Yuxi Xiao
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View article: Bioengineered T Cell Therapies for Precision Immunotherapy in Renal Transplantation, Autoimmune Relapse, and Sensitization
Bioengineered T Cell Therapies for Precision Immunotherapy in Renal Transplantation, Autoimmune Relapse, and Sensitization Open
Patients with end-stage renal disease (ESRD) undergoing dialysis experience higher mortality rates, increased healthcare costs, and reduced quality of life compared to those receiving allogeneic renal transplantation (RT). Although RT prov…
View article: A novel bipolar pulse electrochemical polishing approach for ultra-precision conformal polishing of microlens arrays
A novel bipolar pulse electrochemical polishing approach for ultra-precision conformal polishing of microlens arrays Open
Ultra-precision polishing technology is an effective method for removing mechanical defects, such as knife lines and burrs, from the surfaces of optical microstructure components. The contact polishing method does not satisfy the requireme…
View article: A Novel Bipolar Pulse Electrochemical Polishing Approach for Ultra-Precision Conformal Polishing of Microlens Arrays
A Novel Bipolar Pulse Electrochemical Polishing Approach for Ultra-Precision Conformal Polishing of Microlens Arrays Open
View article: Mechanism Study on Nanometric Finishing of Copper by Electrochemical Polishing Using Sulfuric Acid/Methanol Electrolyte
Mechanism Study on Nanometric Finishing of Copper by Electrochemical Polishing Using Sulfuric Acid/Methanol Electrolyte Open
View article: Enhancing Determinism in Atmosphere Plasma Nano-Scale Figuring through Calibration Incorporating Temperature Effects
Enhancing Determinism in Atmosphere Plasma Nano-Scale Figuring through Calibration Incorporating Temperature Effects Open
Fused silica optical components have extensive applications in various optical fields, and there is an urgent demand for their high-efficiency and non-damaging manufacturing. Atmosphere plasma, as a non-contact and stress-free machining to…
View article: Towards atomic-scale smooth surface manufacturing of β-Ga<sub>2</sub>O<sub>3</sub> via highly efficient atmospheric plasma etching
Towards atomic-scale smooth surface manufacturing of β-Ga<sub>2</sub>O<sub>3</sub> via highly efficient atmospheric plasma etching Open
The highly efficient manufacturing of atomic-scale smooth β -Ga 2 O 3 surface is fairly challenging because β -Ga 2 O 3 is a typical difficult-to-machine material. In this study, a novel plasma dry etching method named plasma-based atom-se…