Current Issue

Volume 15

Issue 02,2022

(114 articles)

Contents(PDF)

Decai Zhao1,2, Nailiang Yang1,2 (✉), Lekai Xu1,3, Jiang Du3, Yang Yang4,5 (✉), and Dan Wang1,2 (✉)

Hollow structures have demonstrated a great potential in drug delivery owing to their privileged structure. This review concluded the three processes of drug delivery system, namely recognition, response, and release, determined by the driving force and the molecular interaction.
https://doi.org/10.1007/s12274-021-3595-5
2022, 15(2): 739–757
Published: 08 July 2021

Hyunseok Shim1, Seonmin Jang1, Jae Gyu Jang2, Zhoulyu Rao1, Jong-In Hong2, Kyoseung Sim3, and Cunjiang Yu1,4,5,6,7 (✉)

An elastic neurological electronic skin implemented from a fully rubbery, all-organic synaptic transistor is demonstrated. The synaptic transistor is made out of all-organic stretchable electronic materials.
https://doi.org/10.1007/s12274-021-3602-x
2022, 15(2): 758–764
Published: 11 August 2021

Zhitang Song1,2 (✉), Ruobing Wang1,2, Yuan Xue1,2, and Sannian Song1,2

The octahedral structure motifs (octahedrons) are considered as the “gene” of phase change materials. Phase change random access memory (PCRAM) based on a homogeneous phase change material In-GST alloy constructed by three matched octahedrons exhibits superior all-round performances, high thermal stability, fast speed, low power consumption and high endurance.
https://doi.org/10.1007/s12274-021-3570-1
2022, 15(2): 765–772
Published: 28 June 2021

Mi Li1,2,3 (✉), Lianqing Liu2,3, and Tomaso Zambelli1

Applications of fluidic force microscopy (FluidFM) in single-cell biophysics (single-cell manipulations, single-cell force spectroscopy, and single-cell electrophysiology) are summarized. Challenges and perspectives for future progressions are p
https://doi.org/10.1007/s12274-021-3573-y
2022, 15(2): 773–786
Published: 22 June 2021

Huiling Zhong1,2,§, Jun Huang2,§, Jun Wu1,2 (✉), and Jianhang Du1,3 (✉)

https://doi.org/10.1007/s12274-021-3593-7
2022, 15(2): 787–804
Published: 07 August 2021

Xin Hu (✉), Jianghong Wu, Mingzhou Wu, and Junqing Hu (✉)

This article reviews the state-of-the-art research of low-dimensional inorganic nanostructures and their application for infrared photodetection. Thanks to nano-structuring, a narrow bandgap, hybrid systems, surface-plasmon resonance, and doping, many common semiconductors have the potential to be used for infrared detection.
https://doi.org/10.1007/s12274-021-3634-2
2022, 15(2): 805–817
Published: 04 August 2021

Jingqi Guan (✉), Xue Bai, and Tianmi Tang

In this review, we focus on discussing feasible design strategies, identification of isolated metal sites, and the constitutive relationships between structure, composition, and catalytic performance of carbonfree single-site catalysts for hydrogen evolution reaction (HER) and oxygen evolution reaction (OER).
https://doi.org/10.1007/s12274-021-3680-9
2022, 15(2): 818–837
Published: 01 August 2021

Hao Wu1, Xiaoyu Cheng1,2 (✉), Hongguang Dong1, Songjun Xie2, and Sailing He1,2 (✉)

Size tunable synthesis of aluminum nanocrystals indicates clustermetallic evolution in UV.
https://doi.org/10.1007/s12274-021-3486-9
2022, 15(2): 838–844
Published: 28 April 2021

Zhenqiang Wang, Tao Ding, Liucan Wang, Shuai Wang, Meizhen Zhou, Jixi Zhang (✉), and Kaiyong Cai

A co-activatable “dual-key-one-lock” nanodevice is designed by integrating a thermo-activatable DNA hybridization probe and a porous nanotransducer, enabling precisely switchable theranostic operations under the co-activation of exo/endogenous stimulations (near-infrared (NIR) light and microRNA (miRNA)). Spatiotemporal miRNA visualization and tumor thermoablation properties could be activated remotely by a programmable short- (3 min) and longduration (10 min) NIR irradiation administered sequentially.
https://doi.org/10.1007/s12274-021-3554-1
2022, 15(2): 845–857
Published: 16 June 2021

Xi Zhang1,2, Xiaotong Zhao1, Limei Rao1, Jing Zhang1, Mingchao Xiao1, Danlei Zhu1, Chunlei Li1, Xiaosong Shi1, Jie Liu1, Jie Liu1 (✉), and Lang Jiang1 (✉)


A solution process is developed to prepare electrode arrays of organic field-effect transistors on top of two-dimensional (2D) organic crystalline thin films, which could avoid damages from traditional vacuum deposition and maintain comparable performance with devices based on transferred electrodes. Also, a printing method is introduced to construct electrodes on monolayer crystalline films.
https://doi.org/10.1007/s12274-021-3563-0
2022, 15(2): 858–863
Published: 14 July 2021