-
573 Pulsed axial epitaxy of colloidal quantum dots in nanowires enables facet-selective passivation, Yi Li†, Tao-Tao Zhuang†, Fengjia Fan, Oleksandr Voznyy, Mikhail Askerka, Haiming Zhu, Liang Wu, Guo-Qiang Liu, Yun-Xiang Pan, Edward H. Sargent* and Shu-Hong Yu*,
Nat. Commun. 2018, 9, 4947. .
572 Biomimetic twisted plywood structural materials, Si-Ming Chen†, Huai-Ling Gao†, Yin-Bo Zhu†, Hong-Bin Yao, Li-Bo Mao, Qi-Yun Song, Jun Xia, Zhao Pan, Zhen He, Heng-An Wu and Shu-Hong Yu*,
Natl. Sci. Rev. 2018, 5(5), 703-714.
Highlighted by phy.org.:
"Biomimetic micro/nanoscale fiber reinforced composites"
https://phys.org/news/2018-08-biomimetic-micronanoscale-fiber-composites.html
Highlighted by EurekAlert:
"Biomimetic micro/nanoscale fiber reinforced composites"
https://www.eurekalert.org/pub_releases/2018-08/scp-bmf081018.php
Highlighted by Azonano:
"Researchers Create Biomimetic Twisted Plywood Structural Materials"
https://www.azonano.com/news.aspx?newsID=36297
Highlighted by R&D:
"Biomimetic Micro/Nanoscale Fiber Reinforced Composites"
https://www.rdmag.com/news/2018/08/biomimetic-micro-nanoscale-fiber-reinforced-composites
571 Bioinspired polymeric woods, Zhi-Long Yu†, Ning Yang†, Li-Chuan Zhou, Zhi-Yuan Ma, Yin-Bo Zhu, Yu-Yang Lu, Bing Qin, Wei-Yi Xing, Tao Ma, Si-Cheng Li, Huai-Ling Gao, Heng-An Wu, Shu-Hong Yu*,
Science Advances 2018, 4, eaat7223.
人造木头的3D X射线断层摄影图像:
Highlighted by Science News (Science 2018, doi:10.1126/science.aav0689)
"This synthetic wood is as strong as the real thing—and won’t catch fire"
http://www.sciencemag.org/news/2018/08/synthetic-wood-strong-real-thing-and-won-t-catch-fireHighlighted by Scientific American (Sid Perkins, Scientific American 2018, 319(5), 12):
"Artificial Wood"
https://www.scientificamerican.com/store/subscribe/scientific-american-magazine/
Highlighted by physicsworld (Research News):
"Making artificial wood on the large scale"
https://physicsworld.com/a/making-artificial-wood-on-the-large-scale/
Highlight by Natl. Sci. Rev.
"Wood-like polymeric materials by ice templating"
Sylvain Deville, Natl.Sci.Rev. 2018, DOI: 10.1093/nsr/nwy139
https://academic.oup.com/nsr/advance-article/doi/10.1093/nsr/nwy139/5188681
Highlighted by Science China Materials:
"Wood-inspired engineering materials"
Bergström Lennart, Science China Materials 2018, DOI: 10.1007/s40843-018-9340-6
Highlighted by Eurekalert:
"USTC develops a family of bioinspired artificial woods by traditional resins"
https://www.eurekalert.org/pub_releases/2018-08/uosa-uda080818.php
Highlighted by phy.org:
"Team develops a family of bioinspired artificial woods from traditional resins"
https://phys.org/news/2018-08-team-family-bioinspired-artificial-woods.html
Highlighted by Global Times:
"Scientists create lightweight, fire-retardant artificial wood"
http://www.globaltimes.cn/content/1115040.shtml
Highlighted by R&D:
"Nanomaterials Used to Create Artificial Woods"
https://www.rdmag.com/news/2018/08/nanomaterials-used-create-artificial-woods?cmpid=verticalcontent
Highlights from Media:
Firstpost:
"A scaleable new method of making artificial wood from synthetic resins"
NewsWeek:
"Engineered Wood Is Fire Retardant and Super Strong"
UK Presscute:
"USTC develops a household of bioinspired synthetic woods by conventional resins"
The Hindu:
"Fire-resistant wood"
Labmanager:
"Team Develops a Family of Bioinspired Artificial Woods from Traditional Resins"
YahooNews:
"Chinese researchers develop new way to make artificial wood"
https://sg.news.yahoo.com/chinese-researchers-develop-way-artificial-wood-225204671.html
CGTN:
"Chinese researchers develop new way to make high-quality artificial wood"
https://news.cgtn.com/news/3d3d514f3445444e79457a6333566d54/share_p.html
China.org.cn:Chinese researchers develop new way to make high-quality artificial wood
http://www.china.org.cn/world/Off_the_Wire/2018-08/11/content_58412784.htm
The Koz Times:
"Scientists have created a wood with amazing properties"
https://koztimes.com/scientists-have-created-a-wood-with-amazing-properties/3406/
Penelitian:
"Bioinspired polymeric woods"
https://www.laporanpenelitian.com/2018/08/bioinspired-polymeric-woods.html
《人民日报》:中科大研制出——高强度仿生工程材料(创新前沿)::
http://paper.people.com.cn/rmrb/html/2018-08/12/nw.D110000renmrb_20180812_8-01.htm
The Financial Express (IND):
"Chinese researchers develop new way to make artificial wood"
The Siasat Daily:
"Chinese researchers develop new way to make artificial wood"
https://www.siasat.com/news/chinese-researchers-develop-new-way-make-artificial-wood-1390994/
New Kerala:
"Chinese researchers develop new way to make artificial wood"
Business Standard:
"Chinese researchers develop new way to make artificial wood"
CanIndia:
"Chinese researchers develop new way to make artificial wood"
http://www.canindia.com/chinese-researchers-develop-new-way-to-make-artificial-wood/
570 Transforming Ground Mica into High-Performance Biomimetic Polymeric Mica Film,
Xiao-Feng Pan†, Huai-Ling Gao†, Yang Lu*, Chun-Yan Wu, Ya-Dong Wu, Xiang-Ying Wang, Zhi-Qiang Pan, Liang Dong, Yong-Hong Song, Huai-Ping Cong and Shu-Hong Yu*,
Nat. Commun. 2018, 9, 2974.
569 Transition metal assisted carbonization of small organic molecules toward functional carbon materials,
Zhen-Yu Wu†, Shi-Long Xu†, Qiang-Qiang Yan, Zhi-Qin Chen, Yan-Wei Ding, Chao Li, Hai-Wei Liang*, and Shu-Hong Yu*,
Science Advances 2018, 4, eaat0788.Highlighted by EurekAlert (AAAS):
"USTC proposes a facile, general, and effective strategy to prepare carbon nanomaterials"
https://www.eurekalert.org/pub_releases/2018-07/uosa-upa072418.php
Highlighted by Nanotechweb:
"Researchers propose a facile, general, and effective strategy to prepare carbon nanomaterials"
https://www.nanowerk.com/nanotechnology-news2/newsid=50779.php
Highlighted by phy.org:
"Research team proposes an effective strategy to prepare carbon nanomaterials"
https://phys.org/news/2018-07-team-effective-strategy-carbon-nanomaterials.html
Highlighted by AsianScientist:
"Functional Carbon Materials Made Simple And Scalable"
https://www.asianscientist.com/2018/08/in-the-lab/carbon-nanomaterials-small-organic-molecules/
Highlighted by NanoWerk:
"Researchers propose a facile, general, and effective strategy to prepare carbon nanomaterials"
https://www.nanowerk.com/nanotechnology-news2/newsid=50779.php
568 Copper nanocavities confine intermediates for efficient electrosynthesis of C3 alcohol fuels from carbon monoxide, Tao-Tao Zhuang†, Yuanjie Pang† Zhi-Qin Liang, Ziyun Wang, Yi Li, Chih-Shan Tan, Jun Li, Cao Thang Dinh, Phil De Luna, Pei-Lun Hsieh, Thomas Burdyny, Hui-Hui Li, Mengxia Liu, Yuhang Wang, Fengwang Li, Andrew Proppe, Andrew Johnston, Dae-Hyun Nam, Zhen-Yu Wu, Ya-Rong Zheng, Alex Ip, Hairen Tan, Lih-Juana Chen, Shu-Hong Yu, Shana O. Kelley, David Sinton*, Edward H. Sargent*,
Nat. Catalysis 2018, 1, 941-951.
Highlighted by News & Views: Geometry aids green carbon electrochemistry.
(Nat. Catalysis 2018, 1, 903-904).
567 Stability and Reactivity: Positive and Negative Aspects for Nanoparticle Processing, Liang Xu, Hai-Wei Liang, Yuan Yang, Shu-Hong Yu,
Chem. Rev. 2018, 118(7), 3209-3250.
566 Nanowire Assemblies for Flexible Electronic Devices: Recent Advances and Perspectives, Jin-Long Wang†, Muhammad Hassan†, Jian-Wei Liu*, Shu-Hong Yu*,
Adv.Mater. 2018, 1803430. Special Issue of the USTC’s 60th Anniversary.
565 Steering post-C-C coupling selectivity enables high efficiency electroreduction of carbon dioxide to multi-carbon alcohols, Tao-Tao Zhuang†, Zhi-Qin Liang†, Ali Seifitokaldani, Yi Li, Phil De Luna, Thomas Burdyny, Fei Meng, Rafael Quintero-Bermudez, Cao Thang Dinh, Miao Zhong, Fang-Lin Che, Bo Zhang, Jun Li, Pei-Ning Chen, Xue-Li Zheng, Hong-Yan Liang, Wen-Na Ge, Bang-Jiao Ye, David Sinton, Shu-Hong Yu*, Edward H. Sargent*,
Nat. Catalysis. 2018,1, 421–428.
Highlighted by phys.org:
"New catalyst upgrades carbon dioxide to fuels found"
https://phys.org/news/2018-06-catalyst-carbon-dioxide-fuels.html
Highlighted by EurekAlert (AAAS):
"New catalyst upgrades carbon dioxide to fuels found by USTC"
https://www.eurekalert.org/pub_releases/2018-06/uosa-ncu062518.php
Highlighted by Chemeurope.com:
"Catalyst upgrades carbon dioxide to fuels"
Highlighted by Biomass Magazine:
"New catalyst upgrades carbon dioxide to fuels found by USTC"
564 Doping-induced structural phase transition in cobalt diselenide enables enhanced hydrogen evolution catalysis, Ya-Rong Zheng, Ping Wu, Min-Rui Gao*, Xiao-Long Zhang, Fei-Yue Gao, Huan-Xin Ju, Rui Wu, Qiang Gao, Rui You, Wei-Xin Huang, Shou-Jie Liu, Junfa Zhu, Zhenyu Li, Shu-Hong Yu*,
Nat. Commun. 2018, 9, 2533.
"Doping-induced phase transition enables better electrocatalysts"
Zhang Hua, Science China Materials 2018, DOI: 10.1007/s40843-018-9332-5.
563 Self-healing and superstretchable conductors from hierarchical nanowire assemblies, Pin Song†, Haili Qin†, Huai-Ling Gao, Huai-Ping Cong*, Shu-Hong Yu*,
Nat. Commun. 2018, 9, 2786.
562 Ni-Mo-O nanorod-derived composite catalysts for efficient alkaline water-to-hydrogen conversion via urea electrolysis, Zi-You Yu†, Chao-Chao Lang†, Min-Rui Gao*, Yu Chen, Qi-Qi Fu, Yu Duan, and Shu-Hong Yu*,
Energy Environ. Sci. 2018,11(7), 1890-1897.
Highlighted by ChemistryWorld:
"Transition metal catalyst helps produce sustainable hydrogen from urea"
561 SiO2-protected shell mediated templating synthesis of Fe-N-doped carbon nanofibers and their enhanced oxygen reduction reaction performance, Bi-Cheng Hu†, Zhen-Yu Wu†, Sheng-Qi Chu, Hong-Wu Zhu, Hai-Wei Liang*, Jing Zhang, and Shu-Hong Yu*,
Energy Environ. Sci. 2018,11, 2208-2215.
560 A Janus Nickel Cobalt Phosphide Catalyst for High-efficiency Neutral-pH Water Splitting, Rui Wu†, Bing Xiao†, Qiang Gao†, Ya-Rong Zheng, Xu-Sheng Zheng, Jun-Fa Zhu, Min-Rui Gaoé, Shu-Hong Yué,
Angew. Chem. Int. Ed. 2018, 57, 15445-15449.
559 Emerging Carbon Nanofiber Aerogels: Chemosynthesis versus Biosynthesis,
Zhen-Yu Wu†, Hai-Wei Liang†, Bi-Cheng Hu, and Shu-Hong Yu*,
Angew. Chem. Int. Ed. 2018,57,15646-15662. Mini-Review.
558 Real-Time Probing of Nanowire Assembly Kinetics at Air-Water Interface by In situ Synchrotron X-ray Scattering, Zhen He,† Hui-Jun Jiang,† Long-Long Wu,† Jian-Wei Liu*, Geng Wang, Xiao Wang, Jin-Long Wang, Zhong-Huai Hou, Gang Chen,* and Shu-Hong Yu*,
Angew. Chem. Int. Ed. 2018, 57(27), 8130-8134.
557 Crystal Phase-Induced Epitaxial Growth of Noble Nanomaterials, Yuan Yang, Shu-Hong Yu*,
Natl. Sci. Rev. 2018, 5(1), 788-789.Highlight.
556 Wood-Derived Ultrathin Carbon Nanofiber Aerogels, Si-Cheng Li, Bi-Cheng Hu, Yan-Wei Ding, Hai-Wei Liang*, Chao Li, Zi-You Yu, Zhen-Yu Wu, Shu-Hong Yu*,
Angew. Chem. Int. Ed. 2018,57(24), 7085-7090.
Highlighted by Space Daily:
“Highly conductive electrode materials from ultrathin carbon nanofiber aerogels”http://www.spacedaily.com/reports/Highly_conductive_electrode_materials_from_ultrathin_carbon_na
Highlighted by ScienceDaily, Eurekalert, phys.org, Wiley NewsRoom, Eurekalert, ScienceNewsline, ChemViews Magazine:
"Wood to supercapacitors"
https://www.sciencedaily.com/releases/2018/05/180524112348.htm
https://phys.org/news/2018-05-sustainable-highly-electrode-materials-ultrathin.html
https://www.techexplorist.com/wood-supercapacitors/14414/
https://www.eurekalert.org/pub_releases/2018-05/w-wts052418.php
https://www.sciencenewsline.com/news/2018052421590100.html
https://www.chemistryviews.org/details/ezine/11049032/Wood_to_Supercapacitors.html
555 Fire-retardant and thermally insulating phenolic-silica aerogels,
Zhi-Long Yu, Ning Yang, Varvara Apostolopoulou-Kalkavoura, Bing Qin, Zhi-Yuan Ma, Wei-Yi Xing, Chan Qiao, Lennart Bergström, Markus Antonietti and Shu-Hong Yu*,
Angew. Chem. Int. Ed. 2018, 57(17), 4538-4542.
Highlighted by Advanced Science News:
"Fire Retardant Binary Network Aerogels"https://www.advancedsciencenews.com/fire-retardant-binary-network-aerogel/
Highlighted by Media:
"Chinese researchers develop new fire-resistant construction material"
http://www.chinadaily.com.cn/a/201804/03/WS5ac311a7a3105cdcf6515faa.htmlhttp://www.xinhuanet.com/english/2018-04/03/c_137085049.htm
554 Chao Gu†, Shaojin Hu†, Xusheng Zheng†, Min-Rui Gao,* Ya-Rong Zheng, Lei Shi, Qiang Gao, Xiao Zheng, Wang-Sheng Chu, Hong-Bin Yao, Jun-Fa Zhu and Shu-Hong Yu*,
Angew. Chem. Int. Ed. 2018, 57(15),4020-4024.
553 Wood-Inspired High-Performance Ultrathick Bulk Battery Electrodes,
Lei-Lei Lu‡, Yu-Yang Lu‡, Zi-Jian Xiao, Tian-Wen Zhang, Fei Zhou, Tao Ma, Yong Ni, Hong-Bin Yao*, Shu-Hong Yu*, Yi Cui*,
Adv. Mater. 2018, 30,1706745.
552 Tao Ma†, Huai-Ling Gao†, Huai-Ping Cong*, Hong-Bin Yao, Liang Wu, Zi-You Yu, Si-Ming Chen and Shu-Hong Yu*,
Adv. Mater. 2018, 30(15),1706435.
551 Competitive Adsorption between a Polymer and Its Monomeric Analog Enables Precise Modulation of Nanowire Synthesis,
Liang Xu†, Ganlin Wang†, Xusheng Zheng, Haibin Pan, Junfa Zhu, Zhenyu Li,* Shu-Hong Yu*,
Chem 2018, 10(4), 2451-2462.
550 Guo-Fei Wang, Xiang Gao, Haili Qin, Yi Cao, Wei Wang, Feng-Chao Wang, Heng-An Wu, Huai-Ping Cong* and Shu-Hong Yu*,
Chem 2018,4(4), 896-910.
549 Bao-Lin Zhang, Sen Xin, Haili Qin, Huai-Ping Cong*, Shu-Hong Yu*,
ChemPlusChem 2018, 83(3), 99-107.
548 A Noble-Metal-Free CdS/Ni3S2@C Nanocomposite for Efficient Visible-Light-Driven Photocatalysis, Yu Cui,† Yun-Xiang Pan,† Haili Qin, Huai-Ping Cong,* and Shu-Hong Yu*,
Small Methods 2018, 5(1), 788-789.
547 Grafting Cobalt Diselenide on Defective Graphene for Enhanced Oxygen Evolution Reaction, Xin Wang, Linzhou Zhuang, Tianwei He, Yi Jia, Longzhou Zhang, Xuecheng Yan, Minrui Gao, Aijun Du, Zhonghua Zhu, Xiangdong Yao*, Shu-Hong Yu*,
iScience 2018, 7, 145-153.
546 Partially Oxidized Ni Nanoparticles Supported on Ni-N Co-Doped Carbon Nanofibers as Bifunctional Electrocatalysts for Overall Water Splitting, Zhen-Yu Wu, Wen-Bo Ji, Bi-Cheng Hu, Hai-Wei Liang*, Xing-Xing Xu, Zhi-Long Yu, Bo-Yang Li, and Shu-Hong Yu*,
Nano Energy 2018, 51, 286-293.
545 Hierarchically Structured Co3O4@Carbon Porous Fibers Derived from Electrospun ZIF 67/PAN Nanofibers as Anode of Lithium Ion Batteries, Chuan-Ling Zhang*, Bing-Rong Lu, Fu-Hu Cao, Zhi-Long Yu, Huai-Ping Cong, and Shu-Hong Yu*,
J. Mater. Chem. A 2018, 6(27), 12962-12968.
544 Charged Nanowire-Directed Growth of Amorphous Calcium Carbonate Nanosheets in a Mixed Solvent for Biomimetic Composite Films, Yang-Yi Liu, ‡ Lei Liu, ‡ Si-Ming Chen, Li-Bo Mao, Huai-Ling Gao, Tao Ma, Shu-Hong Yu*,
Langmuir 2018, 34 (20), 5813–5820.
543 Templating Synthesis of Mesoporous Fe3C-Encapsulated Fe-N-Doped-Carbon Hollow Nanospindles for Electrocatalysis, Xin Xin†, Haili Qin†, Huai-Ping Cong*, Shu-Hong Yu*,
Langmuir 2018, 34 (17), 4952–4961.
542 Coupling cobalt sulfide nanosheets with cadmium sulfide nanoparticles for highly efficient visible-light-driven photocatalysis, Fan Zhang, Hua-Qiang Zhuang, Jie Song, Yu-Long Men, Yun-Xiang Pan*, Shu-Hong Yu*,
Applied Catalysis B: Environmental 2018, 226, 103-110.
541 Highly Tough Bioinspired Ternary Hydrogels Synergistically Reinforced by Graphene/Xonotlite Network, Sen Li, Haili Qin, Tan Zhang, Huai-Ping Cong,* and Shu-Hong Yu*,
Small 2018, 14(22), 1800673.
540 Low Cost Metal Carbide Nanocrystals as Binding and Electrocatalytic Sites for High Performance Li-S Batteries,
Fei Zhou, Zheng Li, Xuan Luo, Tong Wu, Bin Jiang, Lei-Lei Lu, Hong-Bin Yao*, Markus Antonietti, Shu-Hong Yu*,
Nano Lett. 2018,18(2), 1035-1043.
539 Stable gadolinium based nanoscale lyophilized injection for enhanced MR angiography with efficient renal clearance,
Kun Liu†, Liang Dong†, Yunjun Xu†, Xu Yan, Fei Li, Yang Lu*, Wei Tao, Huangyong Peng, Yadong Wu, Yang Su, Daishun Ling, Tao He , Haisheng Qian*, Shu-Hong Yu*,
Biomaterials 2018, 158, 74-85.538 Writing Theory and Modeling Papers For Langmuir – The Good, The Bad and The Ugly,
David S. Sholl, Zuihof Han, and Shu-Hong Yu,
Langmuir 2018, 34 (5), 1817-1818.537 Seeded Mineralization Leads to Hierarchical CaCO3 Thin Coatings on Fibers for Oil-Water Separation Applications, Ming Li†, Yupeng Chen†, Li-Bo Mao†, Yuan Jiang*, Ming-Feng Liu, Qiaoling Huang, Zhiyang Yu, ShutaoWang*, Shu-Hong Yu*, Changjian Lin, Xiang Yang Liu, and Helmut Cölfen,
Langmuir 2018, 34 (9), 2942–2951.
536 Metal Halide Perovskite Supercrystals: Gold–Bromide Complex Triggered Assembly of CsPbBr3 Nanocubes, Kun-Hua Wang, Jun-Nan Yang, Qian-Kun Ni, Hong-Bin Yao*, and Shu-Hong Yu*,
Langmuir 2018, 34(2), 595–602.
535 Porous nitrogen-doped carbon monoliths derived from biopolymer-structured liquid precursors,
Thomas Jordan, Zhi-Long Yu, Shu-Hong Yu, Markus Antonietti, Nina Fechler*,Micropor. Mesopor. Mater. 2018, 255, 53-60.
534 Ce3+-Doping to Modulate Photoluminescence Kinetics for Efficient CsPbBr3 Nanocrystals Based Light-Emitting Diodes, Ji-Song Yao, Jing Ge, Bo-Ning Han, Kun-Hua Wang, Hong-Bin Yao*, Hao-Lei Yu, Jian-Hai Li, Bai-Sheng Zhu, Ji-Zhong Song, Chen Chen, Qun Zhang*, Hai-Bo Zeng*, Yi Luo and Shu-Hong Yu,
J. Am. Chem. Soc. 2018, 140 (10), 3626–3634.
533 Calcium carbonate-doxorubicin@silica-indocyanine green nanospheres with photo-triggered drug delivery enhance cell killing in drug-resistant breast cancer cells,
Wei Wang, Yang Zhao, Bei-Bei Yan, Liang Dong, Yang Lu, and Shu-Hong Yu*,
Nano Res. 2018, 11(6), 3385-3395.
532 Stability and Protection of Nanowire Devices in Air,Zhen He†, Muhammad Hassan†, Huan-Xin Ju, Rui Wang, Jin-Long Wang, Jia-Fu Chen, Jun-Fa Zhu, Jian-Wei Liu*, and Shu-Hong Yu*,
Nano Res. 2018, 11(6),3353–3361.
531 Selective oxidation mediated synthesis of unique SexTey nanotubes, their assembled thin films and photoconductivity, Yuan Yang, Guo-Qiang Liu, Min-Rui Gao, Yu Xia, Shu-Hong Yu*,
Nano Res. 2018, 11(2), 665-675.
530 Dip-coating processed sponge-based electrodes for stretchable Zn-MnO2 batteries, Hong-Wu Zhu†, Jin Ge†, Yu-Can Peng, Hao-Yu Zhao, Lu-An Shi, and Shu-Hong Yu*,
Nano Res. 2018, 11(3),1554–1562.
529 Emerging binary nanostructure array enables multiple nanostructures,
Jun Jiang, Xuan Lei, Shu-Hong Yu*,
Natl. Sci. Rev. 2017, 5(5), 608-610. Research Highlight.
528 Strong and stiff Ag nanowire-chitosan composite films reinforced by Ag-S covalent bonds, Xiao-Feng Pan, Huai-Ling Gao, Yang Su, Ya-Dong Wu, Xiang-Ying Wang, Tao He, Xiao-Ya Shang, Yang Lu*, and Shu-Hong Yu*,
Nano Res. 2018, 11(1), 410-419.