- March 24, 2026
- Posted by: EWGFX
- Category: news
Silver prices have fallen by more than 40% since early January, when they reached an all-time peak of about $120/oz.
After oscillating above $80 per ounce (oz) between Feb. 19 and March 13, silver prices now appear to have stabilized around $70/oz.
“For the time being, silver prices seem to have found a new floor, supported by yesterday’s announcement of a pause in attacks on Iran,” Philip Newman, managing director of independent research consultancy Metals Focus told pv magazine.
From mid-October 2025, silver was already on a strong upward trajectory after breaking historic levels near $50/oz. The rally accelerated toward year-end, with prices climbing rapidly through November and December to around $70–75/oz, marking one of the sharpest late-year increases in decades.
In early January 2026, the surge intensified further, pushing silver past previous highs to an all-time peak of about $120/oz, driven by speculative momentum, tight supply, and strong investment demand. Shortly after reaching this record, the market turned volatile again but began to stabilize compared to January’s spike.
The photovoltaic industry is expected to use less silver in 2026, according to analysis published by the Silver Institute.
Silver paste currenly accounts for more than 20% of total solar cell costs, creating a difficult environment for manufacturers already facing overcapacity, falling module prices and squeezed margins. Companies are exploring alternative metallization technologies and other ways to reduce silver consumption.
Recently, China-based metallization paste supplier DK Electronic Materials highlighted this trend, revealing that a gigawatt-scale customer will adopt its high-copper paste for commercial production.
According to Radovan Kopecek, the co-founder and director of German research institute the International Solar Energy Research Center Konstanz (ISC Konstanz), an immediate transition to copper is technically and economically feasible. “Copper screen printing can be implemented quickly, and we have received many inquiries about it,” he told pv magazine last month.
Ning Song, from the University of New South Wales (UNSW) in Australia, explained that even if adopting a high-copper paste results in a small efficiency drop, the price trade-off should be acceptable to manufacturers. “That trade-off is acceptable if it does not introduce new reliability risks. Ultimately, the decision depends on how well the efficiency loss can be offset at the module and system level,” she told pv magazine.