TS-074223 — Researchers at The Ohio State University have developed a self‑regulating manufacturing platform for porous polymer meshes that integrates mesh formation and drug loading in a single step, enabling controlled local delivery from implantable materials.

TS-074219 — This early‑stage electrochemical platform enables integrated CO₂ capture and permanent mineralization while supporting lower‑energy hydrogen production, offering a research‑driven pathway toward energy system decarbonization.

TS-074217 — An OSU innovation may enable farmers to actively manage water at the field scale to improve crop performance, input efficiency, and operational profitability.

TS-074216 — Reducing debris‑related drainage failures while lowering maintenance risk and lifecycle costs for transportation infrastructure owners.

TS-074168 — Electrification trends in aerospace, transportation, and industrial systems demand electric machines with substantially higher power density, efficiency, and reliability. Conventional motor and generator architectures struggle at high frequencies and power levels due to skin and proximity losses, …

TS-074143 — Across desalination, water reuse, and other separation markets, operators continue to face a fundamental tradeoff between membrane permeability and selectivity. Existing commercial polyamide membranes often sacrifice water flux to achieve high salt rejection, driving higher energy consumption, inc…

TS-074095 — Hybrid and electrified vehicles face increasing pressure to simultaneously reduce fuel consumption and tailpipe emissions, particularly during transient operating conditions such as cold start. Conventional rule-based or static control strategies struggle to optimally manage the tradeoffs among en…

TS-074084 — A novel polymer-assisted dry transfer method enables high-quality, large-area integration of molecular beam epitaxy (MBE)-grown 2D materials onto arbitrary substrates, unlocking scalable manufacturing of next-generation electronic, optoelectronic, and quantum devices.

TS-074050 — As batteries are pushed toward faster charging and higher power operation, conventional electrode architectures struggle to deliver their full theoretical capacity. Dense electrodes often suffer from poor ion and electron transport, leading to large capacity losses at high charge and discharge rat…

TS-074049 — Commercial and industrial HVAC systems face growing pressure to reduce energy consumption while delivering precise humidity control, particularly in hot and humid climates. Conventional desiccant and vapor‑compression systems require high regeneration temperatures, waste low‑grade heat, and st…