Company: KII
Filing Date: 2025-12-09
Form Type: S-1/A
Source: 0001213900-25-119587
Chunk: 173

Company: K2 Capital Acquisition Corp
Filing Date: 2025-12-09
Form: S-1/A
Chunk 173
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 •Companies developing small modular nuclear reactor technologies that have the potential to provide enhanced safety, lower upfront capital costs, flexible deployment, and significantly reduced environmental footprints compared to traditional nuclear power. Humanoid Robotics and Physical AI We believe that humanoid robotics will play a transformative role across industries such as manufacturing, logistics, eldercare, domestic services, and hazardous environment operations. These systems represent a new class of intelligent machines that not only process information but also navigate and manipulate complex physical environments with dexterity and situational awareness. We believe the convergence of next -generationcomputer power, real -timeAI, battery innovation, and mechanical design is catalyzing a step -changein capability and commercial readiness, positioning Physical AI as a foundational element for the economy and labor force of tomorrow. 111 The Physical AI market is experiencing significant growth driven by advances in machine learning, sensor fusion, and biomechanical engineering, according to Morgan Stanley’s Equity Research. As autonomous systems become increasingly capable of interacting with the physical world in human -likeways, we believe humanoid robotics represents a paradigm shift that will reshape entire industries. We believe the integration of advanced AI algorithms with sophisticated mechanical systems is creating unprecedented opportunities for automation and productivity enhancement across diverse sectors. The main Physical AI trends and innovations that our team expects to focus on in connection with considering target businesses for our initial business combination are as follows: •Implementation of advanced AI and machine learning platforms to increase productivity, efficiency and reduce labor costs. •Development of sophisticated sensor fusion technologies that enable real -timeenvironmental awareness and adaptive decision -making. •Innovation in battery technology and power management systems that extend operational duration and reliability. •Adoption of advanced materials and manufacturing techniques that enhance durability and performance while reducing costs. •Integration of human -robotcollaboration interfaces that enable safe and intuitive interaction between humans and autonomous systems. •Development of specialized applications for critical industries including manufacturing, healthcare, defense, and infrastructure maintenance. Small Modular Nuclear Reactors (SMRs) and Advanced Energy We believe SMRs have the potential to become a sought -afterkey component of the energy transition and decarbonization roadmap as the global demand for clean, reliable, and scalable baseload energy grows. These next -generationnuclear systems promise enhanced safety, lower upfront capital costs, flexible deployment, and significantly reduced environmental footprints compared to traditional nuclear power. We believe that SMRs — supported by innovations in modular construction, passive safety systems, and advanced materials — have the potential to deliver zero -emissionenergy at scale, complementing intermittent renewable sources