Shicun Jin
Beijing Forestry University
Composite numberUltimate tensile strengthComposite materialActive packagingShear strengthMaterials scienceScanning electron microscopeSoybean mealSoy proteinNanoclustersBiopolymerCelluloseOxideGrapheneChemical engineeringThermal stabilityContact angleAdhesiveNanocompositeToughness
20Publications
10H-index
236Citations
Publications 20
Newest
#1Kuang Li (NFU: Nanjing Forestry University)H-Index: 4
#2Shicun Jin (BFU: Beijing Forestry University)H-Index: 10
Last. Jianzhang Li (BFU: Beijing Forestry University)H-Index: 32
view all 6 authors...
Abstract Plant-derived protein adhesives have received widespread attention as sustainable alternatives to formaldehyde-based engineered wood products, but their practical applications are severely limited by the poor mechanical and antibacterial properties. Inspired by the amphiphilic and ionic features of mussel chemistry, we have developed a facile and green strategy for fabricating a soybean meal-based biomass adhesive with high bonding strength and antibacterial activity. The strategy incor...
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#1Kuang Li (NFU: Nanjing Forestry University)H-Index: 4
#2Shicun Jin (BFU: Beijing Forestry University)H-Index: 10
Last. Jianzhang Li (BFU: Beijing Forestry University)H-Index: 32
view all 7 authors...
Abstract The development of high-performance and sustainable bio-adhesive materials has attracted significant research attention in recent years. However, producing high-performance biopolymer materials with desirable mechanical and antibacterial properties remains a challenge. Herein, a mussel-mimetic strategy is reported to fabricate a soy protein (SP)-based composite film via aqueous co-assembly of 3-aminophenylboronic acid-functionalized cellulose nanofibril (AB@CNF) and hyperbranched polyes...
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#1Jinfeng Cao (BFU: Beijing Forestry University)
#2Shicun Jin (BFU: Beijing Forestry University)H-Index: 10
Last. Jianzhang Li (BFU: Beijing Forestry University)H-Index: 32
view all 4 authors...
Abstract Soybean meal-based adhesives have been applied in many fields due to the abundant source and eco-friendly property. However, the preparation of high-performance soybean meal-based adhesives was still challenging. Inspired by the mineral-organic hybridization structure of nacre, hydroxyapatite and tannic acid complex was used as rigid nanofiller and cross-linker to improve the properties of soybean meal adhesives. Tannic acid was bonded with hydroxyapatite through coordination bonds and ...
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#1Kuang Li (NFU: Nanjing Forestry University)H-Index: 4
#2Shicun Jin (BFU: Beijing Forestry University)H-Index: 10
Last. Jianzhang Li (BFU: Beijing Forestry University)H-Index: 32
view all 5 authors...
Abstract Petroleum-based electronic components bring great potential hazards and risks to public health and environment, and it is still challenging to develop conductive biopolymer materials with high mechanical properties. Herein, we develop an eco-friendly and sustainable strategy for the preparation of soy protein (SP)-based nanocomposite films by the introduction of cellulose nanofibril template-directed pyrrole (CNF@Py) hybrids and a phytic acid (PA) system. The CNF@Py hybrids are prepared...
2 CitationsSource
#1Shicun Jin (BFU: Beijing Forestry University)H-Index: 10
#2Kuang Li (NFU: Nanjing Forestry University)H-Index: 4
Last. Jianzhang Li (BFU: Beijing Forestry University)H-Index: 32
view all 7 authors...
Abstract Adhesives are commonly used in the wood industry, such as plywood, fiberboard, and particleboard, for making furniture, flooring, kitchen cabinets, and wall materials. However, almost all of these adhesives come from petroleum resources and release toxic substances that pollute the environment and endanger human health. Therefore, it is necessary to promote the production of eco-friendly adhesives. The development of plant-protein-based adhesives can increase the value of agricultural w...
6 CitationsSource
#1Shicun Jin (BFU: Beijing Forestry University)H-Index: 10
#2Kuang Li (NFU: Nanjing Forestry University)H-Index: 4
Last. Jianzhang Li (BFU: Beijing Forestry University)H-Index: 32
view all 7 authors...
Abstract Development of strong and tough biopolymer materials with favorable conductive properties is highly desirable and remains a great challenge in current scientific research. In this study, a novel strategy is designed to prepare a conductive plant protein-based films through the integration of functional graphene oxide (GO) into a hyperbranched network. The process was based on the Fe(III) ion-triggered simultaneous polymerization of dopamine and pyrrole. The incorporation of conductive G...
4 CitationsSource
#1Shicun Jin (BFU: Beijing Forestry University)H-Index: 10
#2Kuang Li (NFU: Nanjing Forestry University)H-Index: 4
Last. Jianzhang Li (BFU: Beijing Forestry University)H-Index: 32
view all 6 authors...
Abstract Smart conductive soft materials prepared from natural polymers are arousing ever-increasing attention in numerous advanced applications. However, achieving the synergistic properties of high biocompatibility, mechanical performance, and conductivity remains a key challenge. Herein, a novel and green strategy is proposed to fabricate a soy protein (SP)-based composite by the incorporation of hyperbranched poly(amino ester)-pyrrole (HPPy) via in situ polymerization into a bio template of ...
11 CitationsSource
#1Shicun Jin (BFU: Beijing Forestry University)H-Index: 10
#2Kuang Li (NFU: Nanjing Forestry University)H-Index: 4
Last. Sheldon Q. Shi (BFU: Beijing Forestry University)H-Index: 26
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Abstract The development of high-performance and sustainable bio-based adhesives has become a significant strategy for solving concerns regarding environmental pollution, resource utilization, and public health in the material engineering and production industries. In this work, hyperbranched silicone was prepared and reacted with a catecholamine-based tannic acid and soybean meal to obtain a strong and antibacterial bio-based adhesive having a hyperbranched cross-linked structure. In addition, ...
7 CitationsSource
#1Shicun Jin (BFU: Beijing Forestry University)H-Index: 10
#2Xiangshuo Song (BFU: Beijing Forestry University)H-Index: 1
Last. Jianzhang Li (BFU: Beijing Forestry University)H-Index: 32
view all 5 authors...
3 CitationsSource
#1Shicun Jin (BFU: Beijing Forestry University)H-Index: 10
#2Kuang Li (BFU: Beijing Forestry University)H-Index: 12
Last. Jianzhang Li (BFU: Beijing Forestry University)H-Index: 32
view all 4 authors...
Abstract Considerable attention has been paid to the utilization of eco-friendly biopolymer-based composites in such areas as bioscience, packaging, and tissue engineering. However, the drawbacks of biopolymers, for instance, low mechanical performance and high water absorption, present obvious challenges. In this study, we fabricated a better-performing bio-film from soy protein isolate (SPI) that was modified by oxidized sodium alginate and silver nanoparticles (OSA@AgNPs). Furthermore, synthe...
12 CitationsSource