TAcc+ GreenTech Accelerator Leads Startups into the Middle East Market
The Green Technology Accelerator, initiated by the Small and Medium Enterprise Administration (SMESA) under Taiwan’s Ministry of Economic Affairs, aims to address the growing corporate decarbonization demands driven by global policies and supply chain regulations.
The program recruits mature startups offering solutions in energy applications, process optimization, and waste recycling, and partners them with industry clients to co-create tangible carbon-reduction outcomes. Through extensive advisory support, technical validation, and market collaboration, the accelerator helps transform innovative technologies into scalable green impact.
Participating companies gain access to industrial think-tank insights, carbon-reduction consulting, technical assessments, international carbon accounting expertise, carbon credit advisory, and digital carbon management systems recognized by the United Nations. These resources empower enterprises to enhance competitiveness, upgrade products and technologies, refine business models, and achieve ESG goals—progressing from carbon inventory to strategic carbon management.
The following nine startups were selected by the TAcc+ GreenTech Accelerator to participate in the GITEX exhibition in Dubai in October 2025.
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Company |
Introduction |
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1 |
Focusing on the development of self-cleaning and brightness-enhancing coatings for solar panels, utilizing composite nanomaterial technology to successfully create a low-refractive-index coating encapsulating a high-refractive-index visible-light photocatalyst. This innovation improves glass transmittance, increasing solar panel power generation efficiency by 5% while reducing cleaning frequency by 50%. |
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2 |
Mass production in Taiwan of tape-free reversible logistics "pull-tab cartons" and the industry's only self-developed patented IoT-enabled smart e-commerce carton recycling machine. This innovation helps businesses and consumers transition from paper to box, establishing a sustainable and environmentally friendly "packaging + technology" dual-cycle business model. |
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3 |
Providing comprehensive one-stop sustainable energy solutions and guidance for electricity users, including energy management systems tailored to various environments, energy storage, renewable energy, smart microgrids, charging stations, smart cities, and diverse energy applications. |
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4 |
The hydrogen recovery and purification equipment can reclaim 90% of the hydrogen used in the production process, reducing hydrogen waste and achieving "energy conservation and emissions reduction." Over the course of a year, it helps customers save significantly on gas procurement costs while cutting substantial CO₂ emissions—up to 8 million kilograms. |
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5 |
Developing a multifunctional intelligent energy storage grid control system that integrates monitoring, grid management, optimal allocation of large-scale energy storage, and technical validation of grid-connected storage solutions. This innovation enhances grid stability and promotes the utilization of renewable energy. |
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6 |
Using a patented process to produce pure plant-based straws—"bulrush straws"—where bulrush cultivation naturally achieves carbon sequestration. Combined with eco-friendly farming practices and low-carbon manufacturing, this approach generates negative carbon benefits, helping businesses significantly reduce costs. |
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7 |
By utilizing micro-injection nanocatalysts that combust alongside fuel, this technology facilitates the reduction of fossil fuel consumption and gradually transitions towards clean energy. The primary products include the ECO series of environmental processors, the Best series of gasoline and diesel additives, as well as biomass and recycled pellet combustion enhancers. |
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8 |
Leveraging expertise in material applications, this process sustainably transforms polarizer industry waste into chemical agents suitable for construction materials—without pollution. These chemicals offer superior efficacy and cost advantages, making them a viable substitute for existing agents and earning widespread international adoption. |
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9 |
Using AI-driven battery lifespan prediction and dynamic energy consumption optimization algorithms, this solution aims to address range anxiety for electric vehicle fleets. By refining battery management, energy distribution, and fleet operation strategies, it can increase EV range by 30% and extend vehicle lifespan by up to 2.3 times. |
