Current Issue

Volume 15

Issue 02,2022

(114 articles)


Yudi Xu1,2,4, Sheng Ma1,4, Jiayu Zhao1,3,4, Xinghui Si1,3,4, Zichao Huang1,3,4, Yu Zhang1,4, Wantong Song1,4 (✉), Zhaohui Tang1,3,4 (✉), and Xuesi Chen1,3,4

A trinity immune enhancing nanoparticles (TIENs) system was constructed for boosting the antitumor immune responses of chemo agents.
2022, 15(2): 1183–1192
Published: 7 August 2021

Yong Zhao1,§ Zhongning Huang1,§ Lianmeng Wang1, Xiangyu Chen1, Yan Zhang1, Xiuqin Yang1, Dawei Pang2, Jianxin Kang1 (✉), and Lin Guo1 (✉)

Ultrafine and highly dispersed Pd nanoparticles are successfully located on Pd(II) complex spheres through a simple and gentle one-pot method. With ultrathin mesoporous SiO2 coating, the catalyst exhibits an excellent performance in eco-friendly aqueous media Suzuki reactions with high efficiency and excellent catalyst recyclability.
2022, 15(2): 1193–1198
Published: 22 July 2021

Di Liu§, Junyu Yan§, Kai Wang (✉), Yundong Wang (✉), and Guangsheng Luo

A continuous synthesis method for < 10 nm β-NaYF4:Gd,Yb,Er/ Ho/Tm@NaYF4 nanoparticles was created based on coiled tube embedded flask reactors.
2022, 15(2): 1199–1204
Published: 20 October 2021

Xiaoqing Yi1, Weijia Zeng1, Cui Wang1, Ying Chen1, Liangyuan Zheng1, Xinlin Zhu1, Yuqiu Ke2, Xiaoyan He3 (✉), Ying Kuang1 (✉), and Qitong Huang1 (✉)

We presented here a step-by-step multiple stimuli-responsive metal-phenolic network prodrug nanoparticles of diPTX@Fe&TA nanoparticles for chemotherapy by a simple method, which showed superior stability, satisfactory drug loading capacity, good biocompatibility, reduced undesired premature release, and excellent anti-tumor ability.
2022, 15(2): 1205–1212
Published: 27 July 2021

Kai Pei1,2, So Yeon Kim2, and Ju Li2 (✉)

We searched the ab initio database to identify Li-ion and electron insulators (LEIs) that are thermodynamically stable against LiBCC to combat the challenges in solid-state batteries with repeated waxing and waning of LiBCC phase near contact interfaces that gives rise to mechanical (e.g., adhesion, fracture) and electrochemical challenges (e.g., reduction/metallization of the solid components).
2022, 15(2): 1213–1220
Published: 17 August 2021

Mengchao Liang1,§, Tianyu Xia1,§ (✉), Han Gao1, Kai Zhao1, Tianqi Cao1, Meng Deng1, Xiaoyan Ren1, Shunfang Li1, Haizhong Guo1,2 (✉), and Rongming Wang3 (✉)

The oxidation pathway of formic acid oxidation reaction can be modulated by regulating the content of Au in PtAu/CoNC to obtain efficient catalytic performance, which is 26.0 times higher than that of Pt/C.
2022, 15(2): 1221–1229
Published: 01 July 2021

Jiahao Zhuang1,2,§, Feng He3,§, Xianglin Liu4, Pengchao Si1,2, Fangna Gu2 (✉), Jing Xu4, Yu Wang2, Guangwen Xu3, Ziyi Zhong5,6 (✉), and Fabing Su2,3 (✉)

A strategy is reported for in situ growth of the heterophase (fcc/hcp) Ni nanocrystals on the graphene support, with a thorough investigation of the formation mechanism and the outstanding catalytic property of the catalyst in the reduction of 4-nitrophenol.
2022, 15(2): 1230–1237
Published: 09 July 2021

Qiang Fu1,§, Xiaojuan Li3,§, Ning Ma2 (✉), Dier Shi1, Pohua Chen1, and Junliang Sun1 (✉)

By exploring the volcanic curve between the number of hydroxyl groups and the water evaporation performances, the influence of the adsorption–desorption model on the migration of water molecules and the double-edged sword effect of wettability can be clarified. Using the combination of RD-DFT-MD method and finite element method (FEM) method, the mechanism explanation and prospect are well carried out.
2022, 15(2): 1238–1245
Published: 13 July 2021

Xiaoyang Wang1,§, Yu He1,§, Xiaopeng Han1 (✉), Jun Zhao1, Lanlan Li2, Jinfeng Zhang1, Cheng Zhong1, Yida Deng1 (✉), and Wenbin Hu1

The hierarchical Co9S8 nanoflakes decorated Co3O4 nanoarrays with rich heterointerface zones on Ni foam (Co9S8@Co3O4/NF) were obtained via a novel step-wise approach. The atomically mixed heterointerface zone provides more optimized active sites toward an excellent catalytic performance for overall water splitting.
2022, 15(2): 1246–1253
Published: 19 August 2021

Junchuan Zhong1,§, Mingshan Wang2,§, Teng Liu1, Yinghe Zhao1, Xiang Xu1, Shasha Zhou1, Junbo Han2 (✉), Lin Gan1 (✉), and Tianyou Zhai1 (✉)

We reported that the ferromagnetic properties of chemical vapor deposition synthesized two-dimensional (2D) Cr2Te3 nanoflakes are sensitive to interfacial strain, which demonstrated a wide Curie temperature modulation range from ~ 40 to −90 K under strains ranging from 0.37% to −0.37%, varying with sample thicknesses.
2022, 15(2): 1254–1259
Published: 23 July 2021