125209 Direct
: A recent 2026 study in Carbohydrate Polymers uses this number to catalog research on polysaccharide-based adsorbents . These materials are designed to trap PFAS (harmful chemicals found in many household items) using natural substances like cellulose and chitosan.
In the field of semiconductor physics, "125209" is a recurring article identifier in the prestigious journal Physical Review B . 125209
: In the journal AIP Advances , 125209 refers to a method for the directional transmission of ultra-high frequency acoustic signals, which is used in advanced medical cell detection. : A recent 2026 study in Carbohydrate Polymers
: It also references work on microbial electrolysis cells that use external voltage to recover hydrogen and other useful minerals from fermentation liquids, contributing to more sustainable waste management. 3. Specialized Applications : In the journal AIP Advances , 125209
: Another major study identified by this number focuses on AgGaTe2 , a material used to convert heat into electricity. The research details how a mixture of "light" and "heavy" energy bands allows these materials to be highly efficient for thermoelectric applications .
: A recent 2026 study in Carbohydrate Polymers uses this number to catalog research on polysaccharide-based adsorbents . These materials are designed to trap PFAS (harmful chemicals found in many household items) using natural substances like cellulose and chitosan.
In the field of semiconductor physics, "125209" is a recurring article identifier in the prestigious journal Physical Review B .
: In the journal AIP Advances , 125209 refers to a method for the directional transmission of ultra-high frequency acoustic signals, which is used in advanced medical cell detection.
: It also references work on microbial electrolysis cells that use external voltage to recover hydrogen and other useful minerals from fermentation liquids, contributing to more sustainable waste management. 3. Specialized Applications
: Another major study identified by this number focuses on AgGaTe2 , a material used to convert heat into electricity. The research details how a mixture of "light" and "heavy" energy bands allows these materials to be highly efficient for thermoelectric applications .
