Patent 1
Engineered CAM Plant–Microbial–Biochar System for Enhanced Nocturnal Carbon Sequestration & Oxygen Generation
Problem:
Conventional plants absorb CO₂ only during the day and release CO₂ at night, limiting climate impact and oxygen availability.
Invention:
An engineered system combining:
- CAM plants (night-time CO₂ uptake),
- Beneficial microbes,
- Biochar as a living microbial carrier,
to enable night-time carbon capture, oxygen generation, and permanent soil carbon storage.
Why it matters:
- Enables 24/7 carbon sequestration
- Converts landscapes into continuous oxygen generators
- Especially suited for tropical ASEAN environments
Problem:
Most carbon sequestration efforts are temporary and easily reversed.
Invention:
A microbial-driven method that accelerates:
- Soil Organic Carbon (SOC) formation,
- Mineral-associated carbon locking,
- using selected microbial consortia combined with organic carbon inputs (e.g. biochar, effluents, residues).
Why it matters:
- Creates long-lasting carbon sinks (decades to centuries)
- Works on farms, degraded land, dumpsites, and industrial soils
- Moves beyond tree-only or offset-based solutions
Patent 2
Methods, Compositions & Systems for Terrestrial Carbon Sink Formation
Using Microbial Consortia & Organic Carbon Amendments
Patent 3
Microbial Compositions & Methods for Ammonia and Odour Reduction
Using Sulfur-Oxidizing Bacteria, Heterotrophic Bacteria & Filamentous Fungi
Problem:
Ammonia, hydrogen sulphide, and odours from agriculture and wastewater cause pollution, health risks, and GHG formation.
Invention:
A biological formulation and process that:
- Suppresses ammonia volatilisation,
- Breaks down odour-causing compounds,
- Controls hydrogen sulphide biologically,
- before gases are released into the air.
Why it matters:
- Eliminates pollution at source
- No chemical masking or acid dosing
- Applicable to livestock farms, effluent ponds, WWTPs, and food waste systems
Problem:
Potassium-40 and excess potassium in mineral soils and waste landscapes pose environmental and long-term risks through leaching and mobility.
Invention:
A dual-microbial system that:
- Mobilises potassium biologically,
- Re-locks it into stable bio-mineral complexes,
- Enables circular recovery as plant-available nutrients without leaching.
Why it matters:
- Prevents potassium and radionuclide mobility
- Converts a contamination risk into a usable resource
- Applicable to agriculture, construction waste, railway ballast, and degraded soils
Patent 4
Zero-Leachate Potassium Remediation System
via Microbial K-Mobilisation + Bio-Mineral Locking (Using Frateuria aurantia + Bacillus musilaginosus)
Why This Patent Portfolio Is Powerful
Addresses multiple pollutants
and climate drivers simultaneously
Addresses multiple pollutants and climate drivers simultaneously
Focuses on prevention,
not after-the-fact capture
Focuses on prevention,
not after-the-fact
capture
Produces permanent, measurable outcomes
Produces permanent, measurable
outcomes
Designed for ASEAN scale,
climate, and cost realities
Designed for ASEAN scale,
climate, and cost
realities
Integrates climate,
biodiversity, food safety, and health
Dr. Fung’s patents redefine climate and pollution control by preventing emissions at source and converting them into permanent biological and mineral assets—creating scalable, 24/7 solutions designed for real-world ASEAN conditions.