Full Cycle LLC: Company Profile

Background

Overview

Full Cycle LLC is a company dedicated to advancing sustainable solutions through innovative technologies. Established in 2014, the company has developed proprietary technology that transforms organic waste materials into compostable and marine-degradable bioplastics, specifically polyhydroxyalkanoate (PHA). This process addresses environmental challenges by reducing landfill waste and greenhouse gas emissions.

Mission and Vision

Full Cycle's mission is to lead the global transition to a circular economy by providing sustainable alternatives to traditional plastics. The company's vision is to create a world where waste is minimized, and resources are continually reused, contributing to a healthier planet.

Primary Area of Focus

The company's primary focus is on the production of PHA bioplastics derived from organic waste streams, including inedible food waste, agricultural by-products, and cellulosic wastes. This approach not only offers a sustainable alternative to conventional plastics but also addresses waste management issues.

Industry Significance

Operating within the environmental sustainability sector, Full Cycle plays a crucial role in mitigating plastic pollution and promoting waste reduction. By converting waste into valuable bioplastics, the company contributes to the development of a circular economy and supports global efforts to combat environmental degradation.

Key Strategic Focus

Core Objectives

Sustainable Waste Management: Transforming organic waste into valuable bioplastics to reduce landfill usage and associated greenhouse gas emissions.

Circular Economy Promotion: Advancing the adoption of circular economy principles by providing sustainable alternatives to traditional plastics.

Specific Areas of Specialization

Bioplastics Production: Specializing in the production of PHA bioplastics from organic waste materials.

Waste-to-Resource Solutions: Developing technologies that convert waste streams into usable products, thereby reducing environmental impact.

Key Technologies Utilized

PHA Production Technology: Proprietary technology that utilizes bacteria to produce PHA bioplastics from mixed organic waste.

Waste Conversion Processes: Innovative methods for converting various waste materials into bioplastics, enhancing sustainability.

Primary Markets Targeted

Agriculture Producers: Offering solutions for managing agricultural waste through bioplastics production.

Food and Beverage Processors: Providing sustainable packaging alternatives to reduce plastic usage.

Composters and Landfills: Collaborating to process organic waste into bioplastics, reducing landfill dependency.

Biorefineries: Integrating bioplastics production into existing biorefinery operations to enhance sustainability.

Financials and Funding

Funding History

Total Funds Raised: Approximately $100,000.

Recent Funding Rounds

Incubator/Accelerator - II: Participated in an incubator/accelerator program, details of which are not specified.

Notable Investors

Zag Capital: Invested in Full Cycle, supporting its mission to develop sustainable bioplastics solutions.

Intended Utilization of Capital

The raised capital is intended to support the scaling of Full Cycle's bioplastics production, enhance research and development efforts, and expand market reach to promote sustainable alternatives to traditional plastics.

Pipeline Development

Key Pipeline Candidates

PHA Bioplastics: Full Cycle is focused on advancing the production of PHA bioplastics derived from organic waste materials.

Stages of Development

Technology Development: Ongoing refinement of proprietary technology for efficient PHA production.

Pilot Projects: Implementing pilot projects to demonstrate the viability and scalability of bioplastics production.

Target Conditions

Plastic Pollution: Addressing environmental issues related to plastic waste through sustainable alternatives.

Waste Management: Providing solutions for managing organic waste streams effectively.

Anticipated Milestones

Commercial Production: Achieving large-scale production of PHA bioplastics.

Market Expansion: Entering new markets and forming strategic partnerships to broaden the adoption of bioplastics.

Technological Platform and Innovation

Proprietary Technologies

PHA Production Technology: A unique process that utilizes bacteria to convert mixed organic waste into PHA bioplastics, offering a sustainable alternative to conventional plastics.

Significant Scientific Methods

Biological Conversion Processes: Employing advanced biological methods to efficiently produce bioplastics from organic waste.

Sustainability Assessments: Conducting comprehensive analyses to evaluate the environmental impact and benefits of bioplastics production.

Leadership Team

Key Executives

Ross Polk: Head of Growth at Full Cycle, responsible for driving business development and strategic partnerships.

Dane Anderson: Co-founder of Full Cycle, involved in the company's strategic direction and operations.

Professional Backgrounds

Ross Polk: Experienced in business development, with a focus on sustainable technologies and market expansion.

Dane Anderson: Background in environmental sustainability and bioplastics, contributing to Full Cycle's innovative approach.

Key Contributions

Ross Polk: Instrumental in establishing and nurturing partnerships with key stakeholders in the sustainability sector.

Dane Anderson: Played a pivotal role in developing Full Cycle's proprietary technology and guiding the company's mission.

Competitor Profile

Market Insights and Dynamics

The bioplastics industry is experiencing significant growth, driven by increasing environmental awareness and the need for sustainable materials. The market for PHA bioplastics is expanding, with applications across various sectors, including packaging, agriculture, and consumer goods.

Competitor Analysis

Danimer Scientific: Specializes in biodegradable and compostable bioplastics, focusing on PHA-based products.

TerraVerdae: A biomanufacturing company producing bio-based, marine-degradable biopolymers.

Green Dot Bioplastics: Develops and manufactures biodegradable and compostable bioplastics.

BiologiQ: Produces sustainable bioplastics from renewable resources, aiming to replace petroleum-based plastics.

Strategic Collaborations and Partnerships

Full Cycle collaborates with various stakeholders, including agriculture producers, food and beverage processors, composters, landfills, and biorefineries, to implement its bioplastics production technology. These partnerships enable efficient waste management and promote the adoption of sustainable materials.

Operational Insights

Full Cycle differentiates itself through its proprietary technology that converts organic waste into PHA bioplastics, offering a sustainable alternative to traditional plastics. The company's focus on waste-to-resource solutions and its commitment to environmental sustainability position it as a key player in the bioplastics industry.

Strategic Opportunities and Future Directions

Full Cycle aims to scale its bioplastics production, expand into new markets, and form additional strategic partnerships to enhance the adoption of sustainable materials. The company's strengths in technology development and its commitment to sustainability provide a solid foundation for achieving these objectives.