By Faridat Salifu
A silent environmental crisis is unfolding as electronic waste, or e-waste, becomes the fastest-growing waste stream on the planet.
Millions of discarded smartphones, laptops, televisions, and batteries are piling up each year, releasing toxic chemicals into the soil, water, and air.
Data from the Global E-waste Monitor 2024 shows that the world generated 62 million tonnes of e-waste in 2022, a figure projected to rise to 82 million tonnes by 2030.
Less than a quarter—just 22.3 percent—of that waste is formally collected and recycled, while the rest is either dumped, burned, or processed informally.
Environmental experts warn that the growing mountain of electronic waste represents both a pollution hazard and a missed economic opportunity worth nearly $91 billion in recoverable materials such as gold, copper, and palladium.
The explosion of gadget use, driven by short product lifespans and constant upgrades, has created a global consumption problem with little attention to what happens after devices are discarded.
According to the United Nations Institute for Training and Research (UNITAR), e-waste is increasing at five times the rate of formal recycling efforts, widening the gap between production and environmental responsibility.
But researchers say technology may also hold the key to solving the very problem it helped create.
New recycling systems powered by artificial intelligence (AI) are now being used to recognise and sort electronic components with precision.
Robotic arms can dismantle smartphones faster than human workers, and computer vision tools are identifying valuable materials for recovery.
Another promising innovation is laser-induced breakdown spectroscopy (LIBS), which uses light to detect and separate rare earth metals in seconds.
The recycling sector is also shifting toward hydrometallurgical processing, a water-based method that replaces harsh acids with eco-friendly solvents.
Some recycling companies have begun using blockchain technology to trace electronics throughout their life cycles, ensuring greater transparency and accountability.
Despite such progress, global recycling access remains uneven.
While Europe recycles over 50 percent of its e-waste, most African and South American countries recycle less than 2 percent, often through informal workers who operate in unsafe and hazardous conditions.
Analysts argue that innovation alone cannot solve the e-waste crisis without policy reforms, investment, and global cooperation.
They say that governments and technology companies must work together to expand safe recycling infrastructure in developing regions.
In 2025, more brands are introducing trade-in programmes and right-to-repair options to extend device life and reduce waste.
The rise of circular economy models has also made it possible for consumers to buy high-quality refurbished electronics, reducing both cost and environmental impact.
Still, awareness remains low.
Many consumers do not know where or how to recycle their devices, and some hesitate due to concerns about data privacy and identity theft.
Experts say secure data-erasure systems and consumer education are key to building public trust in recycling initiatives.
The International Labour Organization (ILO) estimates that if e-waste recycling were formalised globally, it could create millions of green jobs across sectors such as logistics, design, technology, and education.
Environmental analysts say that recovering valuable metals from discarded devices could also strengthen supply chains, especially as global tensions disrupt access to key minerals.
But challenges remain.
Weak regulation, lack of incentives, and poor product design still hinder efficient recycling in many regions.
Advocates insist that the solution lies not only in technology or policy but also in personal responsibility.
Every device has a second life, experts say, and the decision to recycle or discard it could determine whether e-waste becomes a catastrophe or a resource.
Source: Global E-waste Monitor 2024; ILO; UNEP.