尖晶石相型LiM_(0.2)Mn_(1.8)O_4(M=Mg、Cd)相的晶格畸变与红外吸收峰频移

通过室温固相法制备了不同元素掺杂的前驱体,并采用分步煅烧法获得了尖晶石型LiMn2O4和LiM0.2Mn1.8O4(M=Mg、Cd)相。采用XRD和FTIR技术就元素掺杂对产物晶格畸变、Mn—O键长和键能强度等微观结构参数和光谱频移现象进行分析。结果表明,不同元素掺杂导致产物产生不同程度的晶格畸变。Mg元素掺杂使晶格收缩,Mn(Ⅳ)—O和Mn(Ⅲ)—O键收缩和键能强度增加,对应吸收峰发生蓝移;Cd元素掺杂使晶格膨胀,Mn(Ⅳ)—O和Mn(Ⅲ)—O键增长和键能强度降低,对应吸收峰发生红移。     

多菌灵抗性基因在球毛壳中的转化

利用PEG方法将多菌灵抗性基因通过质粒pRB129转化到球毛壳原生质体，并在含0.5μg/ml多菌灵浓度下筛选转化子，转化率可达6－7个转化子／μgDNA。转化子可在1000μg/ml多菌灵处理条件下正常生长。将转化子在非选择压力下连续培养10代，其抗性稳定不变。     

无机/有机纳米复合聚酯材料——技术开发和应用市场

层状硅酸盐经过有机化相容处理后,通过聚合插层法或熔体插层法将无机层状硅酸盐与聚酯复合,形成新的层状硅酸盐聚酯纳米复合材料。纳米聚酯的种类包括属于饱和聚酯的PET、PBT、PTT、PCT、PC、PLA及属于不饱和聚酯的各种配方。纳米聚酯材料在塑料、包装、纤维、农业等领域的诸多应用,如塑料啤酒瓶、PET工程塑料、抗茵纤维、回收再生料、纳米PC塑料、抗菌不饱和树脂制品等,使其具有巨大的开发应用价值。     

Effect of postmolding heat treatment on in vitro properties of a polyanhydride implant containing gentamicin sulfate

A polyanhydride implant containing gentamicin sulfate was fabricated using a laboratory-scale injection-molding machine. After injection molding, the implants were subject to heat treatment at 60°C for various time periods with or without nitrogen protection. The impact of this heat treatment on the in vitro properties of the implants including copolymer molecular weights, mechanical properties, and in vitro drug-release profiles was investigated. This heat treatment caused a drastic drop in the molecular weight of the copolymer. Heating without nitrogen protection resulted in the hardening of the implant, but heating in the presence of nitrogen rendered the implant less rigid. It was also found that a faster in vitro drug release profile was shown by implants heated without nitrogen protection and a pronounced slowing down in drug release was exhibited by implants heated with nitrogen protection.     

汽车塑料标牌的表面处理工艺

汽车标牌不仅要求造型美观、字迹图案流畅,而且表面应具有金属的装饰感,同时其耐蚀性和耐候性也必须符合汽车外饰装饰件的要求,如中国第一汽车集团公司汽车外饰件需符合ＴＬ－ＶＷ５２８／Ｂ标准。目前绝大多数汽车标牌都采用塑料立体标牌,其制造工艺流程大体为：注塑...     

Ultraviolet-visible and surface-enhanced Raman scattering spectroscopy studies on self-assembled films of ruthenium phthalocyanine on organic monolayer-modified silver substrates

A self-assembled film of ruthenium phthalocyanine (RuPc) fabricated on a silver substrate pre-modified with a monolayer of 4-mercaptopyridine (PySH) or 1,4-bis[2-(4-pyridyl)ethenyl]-benzene (BPENB) was studied by ultraviolet-visible (UV-Vis) and surface enhanced Raman scattering (SERS) spectroscopy. PySH or BPENB was used as a ligand to link RuPc since they not only modify the silver substrate, but also deliver a pyridyl group pointing out from the silver surface. Therefore, we can explore the relationship between the structure and orientation of metallophthalocyanine and the substrate modified by the two kinds of organic-monolayers with the different conjugates and molecular lengths. UV-Vis bands due to the organic-monolayer (PySH or BPENB) modified silver films shift to longer wavelengths and a new band arising from the metallophthlocyanine appears, suggesting the binding of RuPc to PySH/BPENB, as well as the interaction between the marcocycle of RuPc and the ring of PySH/BPENB. Vibrational bands arising from both the RuPc and PySH/BPENB moieties appear clearly in the SERS spectra of the RuPc-PySH/BPENB composite films, indicating that RuPc is successfully assembled on the top of PySH/BPENB film. The shifts and relative intensity changes of bands due to PySH or BPENB in the SERS spectra imply the binding of the metallophthalocyanine to the pyridyl group in the composite films. Furthermore, the comparison of the SERS spectra revealed that the orientations of PySH and BPENB in the two kinds of composite films are different; the BPENB moiety in the RuPc-BPENB composite film is more perpendicular to the silver surface compared with the PySH moiety in the RuPc-PySH composite film.     

Truly Concomitant and Independently Expressed Short‐ and Long‐Term Plasticity in a Bi2O2Se‐Based Three‐Terminal Memristor

Concomitance of diverse synaptic plasticity across different timescales produces complex cognitive processes. To achieve comparable cognitive complexity in memristive neuromorphic systems, devices that are capable of emulating short‐term (STP) and long‐term plasticity (LTP) concomitantly are essential. In existing memristors, however, STP and LTP can only be induced selectively because of the inability to be decoupled using different loci and mechanisms. In this work, the first demonstration of truly concomitant STP and LTP is reported in a three‐terminal memristor that uses independent physical phenomena to represent each form of plasticity. The emerging layered material Bi₂O₂Se is used for memristors for the first time, opening up the prospects for ultrathin, high‐speed, and low‐power neuromorphic devices. The concerted action of STP and LTP allows full‐range modulation of the transient synaptic efficacy, from depression to facilitation, by stimulus frequency or intensity, providing a versatile device platform for neuromorphic function implementation. A heuristic recurrent neural circuitry model is developed to simulate the intricate “sleep–wake cycle autoregulation” process, in which the concomitance of STP and LTP is posited as a key factor in enabling this neural homeostasis. This work sheds new light on the development of generic memristor platforms for highly dynamic neuromorphic computing.