Lv5
1533 积分 2024-12-19 加入
A study on the resist performance of inorganic-organic resist materials for EUV and electron-beam lithography
12天前
已完结
Absorption coefficient of metal-containing photoresists in the extreme ultraviolet
1个月前
已完结
Stability and microbial toxicity of HfO2 and ZrO2 nanoparticles for photolithography
1个月前
已完结
Development of Photolithography for Semiconductor Manufacturing – A Review
1个月前
已完结
An aluminum-based hybrid film photoresist for advanced lithography by molecular layer deposition
1个月前
已完结
Tin-oxo nanoclusters for extreme ultraviolet photoresists: Effects of ligands, counterions, and doping
1个月前
已完结
Optimizing Test-Time Compute via Meta Reinforcement Fine-Tuning
6个月前
已完结
Artificial Intelligence and Legal Analysis: Implications for Legal Education and the Profession
6个月前
已完结
Potentiometric determination of the ‘formal’ hydrolysis ratio of aluminium species in aqueous solutions
7个月前
已完结
Aluminum-Adsorbed Vaccines and Chronic Diseases in Childhood
7个月前
已完结
Boosting FasterNet: An Efficient PConv Block with Feature Reuse
6天前
已采纳
Six-angle polarized snowflake-like carbon quantum dots via electrostatic reversion for low-cost and high-efficiency solar cells
1年前
已采纳
Six-angle polarized snowflake-like carbon quantum dots via electrostatic reversion for low-cost and high-efficiency solar cells
1年前
已采纳
Six-angle polarized snowflake-like carbon quantum dots via electrostatic reversion for low-cost and high-efficiency solar cells
1年前
已采纳
Six-angle polarized snowflake-like carbon quantum dots via electrostatic reversion for low-cost and high-efficiency solar cells
1年前
已采纳
Six-angle polarized snowflake-like carbon quantum dots via electrostatic reversion for low-cost and high-efficiency solar cells
1年前
已采纳
Six-angle polarized snowflake-like carbon quantum dots via electrostatic reversion for low-cost and high-efficiency solar cells
1年前
已采纳
Six-angle polarized snowflake-like carbon quantum dots via electrostatic reversion for low-cost and high-efficiency solar cells
1年前
已采纳
Efficient Viscose Dissolution Strategy for High-strength Regenerated Cellulose Materials
1年前
已采纳