Article
Engineering, Chemical
Liangliang Dong, Mingqing Chen, Jie Li, Dongjian Shi, Weifu Dong, Xiaojie Li, Yunxiang Bai
JOURNAL OF MEMBRANE SCIENCE
(2016)
Article
Chemistry, Multidisciplinary
Liangliang Dong, Chunfang Zhang, Yunxiang Bai, Dongjian Shi, Xiaojie Li, Hongji Zhang, Mingqing Chen
ACS SUSTAINABLE CHEMISTRY & ENGINEERING
(2016)
Article
Engineering, Chemical
Bingchen Chen, Chao Wan, Xueting Kang, Mingqing Chen, Chunfang Zhang, Yunxiang Bai, Liangliang Dong
SEPARATION AND PURIFICATION TECHNOLOGY
(2019)
Article
Engineering, Chemical
Liangliang Dong, Minghui Li, Shuo Zhang, Xuejian Si, Yunxiang Bai, Chunfang Zhang
Article
Engineering, Chemical
Congcong Yin, Liangliang Ding, Zhaogen Wang, Mingqing Chen, Yong Wang, Yue Zhao
JOURNAL OF MEMBRANE SCIENCE
(2019)
Article
Engineering, Chemical
Liangliang Dong, Wenhai Zhang, Zheng Qu, Chao Wan, Zheng Yao, Jibin Xu, Xueting Kang, Yunxiang Bai, Chunfang Zhang
JOURNAL OF MEMBRANE SCIENCE
(2020)
Article
Materials Science, Composites
Yi Wang, Chang Liu, Dongjian Shi, Liangliang Dong, Mingqing Chen, Weifu Dong
Summary: Thermo-responsive microgel membranes were fabricated and showed reversible water flux between 25°C and 40°C. These membranes exhibited good thermo-tunable separation performance for PS nanoparticles with different sizes.
COMPOSITES COMMUNICATIONS
(2021)
Article
Engineering, Environmental
Changzhe Zhou, Wenjing Han, Xingda Yang, Hongwei Fan, Chunxi Li, Liangliang Dong, Hong Meng
Summary: The study successfully fabricated PEI/ZIF-67 nanofibrous membranes with stable and efficient PM filtration performance under high temperature and humidity conditions. Adding ZIF-67 significantly increased the removal efficiency of PM2.5 and PM10 particles while maintaining stability.
CHEMICAL ENGINEERING JOURNAL
(2022)
Article
Multidisciplinary Sciences
Yangyang Wang, Shaokang Yang, Jingwei Zhang, Zhuo Chen, Bo Zhu, Jian Li, Shijing Liang, Yunxiang Bai, Jianhong Xu, Dewei Rao, Liangliang Dong, Chunfang Zhang, Xiaowei Yang
Summary: The study developed a capillary force-driven self-assembling strategy to construct a scalable and stable CO2-responsive membrane for the smart separation of various oil/water systems.
NATURE COMMUNICATIONS
(2023)
Article
Multidisciplinary Sciences
Yunxiang Bai, Beibei Liu, Jiachen Li, Minghui Li, Zheng Yao, Liangliang Dong, Dewei Rao, Peng Zhang, Xingzhong Cao, Luis Francisco Villalobos, Chunfang Zhang, Quan-Fu An, Menachem Elimelech
Summary: The successful implementation of thin-film composite membranes (TFCM) for challenging solute-solute separations in the pharmaceutical industry requires fine control over the microstructure and thickness of the selective layer. In this study, stevioside, a contorted glycoside derived from plants, was introduced as a promising monomer for optimizing the microstructure of TFCM. The use of stevioside produced thin selective layers with ideal microporosity for antibiotic desalination, exhibiting high water permeance, antibiotic desalination efficiency, antifouling performance, and chlorine resistance.
Review
Chemistry, Physical
Guangjin Zhao, Wenjing Han, Liangliang Dong, Hongwei Fan, Zhou Qu, Jiahui Gu, Hong Meng
Summary: Membrane separation technology has been widely used in various industries such as water treatment, pharmaceuticals, petroleum, and energy. Developing innovative membrane preparation techniques is crucial for the advancement of membrane separation technology. Spray technique has gained attention due to its low cost, rapidity, scalability, and compatibility with a wide range of materials. This Review article summarizes the recent developments and applications of separation membranes prepared using the spray technique, and discusses the current challenges and future considerations for developing sprayed separation membranes.
GREEN ENERGY & ENVIRONMENT
(2022)
Article
Chemistry, Physical
Liangliang Dong, Yue Zhao
JOURNAL OF MATERIALS CHEMISTRY A
(2020)
Article
Chemistry, Multidisciplinary
Liangliang Dong, Xia Tong, Hongji Zhang, Mingqing Chen, Yue Zhao
MATERIALS CHEMISTRY FRONTIERS
(2018)
Article
Chemistry, Multidisciplinary
Liangliang Dong, Weizheng Fan, Hongji Zhang, Mingqing Chen, Yue Zhao
CHEMICAL COMMUNICATIONS
(2017)
Article
Chemistry, Physical
Sirinya Ukasi, Paritta Jutapukti, Chiranicha Ninthub, Nattapong Pinpru, Phakkhananan Pakawanit, Wanwilai Vittayakorn, Satana Pongampai, Naratip Vittayakorn, Thitirat Charoonsuk
Summary: This study explores the enhancement of electrical output of flexible hybrid piezoelectric-triboelectric nanogenerators by incorporating gamma-glycine into fully organic composites. The research demonstrates the importance of optimized concentrations of gamma-glycine and chitosan in achieving superior performance. The study identifies the critical content of gamma-glycine that leads to the highest output signal, and provides theoretical explanations for this observation.
Article
Chemistry, Physical
Yoonsang Ra, Yu-seop Kim, Seonmo Yang, Namgyu Kang, Gyuwon Oh, Chungyeon Cho, Sangmin Lee, Dongwhi Choi
Summary: In this study, a portable energy harvester (STEP) was proposed to drive various functional LEDs using biomechanical energy. The roles and functionalities of a triboelectric nanogenerator (TENG) and electromagnetic generator (EMG) in the hybrid energy harvester were experimentally demonstrated, and the necessity of hybridization for LED-involved devices was described. The STEP showed promising potential as an effective energy supply strategy for various functional LEDs in related industries.
Article
Chemistry, Physical
Dae Sol Kong, Kyung Hoon Kim, Ying Chieh Hu, Jong Hun Kim, Inseo Kim, Jeongwan Lee, Joonhyuk Lee, Won Hyuk Shon, Hanjin Yoo, Chul-Un Ro, Seungsu Lee, Hyoungjeen Jeen, Minbaek Lee, Minseok Choi, Jong Hoon Jung
Summary: With the rapid development of the Internet of Things and artificial intelligence, smart home has emerged to fulfill the security, convenience, and energy-saving issues of modern life. A flexoelectric mica crystal is used to augment the finger touch-driven triboelectric output for operating a wireless and multichannel smart home controller. This work provides important ingredients for enhancing triboelectric output and realizing a convenient, multifunctional, cost-effective, and adaptable smart home control system without batteries.
Article
Chemistry, Physical
Yi Han, Fang Wu, Xiaozhen Du, Zihao Li, Haixiang Chen, Dongxing Guo, Junlei Wang, Hong Yu
Summary: This paper presents a novel type of triboelectric nanogenerator that utilizes wind energy, with a Y-type bluff body to enhance vibration and output power. The application of this generator successfully provides power for a wireless temperature and humidity sensor.
Article
Chemistry, Physical
Wen Zhang, Fangyuan Cheng, Miao Chang, Yue Xu, Yuyu Li, Shixiong Sun, Liang Wang, Leimin Xu, Qing Li, Chun Fang, Meng Wang, Yuhao Lu, Jiantao Han, Yunhui Huang
Summary: This study successfully induced the formation of a uniform and robust CEI by constructing ZrO2 nano-rivets on the surface of LCO, stabilizing the surface of high-voltage LCO and facilitating lithium-ion diffusion.
Article
Chemistry, Physical
Karl P. Olson, Laurence D. Marks
Summary: This paper investigates the role of contacting shapes in triboelectricity and provides scaling rules for designing energy harvesting devices.
Article
Chemistry, Physical
Jong-An Choi, Jingu Jeong, Mingyu Kang, Hee-Jin Ko, Taehoon Kim, Keun Park, Jongbaeg Kim, Soonjae Pyo
Summary: Wind-driven triboelectric nanogenerators (WTENGs) are a promising emerging technology for sustainable wind energy harvesting, offering high output performance, lightweight design, and compact dimensions. This study introduces an innovative WTENG design that leverages a rolling-based mechanism to achieve efficient omnidirectional wind energy harvesting.
Article
Chemistry, Physical
Liwei Dong, Qian Tang, Chaoyang Zhao, Guobiao Hu, Shuai Qu, Zicheng Liu, Yaowen Yang
Summary: This paper proposes a novel hybrid scheme for flag-type nanogenerators (FNGs) that enhances their performance and broadens their operational wind speed ranges by harnessing the synergistic potential of two aerodynamic behaviors. The proposed flag-type triboelectric-piezoelectric hybrid nanogenerator (FTPNG) integrates flapping piezoelectric flags (PEFs) and a fluttering triboelectric flag (TEF). The FTPNG achieves significant power generation and a broad wind speed range, surpassing other FNGs, making it suitable for various self-powered systems and Internet of Things applications.
Review
Chemistry, Physical
Yunmeng Li, Xin Liu, Zewei Ren, Jianjun Luo, Chi Zhang, Changyong (Chase) Cao, Hua Yuan, Yaokun Pang
Summary: The demand for green and eco-friendly materials is growing due to increasing environmental concerns related to traditional petroleum-based products. Marine biomaterials have emerged as a promising alternative, thanks to their abundant availability, biocompatibility, biodegradability, and low toxicity. In this review, we discuss the development and applications of triboelectric nanogenerators (TENGs) based on marine biomaterials. The operational modes, foundational principles, intrinsic qualities, and advantages of marine biomaterials commonly used in TENG designs are highlighted. Approaches to enhance the efficacy of TENGs derived from marine biomaterials are also discussed, along with documented applications from existing literature. Furthermore, the existing challenges and future directions in marine biomaterial-inspired TENGs are explored.
Article
Chemistry, Physical
Matthew P. Wells, Adam J. Lovett, Yizhi Zhang, Zhongxia Shang, Kosova Kreka, Babak Bakhit, Haiyan Wang, Albert Tarancon, Judith L. MacManus-Driscoll
Summary: Reversible solid oxide cells (rSOCs) offer a promising solution to efficient energy conversion, but have been limited in portable power and electrolysis applications due to excessive polarisation resistance of the oxygen electrode at low temperatures. This study demonstrates the growth of symmetric and complete rSOC structures with reduced polarisation resistance by tuning oxygen vacancy through annealing, providing a promising route towards high-performance rSOC devices for portable power applications.
Article
Chemistry, Physical
Kangkang Bao, Minghui Wang, Yue Zheng, Panpan Wang, Liwen Yang, Yang Jin, Hui Wu, Bin Sun
Summary: This study utilizes ethanol as an electrolyte additive to modulate the migration of zinc ions and the surface structure of zinc anodes, resulting in improved capacity retention and cycle life of zinc-based aqueous batteries.
Article
Chemistry, Physical
Haichao Yang, Wensi Cai, Ming Wang, Saif M. H. Qaid, Zhiyuan Xu, Huaxin Wang
Summary: The introduction of sodium alginate (SA) into perovskite solar cells improves the carrier dynamics, stability, and performance by inhibiting nonradiative recombination and retarded charge dynamics.
Article
Chemistry, Physical
Cuirong Zhang, Mingyuan Wei, Zihan Chen, Wansheng Lin, Shifan Yu, Yijing Xu, Chao Wei, Jinwei Zhang, Ziquan Guo, Yuanjin Zheng, Qingliang Liao, Xinqin Liao, Zhong Chen
Summary: Artificial Intelligence of Things (AIoT) aims to establish smart and informative interactions between humans and devices. However, common pixelated sensing arrays in AIoT applications present problems such as hard and brittle devices, complex structures, and low precision. This article introduces an innovative solution called the all-in-one intelligent semitransparent interactive nerve patch (AISI nerve patch), which integrates sensing, recognition, and transmission functionalities into a thin and flexible patch. The AISI nerve patch is semitransparent, allowing for accurate identification without affecting aesthetics, and it can be attached to any curved surface for intelligent and interactive applications. With rapid response time and high precision recognition, it enables the integration of artificial intelligence and achieves high recognition accuracy for further development of AIoT.
Article
Chemistry, Physical
Youcun Bai, Heng Zhang, Huijun Song, Chong Zhu, Lijin Yan, Qin Hu, Chang Ming Li
Summary: A novel stainless-steel supported lattice-mismatched V-S-Se layered compound with high selenium vacancy was synthesized by adjusting the molar ratio of sulfur to selenium. The introduction of selenium vacancies created additional redox peaks of sulfur, providing more mass transport channels and active sites for zinc ions. The specific capacity and cycle stability of the electrode were significantly improved, demonstrating great potential for practical applications and providing insights into the effects of defects on battery performance.
Article
Chemistry, Physical
Yao Xiao, Puxian Xiong, Yakun Le, Zhenjie Lun, Kang Chen, Zhiduo Wang, Peishan Shao, Zhicong Chen, Dongdan Chen, Zhongmin Yang
Summary: This study successfully synthesized a material with multi-stimulus-responsive luminescence and confirmed the internal relationship between luminescence and defects by regulating the distribution and depth of defects. The dynamic process of multi-stimulus-responsive luminescence was validated by experimental and calculation results.