Results 181 to 190 of about 134,803 (296)

Life cycle assessment of a microfluidic electrolytic cell using Bi–Sn nanoparticle catalyst and an ionic liquid electrolyte

open access: yesEnvironmental Progress &Sustainable Energy, EarlyView.
Abstract The electrochemical reduction of carbon dioxide (CO2) to produce formic acid is a sustainable and crucial method for combating greenhouse gas emissions and addressing global warming. This study focuses on conducting a life cycle assessment of formic acid synthesis using microfluidic electrolytic cells with Bi–Sn catalyst and [EMIM][BF4] (1 ...
Akaninyene Christopher Offong   +3 more
wiley   +1 more source

How Buffer Ions Shape Hydrogen Evolution at Non-extreme pH: Operando Insights into Cu-Mo Electrocatalyst Surface Dynamics. [PDF]

open access: yesACS Appl Mater Interfaces
Nishimoto T   +9 more
europepmc   +1 more source

Ketogenic diet for infantile epileptic spasms

open access: yesEpilepsia Open, EarlyView.
Abstract Approximately half of all cases of Infantile Epileptic Spasms Syndrome (IESS) do not respond to vigabatrin and hormonal therapies. There is no clear consensus as to the second‐line therapy for IESS. Ketogenic diet (KD) has emerged as an effective treatment for certain drug‐resistant epilepsies and in many cases of IESS.
Morris H. Scantlebury   +3 more
wiley   +1 more source

Ketogenic diet therapy for children with super‐refractory status epilepticus in intensive care: International clinical practice recommendations

open access: yesEpilepsia Open, EarlyView.
Abstract Objective We aimed to create practical recommendations to support healthcare teams starting ketogenic diet therapy (KDT) for children with super‐refractory status epilepticus in intensive care settings. Methods A literature review was conducted to extract published data on patient selection, diet prescription, diet initiation, monitoring, fine‐
Robyn Blackford   +20 more
wiley   +1 more source

Waste to Hydrogen: Transforming Food Waste Into Biohythane (Bio‐H2 + Bio‐CH4) in a Two‐Stage Reactor With the Aid of a Metal‐Ion Catalyst

open access: yesEnergy Science &Engineering, EarlyView.
This study demonstrates a two‐stage catalytic bioreactor system that converts real food waste into high‐purity biohydrogen and biohythane. In Stage‐1, an enriched Clostridium thermocellum culture combined with Ni2+─Fe2+ bimetallic catalysis enhances hydrolysis efficiency and hydrogenase activity, resulting in a 77% increase in H2 yield and 75.8% purity
K. V. Sreedharan   +5 more
wiley   +1 more source

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