Guodong Nian
Overview
Explore the profile of Guodong Nian including associated specialties, affiliations and a list of published articles.
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Articles
9
Citations
145
Followers
0
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Recent Articles
1.
Bao X, Nian G, Kutsovsky Y, Kim J, Jiao Q, Suo Z
Soft Matter
. 2023 Jul;
19(31):5956-5966.
PMID: 37490335
Many polymer networks are prepared by crosslinking polymer chains. The polymer chains and crosslinkers are commonly mixed in internal mixers or roll mills. These intense processes break the polymer chains,...
2.
Nian G, Kim J, Bao X, Suo Z
Adv Mater
. 2022 Sep;
34(50):e2206577.
PMID: 36126085
A hydrogel is often fabricated from preexisting polymer chains by covalently crosslinking them into a polymer network. The crosslinks make the hydrogel swell-resistant but brittle. This conflict is resolved here...
3.
Zhao D, Liu Y, Liu B, Chen Z, Nian G, Qu S, et al.
ACS Appl Mater Interfaces
. 2021 Mar;
13(11):13714-13723.
PMID: 33720679
3D printing of hydrogels finds widespread applications in biomedicine and engineering. Artificial cartilages and heart valves, tissue regeneration and soft robots, require high mechanical performance of complex structures. Although many...
4.
Yang C, Cheng S, Yao X, Nian G, Liu Q, Suo Z
Adv Mater
. 2020 Oct;
32(47):e2005545.
PMID: 33089568
A family of recently developed devices, hydrogel ionotronics, uses hydrogels as ionic conductors, and uses hydrophobic elastomers as dielectrics. This development has posed a challenge: integrate hydrogels and hydrophobic elastomers-in...
5.
Han Z, Wang P, Mao G, Yin T, Zhong D, Yiming B, et al.
ACS Appl Mater Interfaces
. 2020 Feb;
12(10):12010-12017.
PMID: 32053341
As one of the most promising drug delivery carriers, hydrogels have received considerable attention in recent years. Many previous efforts have focused on diffusion-controlled release, which allows hydrogels to load...
6.
Hu X, Nian G, Liang X, Wu L, Yin T, Lu H, et al.
ACS Appl Mater Interfaces
. 2019 Feb;
11(10):10292-10300.
PMID: 30773877
Magnetic hydrogels have promising applications in flexible electronics, biomedical devices, and soft robotics. However, most existing magnetic hydrogels are fragile and suffer insufficient magnetic response. In this paper, we present...
7.
Wu L, Mao G, Nian G, Xiang Y, Qian J, Qu S
Soft Matter
. 2018 May;
14(21):4355-4363.
PMID: 29767186
Load-bearing applications of hydrogels call for materials with excellent mechanical properties. Despite the considerable progress in developing tough hydrogels, there is still a requirement to prepare high-performance hydrogels using simple...
8.
Liu Q, Nian G, Yang C, Qu S, Suo Z
Nat Commun
. 2018 Mar;
9(1):846.
PMID: 29487342
Recently developed devices mimic neuromuscular and neurosensory systems by integrating hydrogels and hydrophobic elastomers. While different methods are developed to bond hydrogels with hydrophobic elastomers, it remains a challenge to...
9.
Le Floch P, Yao X, Liu Q, Wang Z, Nian G, Sun Y, et al.
ACS Appl Mater Interfaces
. 2017 Jul;
9(30):25542-25552.
PMID: 28696090
The emergence of stretchable electronics and its potential integration with textiles have highlighted a challenge: Textiles are wearable and washable, but electronic devices are not. Many stretchable conductors have been...