-type silicon doped layer as the emitter and back electrode field of the cell to build the internal electric field of the solar cell, with the thickness of about 5nm. The main role of the intrinsic silicon layer in the front and back of the monocrystalline silicon wafer is to passivate the surface of the monocrystalline silicon (Note: the surface of monocrystalline silicon due to the long-term structure of the crystal structure damage, resulting in a large number of surface defects), increase the minority carrier lifetime, and decrease the recombination of minority carrier on the interface. The intrinsic silicon layer of HDT solar cell has a thickness of 10nm or less, usually about 5nm. While in the traditional silicon thin film solar cells, the intrinsic silicon as the light absorption layer, the thickness is generally between 200nm ~ 300nm, the difference is about 50 times. Thus, the light-induced degradation effect in silicon thin film solar cells is recognized as not exist in HDT solar cells.

      Functions of TCO Transparent Electrode

      Functions of TCO Transparent Electrode

      As the conductivity of the silicon film is poor, the TCO transparent electrode serves as a transition layer between metal electrode and silicon, which mainly reduces the recombination loss of the carriers when flowing on the surface of the parallel silicon wafer, increases the carrier collection efficiency, and also makes the metal electrode forms a good ohmic contact. In addition, TCO electrode also plays the role of anti-reflection. TCO transparent electrodes are generally required to have high transmittance, low resistivity.

      Functions of Metal Electrode in HDT Solar Cells

      Functions of Metal Electrode in HDT Solar Cells

      The same with that of other crystal silicon solar cells, the metal electrode on the top of HDT solar cell is to efficiently collect the carriers.


      Road Map for Increasing Conversion Efficiency of HDT Solar Cells

      Road Map for Increasing Conversion Efficiency of HDT Solar Cells

      1、Reduction of Optical Loss:Reduce the textured surface reflection / Reduce the light absorption by TCO layer and amorphous silicon / Decrease the grid covering area by increasing its aspect ratio

      2、Reduction of Surface Recombination Velocity:Improve the cleaning process for textured surface/Optimize the doping concentration of the doped amorphous silicon/Improve the quality of intrinsic layer

      3、Reduction of Series Resistance:Increase the conductivity of TCO layer/Reduce the contact resistance between TCO layer and doped amorphous silicon


      Road Map of HDT Solar Cells Conversion Efficiency

      Road Map of HDT Solar Cells Conversion Efficiency

      Improve the conversion efficiency of solar cells is one of the constant pursuit of photovoltaic industry goals. Based on heterogeneous silicon-based high-efficiency solar cell technology as a high conversion efficiency and low cost potential of the technical route, represents the development direction of the photovoltaic industry.

      Strategic Foresight

      Strategic Foresight

      In-depth understanding of the photovoltaic technology development gives us a clear vision of where the photovoltaic industry is going.

      Invest in R&D for future technologies, both mid-term and long term. Get ready for key technology innovations and upgrades in the photovoltaic industry.

      Create new eco-system via vertical integration in the photovoltaic industry, further differentiating us from our competitors. 


      Strategy for Technology leadership

      Strategy for Technology leadership

      Focus on innovative technologies that have real market potential. Develop new manufacturing process for low cost, high efficiency solar cells.

      Attract global photovoltaic industry technology leaders and build globally influential R&D team

      Attract capital from top notch global investors; continue to invest in R&D and innovation

      Build a patent portfolio that has true technology and market value. Today, we’ve acquired over 150 patents through independent R&D.


      Grid parity is our goal

      Seek to provide the end users of our solar cells with the lowest TCO (total cost of ownership).

      Seek to provide our clients the highest ROI (return on investment) on a complete solar cell production line.

      Reduce cost without making any compromises on high quality


      System Integration Capability

      System Integration Capability

      Leverage research and development resources on a global scale, particularly focusing on the integration of key equipment development resources.

      Leverage multiple resources for technology innovation, integrating cutting edge technologies in material, processes, equipment, system, etc.

      Leverage resources in the entire ecosystem via in-depth collaboration with clients, suppliers, equipment developers, etc.

      Overall Brand Strength

      Overall Brand Strength

      Our company’s competitiveness stems from our systemic organization and coordination capabilities

      Establish brand reputation and credibility

      Integrated capabilities of quality, capacity, delivery & service based on our scientific management

      Overall strength based on the Goldstone company culture.

      R&D Competence

       

      Photovoltaic industry is growing exponentially and the competition in the industry is heated up. Only the companies who possess strong R&D and innovation competence can become global industry leaders. China has the largest solar module manufacturer and many excellent companies engaged in the design, construction and operation of solar power plants. China is also the largest and most lucrative market for solar powered devices, but in terms of high end solar cells production equipment, China still lags behind world leaders. We believe that through persistent R&D investment and technology breakthroughs, Gold Stone will become one of the leaders of the photovoltaic industry. Our confidence is rooted in our restless technology innovations.

       
      R&D Competence
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