Bing-Qiang Lu
Chinese Academy of Sciences
NanorodNuclear chemistryAdsorptionSpecific surface areaHydrothermal circulationNanotechnologyInorganic chemistryAqueous solutionChemistryMaterials scienceSuperparamagnetismHydrothermal synthesisAmorphous calcium phosphatePhosphateBiocompatibilityIron oxideDrug deliveryChemical engineeringBiomoleculeCalciumNanosheetNanowireMesoporous materialProtein adsorptionNanocomposite
41Publications
22H-index
1,364Citations
Publications 41
Newest
#1Han-Ping Yu (CAS: Chinese Academy of Sciences)H-Index: 4
#2Ying-Jie Zhu (CAS: Chinese Academy of Sciences)H-Index: 81
Last. Bing-Qiang Lu (CAS: Chinese Academy of Sciences)H-Index: 22
view all 4 authors...
Abstract Natural materials have enlightened us to assemble brittle building blocks into specific architectures with both high strength and toughness. As the main inorganic component of the bone and tooth, hydroxyapatite (HAP) materials have a high biocompatibility, but usually have a high brittleness. It is still a big challenge to artificially prepare biomaterials with the combination of high strength and high toughness, similar to natural materials constructed with brittle HAP building blocks....
4 CitationsSource
#1Ying-Jie Zhu (CAS: Chinese Academy of Sciences)H-Index: 81
#2Bing-Qiang Lu (CAS: Chinese Academy of Sciences)H-Index: 22
Hydroxyapatite (HAP) biomaterials with high biocompatibility, bioactivity, and osteoconductivity/osteoinductivity have many applications in the biomedical fields. The traditional HAP materials usually feature high brittleness. Although hybridizing HAP with polymers can obtain deformable materials, their deformability is mainly contributed by polymers. Recently, research progress has been made in the deformable HAP biomaterials with high flexibility, softness, or elasticity based on ultralong HAP...
5 CitationsSource
#1Han-Ping Yu (CAS: Chinese Academy of Sciences)H-Index: 4
#2Ying-Jie Zhu (CAS: Chinese Academy of Sciences)H-Index: 81
Last. Bing-Qiang Lu (CAS: Chinese Academy of Sciences)H-Index: 22
view all 3 authors...
Abstract Tooth enamel possesses excellent mechanical properties owing to its multi-scale highly ordered architecture. To develop tooth enamel-mimetic structural materials (EMSMs) is of great significance for understanding the important role of ordered hydroxyapatite (HAP) nanocrystals in tooth enamel and exploring high-performance materials. However, it is still a great challenge to mimic the unique multi-scale ordered architecture of the natural tooth enamel. Herein, inspired by the multi-scale...
12 CitationsSource
#1Ying-Ying Jiang (CAS: Chinese Academy of Sciences)H-Index: 14
#2Zifei Zhou (Tongji University)H-Index: 10
Last. Feng Chen (CAS: Chinese Academy of Sciences)H-Index: 98
view all 9 authors...
: In vivo mineralization is a multistep process involving mineral-protein complexes and various metastable compounds in vertebrates. In this complex process, the minerals produced in the mitochondrial matrix play a critical role in initiating extracellular mineralization. However, the functional mechanisms of the mitochondrial minerals are still a mystery. Herein, an in vitro enzymatic reaction strategy is reported for the generation of biomimic amorphous calcium phosphate (EACP) nanominerals by...
6 CitationsSource
#1Ying-Ying Jiang (CAS: Chinese Academy of Sciences)H-Index: 14
#2Zifei Zhou (Tongji University)H-Index: 10
Last. Feng Chen (CAS: Chinese Academy of Sciences)H-Index: 98
view all 9 authors...
Source
#1Yue-Qin Shen (CAS: Chinese Academy of Sciences)H-Index: 7
#2Ying-Jie Zhu (CAS: Chinese Academy of Sciences)H-Index: 81
Last. Bing-Qiang Lu (CAS: Chinese Academy of Sciences)H-Index: 22
view all 4 authors...
Abstract Glycerol citrate polyester based on the condensation of glycerol and citric acid has a great potential in biomedical applications owing to biocompatible monomers and biodegradation properties. However, the applications of glycerol citrate polyester are impaired by its poor mechanical properties and high acidity caused by citric acid produced in the degradation process. In this work, a new kind of nanocomposite has been developed using ultralong hydroxyapatite (HAP) nanowires as the “ske...
13 CitationsSource
#1Han-Ping Yu (CAS: Chinese Academy of Sciences)H-Index: 4
#2Ying-Jie Zhu (CAS: Chinese Academy of Sciences)H-Index: 81
Last. Bing-Qiang Lu (CAS: Chinese Academy of Sciences)H-Index: 22
view all 3 authors...
Abstract Ultralong hydroxyapatite nanowires possess many striking advantages such as high biocompatibility, high flexibility, excellent mechanical properties, high thermal stability, and excellent fire resistance, thus, are promising for applications in various fields. However, the highly efficient, low-cost, and environmentally friendly synthesis of ultralong hydroxyapatite nanowires remains a great challenge. Herein, we report a highly efficient, low-cost, environmentally friendly and energy-s...
15 CitationsSource
#1Fei-Fei Chen (CAS: Chinese Academy of Sciences)H-Index: 14
#2Zi-Yue Yang (ECUST: East China University of Science and Technology)H-Index: 3
Last. Ri-Long Yang (CAS: Chinese Academy of Sciences)H-Index: 13
view all 8 authors...
Up to date, the scaled-up production and large-area applications of the superhydrophobic coatings are limited because the complicated procedures, environmentally harmful fluorinated compounds, restrictive substrates, expensive equipments and raw materials are usually involved in the fabrication process. Herein, we report the facile, low-cost and green production of the superhydrophobic coatings based on hydroxyapatite nanowire bundles (HNBs). Hydrophobic HNBs are synthesized by one-step solvothe...
9 CitationsSource
#1Fei-Fei Chen (CAS: Chinese Academy of Sciences)H-Index: 14
#2Ying-Jie Zhu (CAS: Chinese Academy of Sciences)H-Index: 81
Last. Ri-Long Yang (CAS: Chinese Academy of Sciences)H-Index: 13
view all 7 authors...
How to survive under various harsh working conditions is a key challenge for flexible electronic devices because their performances are always susceptible to environments. Herein, we demonstrate the novel design and fabrication of a new kind of the all-weather flexible electrically conductive paper based on ultralong hydroxyapatite nanowires (HNs) with unique combination of the superhydrophobic surface, electrothermal effect, and flame retardancy. The superhydrophobic surface with water repellen...
25 CitationsSource
#1Yong-Gang Zhang (CAS: Chinese Academy of Sciences)H-Index: 14
#2Ying-Jie Zhu (CAS: Chinese Academy of Sciences)H-Index: 81
Last. Bing-Qiang Lu (CAS: Chinese Academy of Sciences)H-Index: 22
view all 4 authors...
Abstract In the last decade, the porous hydroxyapatite (HAP) scaffold has been investigated for the application in tissue engineering owing to its good bioactivity and high biocompatibility. In this work, the dopamine-modified highly porous hydroxyapatite microtube three-dimensional (3-D) networks with efficient near-infrared photothermal effect, enhanced protein adsorption and mineralization performance have been prepared through a facile method. The dopamine-modified highly porous HAP networks...
15 CitationsSource