한국어

Laser Photonics Corporation sets high growth strategy for 2025

1021
2025-01-20 17:37:58
번역 보기

Recently, laser cleaning equipment manufacturer Laser Photonics Corporation (LPC) announced its ambitious 2025 growth strategy, emphasizing innovation, strategic investment, and market expansion.

 



LPC Executive Vice President John Armstrong stated:
With a solid foundation laid in 2024, we will enter 2025 with clear momentum and a firm focus on growth. The progress we made last year - strengthening our position in the core market and entering high potential niche markets - laid the foundation for what we believe will be transformative progress.

From leveraging synergies with CMS acquisition to expanding our cutting-edge products such as CleanTech, we are ready to redefine the possibilities of industrial laser technology. Looking ahead, LPC is committed to realizing value through relentless innovation, improved operational excellence, and strategic expansion - we are determined to lead the trend in industrial laser solutions.

CMS acquisition brings early returns and long-term potential
LPC's acquisition of Control Micro Systems (CMS) for $1 million at the end of 2024 has proven to be a strategic victory. In just a few months, LPC collected over $600000 in CMS accounts receivable and increased its order backlog to nearly $4 million. The increase in CMS employees (mainly in the R&D and engineering departments) has enhanced LPC's innovation channels and created opportunities for synergies with existing product lines.

CMS has also opened the door to multiple high growth markets, including medical and pharmaceutical laser systems, semiconductor manufacturing, and flat panel display technology. In the medical and pharmaceutical industries, CMS' laser systems can meet basic applications such as tablet drilling for sustained-release drugs, laser marking for anti-counterfeiting measures, and medical equipment tracking. These markets are expected to grow at a compound annual growth rate of over 10% over the next five years, in order to resist economic recession.

In addition, CMS' customized laser system, especially in semiconductor and wire stripping, can provide excellent speed and efficiency. LPC believes that these under invested product lines have enormous potential for growth and is committed to increasing revenue contributions by 2025 and beyond.

Accelerating innovation in semiconductor manufacturing technology
LPC is doubling its investment in the research and development of BlackStar laser wafer cutting products and CMS semiconductor systems. BlackStar has excellent performance, reduces material waste, and seamlessly integrates with existing manufacturing processes, making it stand out in the competition. The laser system of CMS provides impressive cutting speed and reliable performance, with almost no waste or pollution.

Using LSAD to promote national defense innovation
Based on the successful concept validation testing of the Laser Shield Anti UAV LSAD, LPC is advancing its defense applications by 2025. The company is actively seeking funding, technical cooperation, and development funds to accelerate the listing time of LSAD.
Expand CleanTech laser cleaning system.

LPC's CleanTech laser cleaning system is becoming increasingly widely used in multiple industries. The widespread application of the company's technology reflects the increasing attractiveness of CleanTech in terms of efficiency, cost savings, and safety compared to traditional cleaning methods. The number of returning customers is also increasing, highlighting customer satisfaction. The LPC plan aims to further enhance CleanTech by integrating advanced artificial intelligence and robotic capabilities to increase automation and reduce human risk.

Continuous mergers and acquisitions drive growth
After successfully integrating CMS, LPC is committed to utilizing mergers and acquisitions to accelerate its growth strategy. Its areas of focus include expanding manufacturing and distribution capabilities. The company regards strategic mergers and acquisitions as the cornerstone for launching new product lines and strengthening its market position.

Source: OFweek

관련 추천
  • Researchers have created the first organic semiconductor laser that can be operated without the need for a separate light source

    Researchers at the University of St. Andrews in Scotland have manufactured the first organic semiconductor laser to operate without the need for a separate light source - which has proven to be extremely challenging. The new all electric driven laser is more compact than previous devices and operates in the visible light region of the electromagnetic spectrum. Therefore, its developers stated that...

    2023-11-15
    번역 보기
  • E-22 uncertainty optical frequency divider

    The time/frequency unit is the most accurate among the seven basic units, so many measurement studies that pursue ultra-high accuracy and sensitivity will be transformed into frequency measurements to achieve higher measurement accuracy and sensitivity. For example, by measuring the relative changes in the ratio of different atomic transition frequencies, ultralight dark matter can be detected or ...

    2024-02-27
    번역 보기
  • APE 2025 is about to take place

    The Asia Optoelectronic Expo 2025 (APE 2025) will be held from February 26 to 28, 2025 at the Marina Bay Sands Convention and Exhibition Centre in Singapore. It covers products such as information and communication, optics, lasers, infrared, sensing, display, quantum, and is a one-stop optoelectronic comprehensive platform for the optoelectronic industry and application fields; The exhibition focu...

    02-18
    번역 보기
  • Experimental verification of driving pressure enhancement and smoothing for hybrid driven inertial confinement fusion on a 100 kJ laser device

    The research teams from the Laser Fusion Research Center of the Chinese Academy of Engineering Physics, the Beijing Institute of Applied Physics and Computational Mathematics, Peking University, and Shenzhen University of Technology reported experimental verification of the driving pressure enhancement and smoothing of hybrid driven inertial confinement fusion on a 100 kJ laser equipment.The relev...

    2023-09-25
    번역 보기
  • 3D printed nanocellulose for green building applications

    The hydrogel material made of nano cellulose and algae was tested as an alternative and more environmentally friendly building material for the first time. This study from Chalmers Institute of Technology and the Wallenburg Wood Science Center in Sweden demonstrates how to 3D print rich sustainable materials into various building components, using much less energy than traditional building methods...

    2024-02-19
    번역 보기