Making modules more transparent and power plants more efficient | Hysimic invites you to SNEC 2026

Exhibition Focus

June 3–5, 2026, SNEC PV+ The 19th International Solar Photovoltaic and Smart Energy Conference and Exhibition It will be held at the National Exhibition and Convention Center (Shanghai), China.

As a major global event in the photovoltaic and smart energy sectors, SNEC brings together upstream and downstream companies, research institutions, power‑plant investors, EPC contractors, and O&M service providers each year, serving as a vital platform for showcasing cutting‑edge technologies, connecting industry resources, and fostering collaborative partnerships.

At this exhibition, Guangzhou Xisenmeike New Materials Technology Co., Ltd. will showcase its photovoltaic nano-coating products and scenario-based solutions, focusing on… Functional Coatings for Photovoltaic Glass and Modules, and Efficiency-Enhancing Solutions for Solar Power Plants Two major directions: jointly exploring with industry partners new approaches to enhance the antireflection, protection, self‑cleaning, and anti‑pollution performance of photovoltaic module surfaces, as well as to improve the long-term power generation efficiency of solar power plants.

Booth No.: 2.2H-B165

From June 3 to 5, 2026, Hisenmeike looks forward to welcoming you in Shanghai.

🔍 Focus on the module surface to ensure more stable long-term photovoltaic performance.

     Photovoltaic modules operate outdoors over long periods, and the glass surface’s light transmittance, cleanliness, anti‑fouling properties, and weather resistance directly affect module performance and power‑plant revenue.

At the module‑manufacturing stage, photovoltaic glass must deliver higher light transmittance, greater surface hardness, and enhanced functional value. During power‑plant operation, contaminants such as dust, windblown sand, bird droppings, salt spray, industrial and mining particulates, oil stains, and scale continuously accumulate on the module surface, degrading light transmission and compromising power‑generation performance.

Often, components don’t generate less power simply because they’re “broken”; rather, their long-term surface cleanliness and ease of cleaning are inadequate, which in turn degrades their performance.

Focusing on the critical interface of the module surface, Hysenmech has long been dedicated to the research, development, and application of photovoltaic nanomaterials, striving to provide more tailored material products and application solutions for photovoltaic glass, module manufacturing, and existing power plants.

🔍 Module‑level products: driving functional upgrades in photovoltaic glass and modules.

     Targeting photovoltaic glass manufacturers, module producers, and related manufacturing clients, Hesinmeike offers a diverse range of photovoltaic nano‑coating products, enhancing the performance of photovoltaic glass and modules in key areas such as light transmittance, abrasion resistance, self‑cleaning, and anti‑fouling.

At this exhibition, Xisenmeike will focus on showcasing the following front-end product lines:

     Ultra-high-transmittance nano-coating

By reducing reflection and increasing light transmission, it minimizes surface reflections on the glass, enhances the effective transmittance of sunlight, and provides material‑level support for the module’s power‑generation performance.

     Ultra-Hard Nanocoating

Enhances the coating’s surface hardness and wear resistance, meeting the performance requirements of components during transportation, installation, cleaning, and prolonged outdoor exposure.

     Self-cleaning nano-coating

Improves the hydrophilic properties of the glass surface, enabling rainwater, dew, or cleaning water to spread more evenly, thereby helping to remove surface dust and contaminants and keeping the module cleaner.

     Photocatalytic Anti-Bird-Dropping Nanocoating

For scenarios involving organic contaminants such as bird droppings and oil stains, photocatalytic processes are employed to assist in the decomposition of certain organic pollutants, thereby enhancing the self‑cleaning performance of component surfaces.

Endowing photovoltaic glass with enhanced surface properties—such as higher light transmittance, superior abrasion resistance, improved cleanability, and greater adaptability to specific application scenarios—is one of the key topics of discussion at this year’s exhibition for Hysenmech.

🔍 Power Plant‑Side Solution: Making Existing Plants Easier to Keep Clean

     For existing photovoltaic power plants, soiling on the module surfaces is a key factor affecting long-term performance. Conventional cleaning can address the issue of “cleaning today,” but what many plants really need is to make modules less prone to soiling, easier to clean when they do get dirty, and to maintain cleanliness for a longer period after cleaning.

HysunMeike’s power‑plant‑side efficiency‑enhancement solution is not a standalone product sale; rather, it customizes an appropriate coating system and application plan based on the type of contamination, module condition, cleaning requirements, and customer objectives.

At this exhibition, Hesinmeike will engage in discussions centered on the following power‑station‑side products and solutions:

Self-cleaning, anti-reflective nanocoating

Photocatalytic self-cleaning nanocoating

Photocatalytic-enhanced self-cleaning nano-coating

Alkali-resistant, anti-scaling nano-coating

Nano-coating to prevent iron powder contamination

Acid-resistant and corrosion-proof nano-coating

Salt-Spray-Resistant Nanocoating

Customized Composite Scenario Solution

Renovation and restoration of nano-coating

For diverse application scenarios—including mountainous terrain, rooftops, coastal tidal flats, floating photovoltaic systems, industrial and mining sites, wind‑blown sand environments in the northwest, and the refurbishment of aging solar modules—Hysun Mec will tailor its recommendations to each project’s specific conditions, offering targeted guidance that spans contamination assessment, product selection, installation procedures, and performance monitoring.

We always adhere to the principle of first identifying the type of contamination, then assessing the site conditions, and finally selecting the appropriate coating system and application method.

🔍 Welcome to visit Booth 2.2H-B165 for a chat.

     During SNEC 2026, Hysun Mec looks forward to engaging in face-to-face discussions with photovoltaic glass manufacturers, module producers, power plant owners, EPC contractors, O&M companies, and industry partners.

If you are following:

Photovoltaic glass with high transmittance, wear resistance, self-cleaning properties, and bird‑dropping‑resistant coating;

Component-level functional product development;

Contamination issues such as dust accumulation, bird droppings, salt spray, windblown sand, and industrial/mining dust on power plant modules;

Existing power plants face high cleaning pressures and a tendency for fouling to recur after cleaning;

Refurbishment and repair of aging components, along with efficiency upgrades for existing power plants;

Coating selection and construction plan for complex contamination scenarios;

We welcome you to visit the Hesinmeike booth with your specific project requirements. We will work with you, based on real-world scenarios, to explore the most suitable products and solutions.