Volume 15

Issue 02,2022

(128 articles)

Contents(PDF)

Ting Pan, Islam E. Khalil, Zhiling Xu, Hongfeng Li, Xinglong Zhang, Gengwu Xiao, Weina Zhang, Yu Shen (✉), and Fengwei Huo (✉)


Using metal–organic frameworks (MOFs) to precisely regulate the spatial location distribution of metal nanoparticles and the diffusion path of substrates provided by MOF channels, the selectivity of target product in tandem reaction can be improved.
https://doi.org/10.1007/s12274-021-3621-7
2022, 15(2): 1178–1182
Published: 17 August 2021

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.
https://doi.org/10.1007/s12274-021-3622-6
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.
https://doi.org/10.1007/s12274-021-3623-5
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.
https://doi.org/10.1007/s12274-021-3625-3
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.
https://doi.org/10.1007/s12274-021-3626-2
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).
https://doi.org/10.1007/s12274-021-3627-1
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.
https://doi.org/10.1007/s12274-021-3629-z
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.
https://doi.org/10.1007/s12274-021-3630-6
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.
https://doi.org/10.1007/s12274-021-3631-5
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.
https://doi.org/10.1007/s12274-021-3632-4
2022, 15(2): 1246–1253
Published: 19 August 2021