Volume 12

Issue 10,2019

(31 articles)


Guangfu Liao1, Yan Gong2, Liu Zhong1, Jiasheng Fang3, Li Zhang4, Zushun Xu5 (*), Haiyang Gao1 (*), and Baizeng Fang6 (*)

A series of highly efficient Ag-based nanoparticles catalysts with different Ag nanoparticles sizes and shapes for NaBH4-assisted nitrophenol reduction applications are reviewed.
2019, 12(10): 2407–2436
Published: 6 June 2019

Huan Deng1,§, Wei Huang2,§, and Zhiping Zhang1,3,4 (*)

Nonviral vectors were utilized to deliver different modes of CRISPR/Cas9 system and induce target gene cleavage.
2019, 12(10): 2437–2450
Published: 11 July 2019

Luyao Wang, Bingjie Zhou, Shiqi Huang, Mengke Qu, Qing Lin, Tao Gong, Yuan Huang, Xun Sun, Qin He, Zhirong Zhang, and Ling Zhang (*)

The current work has designed a novel fibronectin-targeted nanodisk drug delivery system for high efficacy prostate cancer therapy and displayed superior efficacy compared with nanospheres.
2019, 12(10): 2451–2459
Published: 3 August 2019

Kang Wu1,§, Qi Li1,§, Rongbin Dang1, Xin Deng1, Minmin Chen1, Yu Lin Lee2, Xiaoling Xiao1 (*), and Zhongbo Hu1 (*)

The core–shell LiNi0.8Co0.1Mn0.1O2 (CS-NCM811) material not only has high discharge capacity based on the high content of nickel in the core, but also exhibits excellent cycle stability originating from the relatively high manganese content on the surface. In addition, the core–shell structure with high manganese content on the surface of the material can inhibit the unfavorable interfacial side reactions.
2019, 12(10): 2460–2467
Published: 3 August 2019

Xin Yang1,3,§, Chao Ma2,3,§, Zeming Chen3, Jun Liu3, Fuyao Liu3, Rongbin Xie4, Haitian Zhao1,3, Gang Deng3, Ann T. Chen5, Ningbo Gong6, Lei Yao1,3, Pengjian Zuo1, Kangkang Zhi1, Jiacheng Wang1, Xiaobin Gao7, Jing Wang1, Louzhen Fan4, and Jiangbing Zhou3,5 (*)

Medicinal natural products are widely used in traditional medicine for disease management through oral consumption. Here we report five classes of molecules that form single small molecule-assembled nanoparticles, many of which are capable of efficient drug encapsulation and oral delivery.
2019, 12(10): 2468–2476
Published: 24 July 2019

Zhenxuan Zhao and Huaqiang Wu (*)

A planar flexible full-solid-state lithium-ion battery with excellent mechanical flexibility can be achieved with one-side island architecture and a layer-by-layer printing assembly method.
2019, 12(10): 2477–2484
Published: 17 July 2019

Chao Feng1,§, Junxiang Xiang1,§, Ping Liu1,§, Xiangqi Wang2, Jianlin Wang3, Guojing Hu1, Meng Huang1, Zhi Wang1, Zengming Zhang4, Yuan Liu5, Yalin Lu1,3 (*), and Bin Xiang1 (*)

This crossed structure of graphene shows large unsaturated room temperature negative MR with an enhancement of up to 1,000% at 9 T. A magnetic logic inverter based on a crossed structure of defect-free graphene shows a substantial gain of 4.81 mV/T at room temperature operation.
2019, 12(10): 2485–2489
Published: 3 August 2019

Yakun Xue1, Huiqi Li1, Xieweiyi Ye1, Shuangli Yang1, Zhiping Zheng1, Xiao Han1, Xibo Zhang1, Luning Chen1, Zhaoxiong Xie1,2, Qin Kuang1 (*), and Lansun Zheng1

We resolved the problems in activity and long-term stability of PtM catalysts by means of the synergistic effect between intermetallic nanoparticles and unique N-doped carbon (NC) shell encapsulation structure. We found that the catalytic activities of as-prepared intermetallic NC shell encapsulated intermetallic PtZn (PtZn@NC) catalysts were determined by the shell thickness and the size of metal NPs. To achieve optimal performances, both factors should be taken into account when designedly constructing the hybrid catalysts.
2019, 12(10): 2490–2497
Published: 19 July 2019

Xin Meng1, Tianxing Chen1, Yao Li1, Siyuan Liu1, Hui Pan1, Yuning Ma2 (*), Zhixin Chen3, Yanping Zhang4, and
Shenmin Zhu1 (*)

2019, 12(10): 2498–2508
Published: 8 August 2019

Doohyeok Lim and Sangsig Kim (*)

A feedback field-effect transistor with a selectively thinned p+-i-n+ Si nanowire channel and two separate gates is presented. The transistor can be reconfigured in the p- or n-channel operation modes via simple control of electric signals.
2019, 12(10): 2509–2514
Published: 1 August 2019