Global HIT (HJT) Solar Cell Market 2026 by Company, Regions, Type and Application, Forecast to 2032

According to our (Global Info Research) latest study, the global HIT (HJT) Solar Cell market size was valued at US$ 5969 million in 2025 and is forecast to a readjusted size of US$ 154590 million by 2032 with a CAGR of 59.9% during review period.

Heterojunction solar cells (HJT), variously known as Silicon heterojunctions (SHJ) or Heterojunction with Intrinsic Thin Layer (HIT), are a family of photovoltaic cell technologies based on a heterojunction formed between semiconductors with dissimilar band gaps. They are a hybrid technology, combining aspects of conventional crystalline solar cells with thin-film solar cells. As of 2023, Silicon heterojunction architecture has the highest cell efficiency for commercial-sized silicon solar cells. In 2022?2024, SHJ cells are expected to overtake Aluminium Back surface field (Al-BSF) solar cells in market share to become the second-most adopted commercial solar cell technology after PERC/TOPCon (Passivated Emitter Rear Cell/Tunnel Oxide Passivated Contact), increasing to nearly 30% by 2030. HJT cells generally consist of an active crystalline silicon absorber substrate passivated by a thin layer of hydrogenated intrinsic amorphous silicon (denoted as a-Si:H) or nanocrystalline silicon (the 'buffer layer') and appropriately doped amorphous selective contacts. The selective contact material and the absorber have different band gaps, forming the heterojunction that is analogous to the p-n junction of traditional solar cells. The high efficiency of heterojunction solar cells is owed mostly to the excellent passivation qualities of the buffer layers, particularly with respect to separating the highly recombination-active metallic contacts from the absorber. Although intrinsic buffer layers are effectively non-conductive, charge carriers can diffuse through as the thickness is typically less than 10 nm. It is advantageous for the passivating layer to have a higher band gap in order to minimise parasitic absorption of photons, as absorption coefficient is partially dependent on band gap. Heterojunction cells are commercially mass-produced and are commonly bifacial. As the thin layers are usually temperature sensitive, heterojunction cells are constrained to a low-temperature manufacturing process. This presents challenges for electrode metallisation, as the typical silver paste screen printing method requires firing at up to 800 ?C; well above the upper tolerance for most buffer layer materials. As a result, the electrodes are composed of a low-temperature silver paste or electroplated copper. Heterojunction is one of the two advanced cell architectures the solar industry has been banking upon to improve the performance of today?s PV device. The current cell technology incumbent, PERC has hit its efficiency threshold, and even the large wafer trick that allowed it to generate more power is not exclusive to PERC anymore. Consequently, cell/module manufacturers have once again started focusing on high efficiency, and this is where HJT makes its presence felt. HJT, now on the radar of many PV manufacturers, has made significant progress in recent times. As a technology, HJT is a variant of passivated contacts, so is TOPCon. Both the technologies address the primary shortcoming of most of the cell technologies, i.e., recombination due to metallic contacts. This is achieved by electronically separating contacts from the absorber by inserting a wider band-gap layer. Where HJT differs from TOPCon, which is single sided, is that the said layer is inserted on both sides and the process itself is accomplished at a low temperature. HJT comes with a few more advantages such as a short production process with fewer steps, high bifaciality, better low-light performance and low degradation. Besides, HJT is anything but new, as the technology has been in production for over two decades. The heterojunction segment has just seen something groundbreaking: LONGi has broken the efficiency world record Kaneka had held for 5 long years, and has created history in the process. At 26.81%, the efficiency figure achieved in Nov. 2022 is the highest reported so far for a crystalline silicon solar cell with an HJT-only cell structure. Notwithstanding HJT?s potential that has become evident here, its relevance is insignificant from a commercialization standpoint. Within module making, more than the process, it is the materials that are the subject of innovation. Leading encapsulation material suppliers have introduced light conversion films that can convert UV light into red or blue band, which enhances the absorption with HJT in particular and results in a power gain. The industrial cell efficiencies in China have surpassed 25% in general, while the specifics vary from one case to the other. An increasing number of module products based on HJT are entering the commercial space. Today?s market offers HJT modules for all applications, including 700 W products for the utility scale.

Global key players of HIT (HJT) Solar Cell include Huasun, Risen Energy, REC, TW Solar, Meyer Burger, etc. The top five players hold a share about 63%. North America is the largest market, and has a share about 52%, followed by Europe and Asia-Pacific with share 24% and 22%, separately. In terms of product type, Silver-based is the largest segment, accounting for a share of 96%. In terms of application, Residential is the largest field with a share about 79 percent.

The HIT (HJT) Solar Cell market report provides a detailed analysis of global market size, regional and country-level market size, segmentation market growth, market share, competitive Landscape, sales analysis, impact of domestic and global market players, value chain optimization, trade regulations, recent developments, opportunities analysis, strategic market growth analysis, product launches, area marketplace expanding, and technological innovations.

Market segmentation

HIT (HJT) Solar Cell market is split by Type and by Application. For the period 2026-2032, the growth among segments provide accurate calculations and forecasts for revenue by Type and by Application. This analysis can help you expand your business by targeting qualified niche markets.

Market segment by Type,

• Silver-based
• Copper-based

Market segment by Application

• Residential
• Commercial and Industrial
• Utility

Market segment by players, this report covers

• Huasun
• Risen Energy
• Leascend
• Golden Solar
• Akcome
• GS-Solar
• Meyer Burger
• TW Solar
• REC
• Jinneng
• EcoSolifer
• Hevel
• Canadian Solar
• Enel
• Heliene
• Panasonic

Market segment by regions, regional analysis covers

North America

Europe

Asia-Pacific (China, Japan, South Korea, Rest of Asia)

South America

Middle East & Africa

LIST OF FIGURES

Table 1. Global HIT (HJT) Solar Cell Revenue by Type, (USD Million) 2026 VS 2032
Table 2. Global HIT (HJT) Solar Cell Revenue by Application, (USD Million), 2026 VS 2032
Table 3. Huasun Corporate Information, Head Office, and Major Competitors
Table 4. Huasun Major Business
Table 5. Huasun HIT (HJT) Solar Cell Product and Solutions
Table 6. Risen Energy Corporate Information, Head Office, and Major Competitors
Table 7. Risen Energy Major Business
Table 8. Risen Energy HIT (HJT) Solar Cell Product and Solutions
Table 9. Leascend Corporate Information, Head Office, and Major Competitors
Table 10. Leascend Major Business
Table 11. Leascend HIT (HJT) Solar Cell Product and Solutions
Table 12. Golden Solar Corporate Information, Head Office, and Major Competitors
Table 13. Golden Solar Major Business
Table 14. Golden Solar HIT (HJT) Solar Cell Product and Solutions
Table 15. Akcome Corporate Information, Head Office, and Major Competitors
Table 16. Akcome Major Business
Table 17. Akcome HIT (HJT) Solar Cell Product and Solutions
Table 18. GS-Solar Corporate Information, Head Office, and Major Competitors
Table 19. GS-Solar Major Business
Table 20. GS-Solar HIT (HJT) Solar Cell Product and Solutions
Table 21. Meyer Burger Corporate Information, Head Office, and Major Competitors
Table 22. Meyer Burger Major Business
Table 23. Meyer Burger HIT (HJT) Solar Cell Product and Solutions
Table 24. TW Solar Corporate Information, Head Office, and Major Competitors
Table 25. TW Solar Major Business
Table 26. TW Solar HIT (HJT) Solar Cell Product and Solutions
Table 27. REC Corporate Information, Head Office, and Major Competitors
Table 28. REC Major Business
Table 29. REC HIT (HJT) Solar Cell Product and Solutions
Table 30. Jinneng Corporate Information, Head Office, and Major Competitors
Table 31. Jinneng Major Business
Table 32. Jinneng HIT (HJT) Solar Cell Product and Solutions
Table 33. EcoSolifer Corporate Information, Head Office, and Major Competitors
Table 34. EcoSolifer Major Business
Table 35. EcoSolifer HIT (HJT) Solar Cell Product and Solutions
Table 36. Hevel Corporate Information, Head Office, and Major Competitors
Table 37. Hevel Major Business
Table 38. Hevel HIT (HJT) Solar Cell Product and Solutions
Table 39. Canadian Solar Corporate Information, Head Office, and Major Competitors
Table 40. Canadian Solar Major Business
Table 41. Canadian Solar HIT (HJT) Solar Cell Product and Solutions
Table 42. Enel Corporate Information, Head Office, and Major Competitors
Table 43. Enel Major Business
Table 44. Enel HIT (HJT) Solar Cell Product and Solutions
Table 45. Heliene Corporate Information, Head Office, and Major Competitors
Table 46. Heliene Major Business
Table 47. Heliene HIT (HJT) Solar Cell Product and Solutions
Table 48. Panasonic Corporate Information, Head Office, and Major Competitors
Table 49. Panasonic Major Business
Table 50. Panasonic HIT (HJT) Solar Cell Product and Solutions
Table 51. Global HIT (HJT) Solar Cell Revenue (USD Million) by Players (2026 & 2032)
Table 52. Global HIT (HJT) Solar Cell Revenue Share by Players (2026 & 2032)
Table 53. HIT (HJT) Solar Cell Players Head Office, Products and Services Provided
Table 54. HIT (HJT) Solar Cell Mergers & Acquisitions in the Past Five Years
Table 55. HIT (HJT) Solar Cell New Entrants and Expansion Plans
Table 56. Global Market HIT (HJT) Solar Cell Revenue (USD Million) Comparison by Region (2026 VS 2032)
Table 57. Global HIT (HJT) Solar Cell Revenue Market Share by Region (2026-2032)
Table 58. Key Companies of HIT (HJT) Solar Cell in North America
Table 59. Current Situation and Forecast of HIT (HJT) Solar Cell in North America
Table 60. Key Companies of HIT (HJT) Solar Cell in Europe
Table 61. Current Situation and Forecast of HIT (HJT) Solar Cell in Europe
Table 62. Key Companies of HIT (HJT) Solar Cell in Asia-Pacific
Table 63. Current Situation and Forecast of HIT (HJT) Solar Cell in Asia-Pacific
Table 64. Key Companies of HIT (HJT) Solar Cell in China
Table 65. Key Companies of HIT (HJT) Solar Cell in Japan
Table 66. Key Companies of HIT (HJT) Solar Cell in South Korea
Table 67. Key Companies of HIT (HJT) Solar Cell in South America
Table 68. Current Situation and Forecast of HIT (HJT) Solar Cell in South America
Table 69. Key Companies of HIT (HJT) Solar Cell in Middle East & Africa
Table 70. Current Situation and Forecast of HIT (HJT) Solar Cell in Middle East & Africa
Table 71. Global HIT (HJT) Solar Cell Revenue Forecast by Type (2026-2032)
Table 72. Global HIT (HJT) Solar Cell Revenue Forecast by Application (2026-2032)

LIST OF FIGURES

Figure 1. HIT (HJT) Solar Cell Picture
Figure 2. Global HIT (HJT) Solar Cell Revenue Market Share by Type in 2032
Figure 3. Silver-based
Figure 4. Copper-based
Figure 5. HIT (HJT) Solar Cell Revenue Market Share by Application in 2032
Figure 6. Residential Picture
Figure 7. Commercial and Industrial Picture
Figure 8. Utility Picture
Figure 9. Global HIT (HJT) Solar Cell Market Size, (USD Million): 2026 VS 2032
Figure 10. Global HIT (HJT) Solar Cell Revenue and Forecast (2026-2032) & (USD Million)
Figure 11. HIT (HJT) Solar Cell Market Drivers
Figure 12. HIT (HJT) Solar Cell Market Restraints
Figure 13. HIT (HJT) Solar Cell Market Trends
Figure 14. Huasun Recent Developments and Future Plans
Figure 15. Risen Energy Recent Developments and Future Plans
Figure 16. Leascend Recent Developments and Future Plans
Figure 17. Golden Solar Recent Developments and Future Plans
Figure 18. Akcome Recent Developments and Future Plans
Figure 19. GS-Solar Recent Developments and Future Plans
Figure 20. Meyer Burger Recent Developments and Future Plans
Figure 21. TW Solar Recent Developments and Future Plans
Figure 22. REC Recent Developments and Future Plans
Figure 23. Jinneng Recent Developments and Future Plans
Figure 24. EcoSolifer Recent Developments and Future Plans
Figure 25. Hevel Recent Developments and Future Plans
Figure 26. Canadian Solar Recent Developments and Future Plans
Figure 27. Enel Recent Developments and Future Plans
Figure 28. Heliene Recent Developments and Future Plans
Figure 29. Panasonic Recent Developments and Future Plans
Figure 30. Global HIT (HJT) Solar Cell Revenue Market Share by Region (2026-2032)
Figure 31. Global HIT (HJT) Solar Cell Revenue Market Share by Region in 2032
Figure 32. North America HIT (HJT) Solar Cell Revenue (USD Million) and Growth Rate (2026-2032)
Figure 33. Europe HIT (HJT) Solar Cell Revenue (USD Million) and Growth Rate (2026-2032)
Figure 34. Asia-Pacific HIT (HJT) Solar Cell Revenue (USD Million) and Growth Rate (2026-2032)
Figure 35. South America HIT (HJT) Solar Cell Revenue (USD Million) and Growth Rate (2026-2032)
Figure 36. Middle East & Africa HIT (HJT) Solar Cell Revenue (USD Million) and Growth Rate (2026-2032)
Figure 37. Global HIT (HJT) Solar Cell Market Share Forecast by Type (2026-2032)
Figure 38. Global HIT (HJT) Solar Cell Market Share Forecast by Application (2026-2032)
Figure 39. Methodology
Figure 40. Research Process and Data Source