Your search keyword '"Zixu He"' showing total 2 results

1. Designing Solid Electrolyte Interfaces towards Homogeneous Na Deposition: Theoretical Guidelines for Electrolyte Additives and Superior High‐Rate Cycling Stability

Author

Lifeng Wang, Naiqing Ren, Yu Yao, Hai Yang, Wei Jiang, Zixu He, Yang Jiang, Shuhong Jiao, Li Song, Xiaojun Wu, Zhong‐Shuai Wu, and Yan Yu

Subjects

General Medicine, General Chemistry, Catalysis

Abstract

Metallic Na is a promising metal anode for large-scale energy storage. Nevertheless, unstable solid electrolyte interphase (SEI) and uncontrollable Na dendrite growth lead to disastrous short circuit and poor cycle life. Through phase field and ab initio molecular dynamics simulation, we first predict that the sodium bromide (NaBr) with the lowest Na ion diffusion energy barrier among sodium halogen compounds (NaX, X=F, Cl, Br, I) is the ideal SEI composition to induce the spherical Na deposition for suppressing dendrite growth. Then, 1,2-dibromobenzene (1,2-DBB) additive is introduced into the common fluoroethylene carbonate-based carbonate electrolyte (the corresponding SEI has high mechanical stability) to construct a desirable NaBr-rich stable SEI layer. When the Na||Na

Published

2022

2. An Oxazine‐Based Fluorogenic Probe with Changeable π‐Conjugation to Eliminate False‐Positive Interference of Albumin and Its Application to Sensing Aminopeptidase N

Author

Jizhen Shang, Xiaofan Zhang, Zixu He, Shili Shen, Diankai Liu, Wen Shi, and Huimin Ma

Subjects

Mice, Alanine, Albumins, Oxazines, Animals, Humans, General Medicine, General Chemistry, CD13 Antigens, Catalysis, Fluorescent Dyes

Abstract

Many fluorophores/probes suffer from the interference of albumin in biosystems. Herein, we propose an effective strategy to overcome this interference by virtue of both an albumin-insensitive fluorophore and its changeable π-conjugation, and demonstrate the strategy by designing an oxazine-based fluorogenic probe for aminopeptidase N (APN). The modification on the N atom in the oxazine fluorophore with alanine through a cleavable linker locks the resulting probe in a non-conjugated, colorless and non-fluorescent state, so the non-specific interaction of albumin produces no spectroscopic response. APN can selectively cleave the alanine moiety, restoring the large π-conjugation and strong fluorescence. The capability of the probe to eliminate the albumin influence has been demonstrated by imaging APN in different cell lines, and by quantitatively determining APN in human serum and mouse urine. The present strategy may be useful for developing more specific fluorogenic probes for other enzymes.

Published

2022