Linker aggregation engineering of TADF materials to tune carrierbalance for highly efficient organic LEDs with long operationallifetime

Thermally activated delayedfluorescence(TADF)molecules are regarded as promis-ing materials for realizing high-performance organic light-emitting diodes(OLEDs).The connecting groups between donor(D)and acceptor(A)units in D–A type TADF molecules could affect the charge transfer and luminescence performance of TADF materials in aggregated states.In this work,we design and synthesize four TADF molecules using planar and twisted linkers to connect the aza-azulene donor(D)and triazine acceptor(A).Compared with planar linkers,the twisted ones(Az-NP-T and Az-NN-T)can enhance A–A aggregation interaction between adjacent molecules to balance hole and electron density.As a result,highly efficient and stable deep-red top-emission OLEDs with a high electroluminescence efficiency of 57.3%and an impressive long operational lifetime(LT_(95)∼30,000 h,initial luminance of 1000 cd m^(-2))are obtained.This study provides a new strategy for designing more effi-cient and stable electroluminescent devices through linker aggregation engineering in donor–acceptor molecules.

Cheesy material on macroscopic on-site evaluation after endoscopic ultrasound-guided fine-needle biopsy:Don't miss the tuberculosis

Endoscopic ultrasound-guided fine-needle biopsy(EUS-FNB)is an excellent investigation to diagnose pancreatic lesions and has shown high accuracy for its use in pathologic diagnosis.Recently,macroscopic on-site evaluation(MOSE)performed by an endoscopist was introduced as an alternative to rapid on-site cytologic evaluation to increase the diagnostic yield of EUS-FNB.The MOSE of the biopsy can estimate the adequacy of the sample directly by the macroscopic evaluation of the core tissue obtained from EUS-FNB.Isolated pancreatic tuberculosis is extremely rare and difficult to diagnose because of its non-specific signs and symptoms.Therefore,this challenging diagnosis is based on endoscopy,imaging,and the bacteriological and histological examination of tissue biopsies.This uncommon presentation of tuberculosis can be revealed as pancreatic mass mimicking cancer.EUS-FNB can be very useful in providing a valuable histopathological diagnosis.A calcified lesion with a cheesy core in MOSE must be suggestive of tuberculosis,leading to the request of the GeneXpert,which can detect Mycobacterium tuberculosis deoxyribonucleic acid and resistance to rifampicin.A decent diagnostic strategy is crucial to prevent unnecessary surgical resection and to supply conservative management with antitubercular therapy.

CO_(2)capture costs of chemical looping combustion of biomass:A comparison of natural and synthetic oxygen carrier

Chemical looping combustion has the potential to be an efficient and low-cost technology capable of contributing to the reduction of the atmospheric concentration of CO_(2) in order to reach the 1.5/2°C goal and mitigate climate change.In this process,a metal oxide is used as oxygen carrier in a dual fluidized bed to generate clean CO_(2) via combustion of biomass.Most commonly,natural ores or synthetic materials are used as oxygen carrier whereas both must meet special requirements for the conversion of solid fuels.Synthetic oxygen carriers are characterized by higher reactivity at the expense of higher costs versus the lower-cost natural ores.To determine the viability of both possibilities,a techno-economic comparison of a synthetic material based on manganese,iron,and copper to the natural ore ilmenite was conducted.The synthetic oxygen carrier was characterized and tested in a pilot plant,where high combustion efficiencies up to 98.4%and carbon capture rates up to 98.5%were reached.The techno-economic assessment resulted in CO_(2) capture costs of 75 and 40€/tCO_(2) for the synthetic and natural ore route respectively,whereas a sensitivity analysis showed the high impact of production costs and attrition rates of the synthetic material.The synthetic oxygen carrier could break even with the natural ore in case of lower production costs and attrition rates,which could be reached by adapting the production process and recycling material.By comparison to state-of-the-art technologies,it is demonstrated that both routes are viable and the capture cost of CO_(2) could be reduced by implementing the chemical looping combustion technology.

Effect of Hot Carrier on Amplitude Modulation and Demodulation of Gaussian High Power Helicon Wave in Homogeneous Longitudinally Magnetized Strain Dependent Dielectric Material

In the present communication, the hydrodynamic model is used to investigate the amplitude modulation as well as demodulation of an electromagnetic wave of high power helicon pump wave into another helicon wave in strain dependent dielectric material incorporating carrier heating (CH) effects. The consideration of CH in modulation and demodulation is prime importance for the adding of new dimension in analysis of amplification of acoustic helicon wave. By using the dispersion relation, threshold pump electric filed and growth rate of unstable mode from the modulation and demodulation of the high power helicon wave well above from the threshold value will be discussed in the present analysis. The numerical analysis is applied to a strain dependent dielectric material, BaTiO3 at room temperature and irradiated with high power helicon wave of frequency 1.78 × 1014 Hz. This material is very sensitive to the pump intensities, therefore during studies, Gaussian shape of the helicon pump wave is considered during the propagation in stain dependent dielectric material and opto-acoustic wave in the form of Gaussian profile (ω0,κ0) is induced longitudinally along the crystallographic plane of BaTiO3. Its variation is caused by the available magnetic field (ωc), interaction length (z) and pulsed duration of interaction (τ). From the analysis of numerical results, the incorporation of CH effect can effectively modify the magnitude of modulation or demodulation of the amplitude of high power helicon laser wave through diffusion process. Not only the amplitude modulation and demodulation of the wave, the diffusion of the CH effectively modifies the growth rate of unstable mode of frequency in BaTiO3. The propagation of the threshold electric field shows the sinusoidal or complete Gaussian profile, whereas this profile is found to be completely lost in growth of unstable mode. It has also been seen that the growth rate is observed to be of the order of 108 - 1010 s-1 but from diffusion of carrier heating, and that its order is enhanced from 1010 - 1012 s-1 with the variation of the magnetized frequency from 1 to 2.5 × 1014 Hz.

A Mini Review: Can Graphene Be a Novel Material for Perovskite Solar Cell Applications?

Perovskite solar cells(PSCs) have raised research interest in scientific community because their power conversion efficiency is comparable to that of traditional commercial solar cells(i.e., amorphous Si, GaAs,and CdTe). Apart from that, PSCs are lightweight, are flexible, and have low production costs. Recently, graphene has been used as a novel material for PSC applications due to its excellent optical, electrical, and mechanical properties. The hydrophobic nature of graphene surface can provide protection against air moisture from the surrounding medium, which can improve the lifetime of devices. Herein, we review recent developments in the use of graphene for PSC applications as a conductive electrode,carrier transporting material, and stabilizer material. By exploring the application of graphene in PSCs, a new class of strategies can be developed to improve the device performance and stability before it can be commercialized in the photovoltaic market in the near future.

多孔基供暖复合相变材料的应用研究进展

介绍了相变材料的分类、选择及封装载体,阐述了多孔基相变材料在供暖领域的应用进展。应用研究表明,将相变材料应用于建筑围护结构可以稳定室温波动,减少供暖负荷,降低能源消耗。将相变材料与供暖装置相结合,可以有效提高供暖效率,减少热损失,降低碳排放。被动蓄热和主动供暖系统结合具有更好的供暖效果,二者的最佳优化组合具有重要的研究意义和应用前景。

钼的靶向吸附材料合成及其性能研究

研究了采用真空灌注法将α-安息香肟(α-BO)固载在多孔甲基丙烯酸酯聚合物载体(PMMA-DVB)中制备钼的靶向吸附材料(α-BO/PMMA),通过红外光谱、元素分析、热重分析及光学显微镜等手段对其进行结构表征,并考察了酸种类、H^(+)浓度、接触时间及吸附平衡时溶液中MoO_(2)^(2+)浓度对α-BO/PMMA吸附性能的影响。结果表明:α-BO/PMMA对钼的吸附受酸度影响较大,在0.1 mol/L的盐酸介质中吸附量最高,最大吸附量为29.8 mg/g,该材料可有效分离提取钼。

具有组分梯度的HgCdTe探测器在激光测量中的潜在应用

该文将组分梯度引入HgCdTe探测器结构设计中,提出了一种可以降低PN结附近热激发载流子浓度的方法。建立暗电流机制模型,分析高温下暗电流成份,分析结果表明,降低热激发载流子浓度对结区的影响是提高器件工作温度的关键。利用组分梯度在PN结附近构建不同的电场,不同电场下样品暗电流和噪声电流随温度的变化曲线表明,构建的电场越强,降低结区附近热激发载流子浓度的效果越明显。通过数据分析,提出构建103 V/cm量级的组分梯度内建电场可抑制热激发载流子向结区的扩散运动,有效地降低结区附近热激发载流子浓度。

大英博物馆陈列文物中的图书馆学与文献学史料

论文介绍了2019年8月笔者参观大英博物馆各类文物展陈中关于图书馆学和文献学史料的一些心得,分为石碑文献、纸莎文献、木牍文献、古代文献与古代文字、古代文献的特别载体、经典文献展示、古代的阅读与阅读推广、中南亚与东亚文献等8个方面,并提供了相应的照片和诸多案例。

Strategies to advance thermoelectric performance of PbSe and PbS materials

Thermoelectric materials possess the unique capability to convert thermal energy into electric energy and vice versa,making them promising for waste heat recovery and efficient cooling systems.Currently,extensively investigated thermoelectric materials such as Bi2Te3,PbTe and GeTe exhibit superior thermoelectric properties at room temperature and medium temperature regions.However,the broad application of these thermoelectric materials has been impeded by the high cost and restricted accessibility of Te and Ge in the earth's crust.Over the past few years,researchers have shown increasing interest in PbSe-and PbS-based materials,primarily attributed to their abundant elemental supply and relatively low costs.The assessment of research progress and a comprehensive overview of optimization strategies in time can significantly contribute to further improving the thermoelectric performance.These strategies include optimizing carrier concentration(aliovalent doping,dynamic doping and defect state),enhancing density-of-state effective mass(band convergence,band flattening and energy filtering effect),optimizing carrier mobility(band sharpening and band alignment)and reducing lattice thermal conductivity(all-scale hierarchical defect structures designing).This systematic summary and analysis provide novel insights and perspectives for the development of thermoelectric materials.

能带优化和载流子调控改善SnTe的热电性能

作为ⅣA族碲化物,SnTe具有与PbTe相同的晶体结构和相似的双价带结构,是一种非常有前途的热电材料,但高温软化和低温热电性能差等问题阻碍了其进一步推广应用。因此,提升SnTe的平均热电优值,拓宽服役区间,有重要的研究意义。能带工程和晶格工程可同时优化功率因子和晶格热导率,提升SnTe的热电性能。本研究采用MgSe合金化策略,通过熔炼和放电等离子烧结(SPS)的方法制备了一系列Sn1-yPbyTe-x%MgSe(0.01≤y≤0.05,0≤x≤6)样品。研究发现,合金化MgSe可增大能带带隙,有效抑制本征SnTe在高温段的双极扩散,使高温Seebeck系数得到提升,同时声子散射降低了体系晶格热导率,使高温热电性能(873 K)提升了100%;掺杂Pb元素可有效调制载流子浓度抑制电子热导率,从而提升SnTe平均热电性能。其中,Sn0.96Pb0.04Te-4%MgSe样品在873 K的ZT为1.5,423~873 K的平均ZT达到0.8,得到了比文献更优异的结果。

纳米银/介孔氧化硅复合材料的制备及其抗菌性能

【目的】为了解决传统的木材银离子抗菌剂中的Ag^(+)易氧化导致其抗菌耐久性有限以及新型纳米银抗菌剂的AgNPs易团聚等问题,制备了一种新型纳米银/介孔氧化硅(Ag/MCM-41-NH_(2))复合抗菌材料。【方法】选取表面氨基改性的介孔氧化硅(MCM-41)作为Ag^(+)的载体,将Ag^(+)负载到改性载体上,并将其原位绿色还原成纳米银(AgNPs)。采用SEM、TEM、N_(2)吸附–脱附、XPS、XRD、FTIR和ICP-MS等手段分析了复合抗菌剂的表面形貌、结构和Ag^(+)的缓释性能。使用抑菌圈法和振荡法测试了复合抗菌剂的抗菌活性,分析了其抗菌性能和抗菌耐久性。【结果】改性后的MCM-41由于表面接枝了大量的氨基,可以与Ag^(+)发生接枝,还原的AgNPs成功负载在MCM-41内部,呈均匀圆球状,分散均匀。抗菌试验和Ag^(+)缓释结果表明,Ag^(+)/MCM-41-NH_(2)和Ag/MCM-41-NH_(2)对金黄色葡萄球菌和大肠杆菌的初始抗菌率均可以达到99.00%以上。但放置90 d后,Ag^(+)/MCM-41-NH_(2)的Ag^(+)流失率为25.00%,对金黄色葡萄球菌和大肠杆菌的抗菌率分别下降到88.75%和79.10%,而Ag/MCM-41-NH_(2)的Ag^(+)流失率降低到5.10%,且对金黄色葡萄球菌和大肠杆菌的抗菌率仍保持在98.93%和96.93%的较高水平。【结论】AgNPs在载体MCM-41-NH_(2)上均匀分散,制备的Ag/MCM-41-NH_(2)复合抗菌剂具有良好的抗菌性能和抗菌耐久性。

基于耗散粒子动力学模拟辅助的纳米结构脂质载体优化制备

基于分子模拟能够探究纳米结构脂质载体(nanostructure lipid carriers,NLC)各物质间的结合能、溶解度参数等,预测混合物的相容性,从而用于指导实验前原料种类以及用量选择。该文以姜黄素(curcumin,Cur)为模型营养物,以固体脂质(单硬脂酸甘油酯)和液体脂质(中链甘油三酯、葵花籽油、甜橙油)及表面活性剂(泊洛沙姆188、卵磷脂、吐温-80)作为筛选对象,采用耗散粒子动力学(dissipative particle dynamics,DPD)方法进行模拟筛选,再通过正交试验制备NLC以对模拟结果进行验证,最后对NLC的粒径和微观形态等进行表征。模拟与实验结果均表明,单硬脂酸甘油酯-中链甘油三酯(medium chain triglycerides,MCT)-卵磷脂能形成较好的载体体系,固液脂质比为1∶3(质量比),卵磷脂含量为5%(质量分数),姜黄素含量占总脂质的3%(质量分数)时形成的球壳结构最好。优化后制备的姜黄素NLC平均粒径为(233.8±2.4)nm,电位为(-38.2±0.6)mV,包封率为85.06%,微观形态均匀分散、没有明显聚集现象。

P掺杂β-FeSi_(2)材料的制备与热电输运性能

β-FeSi_(2)作为一种绿色环保、高温抗氧化的热电材料,在工业余热回收领域具有潜在的应用价值。虽然磷(P)是一种理想的β-FeSi_(2)硅(Si)位的n型掺杂元素,但是P掺杂β-FeSi_(2)易出现第二相,从而限制了其热电性能的提升。本研究采用感应熔炼法合成了一系列FeSi_(2)-xPx(x=0,0.02,0.04,0.06)样品,极大程度地避免了第二相的产生,并系统研究了P掺杂对β-FeSi_(2)热电输运性能的影响。结果表明,P在β-FeSi_(2)中的掺杂极限约为0.04,与前期的理论缺陷计算结果相符。此外,P掺杂优化了β-FeSi_(2)的热电性能,在850 K时,FeSi1.96P0.04的最高热电优值ZT约为0.12,远高于已有的研究结果(673 K,最高ZT仅为0.03)。然而,与同为n型Co和Ir掺杂的β-FeSi_(2)相比(其载流子浓度可达10^(22)cm^(-3)),P掺杂β-FeSi_(2)的载流子浓度较低,最高仅为10^(20)cm^(-3),这导致其电声散射效应较弱,从而限制了整体热电性能的提升。若能提高其载流子浓度,则热电性能有望得到进一步提升。

影响多孔定型相变储能材料性能的因素分析

太阳能作为一种可再生能源,因其在解决日益增长的能源需求和温室气体排放方面的巨大潜力受到越来越多的关注。然而,太阳自身的间歇性和随机性大大限制了太阳能的转换和储存效率。近年来,基于固-液相变储能材料的潜热储存系统,由于具有高储热密度和出色的化学稳定性,有望成为提高太阳能吸收和转换的合适方法。但固-液相变储能材料在实际应用中常受到自身相分离、换热速率低、过冷、熔融状态泄漏、性能不稳定等限制。其中一种解决方法是将多孔载体与固-液相变储能材料相结合来制备多孔定型相变储能材料。介绍了相变储能材料的储能机理和传热强化机理,系统分析了多孔载体材料的种类、制备方法对多孔定型相变储能材料的影响及其潜在应用。

沸石分子筛固化挥发油制备工艺研究及载药沸石性能评价

目的对沸石分子筛固化中药挥发油的制备工艺进行筛选,并对其性能进行评价,探讨沸石分子筛用于挥发油固化的可行性。方法根据载药效果优选沸石分子筛负载挥发油的制备工艺及药辅比;采用扫描电镜分析沸石分子筛及载药沸石的形态;考察挥发油及载药沸石在高温条件下的损失率,评价其稳定性;最后考察不同药辅比载药沸石在30℃、湿度75%环境中的释放情况。结果采用研磨法制备载药沸石简单快速,沸石分子筛固化挥发油的最佳比例为1∶1.75。扫描电镜结果表明沸石分子筛粒径为2~6μm,研磨并未改变沸石分子筛的形态。在高温条件下,沸石分子筛可提高挥发油中有效成分的稳定性,减缓挥发油的挥发。载药沸石的药辅比越大,即沸石分子筛比例越小,沸石分子筛固化挥发油的效果越好,挥发速率越慢。结论沸石分子筛可以吸附固化挥发油,且载药沸石的制备工艺简单,能有效提高挥发油的稳定性,不同药辅比的载药沸石释放速率的不同可满足不同应用场景的需求,具有良好的发展前景。

BaTiO_(3)掺杂调控内建电场提升钙钛矿太阳能电池性能

碳基无空穴传输层钙钛矿太阳能电池(C-PSCs)因其替换了昂贵的贵金属电极,以及去掉了稳定性差的空穴传输材料而受到广泛关注.但是C-PSCs内部载流子分离和传输性能差阻碍了效率的提高,而内建电场的增强可以改善载流子传输性能从而提升电池光电性能.本文将铁电材料钕酸钡(BaTiO_(3))粉末作为添加剂引入钙钛矿前驱液中制备C-PSCs,改善钙钛矿薄膜形态,降低薄膜缺陷密度及提高C-PSCs载流子传输性能.结果表明,当BaTiO_(3)质量分数为1.0%时,钙钛矿薄膜均匀致密,电池的光电转换效率最高.对薄膜施加正向电压极化处理后,铁电材料BaTiO_(3)剩余极化电场增大了内建电场,为载流子输运和萃取提供充足的动力,从而抑制非辐射复合的发生;同时耗尽层宽度增大,反向饱和电流减小,电池性能显著提升,优化后最佳器件效率为9.02%.本文为钙钛矿吸收层掺杂实现内建电场调控提供了一种有效策略.

屏幕的演化与未来展望——技术文化史视角的溯源与反思

屏幕已然成为人类存在状况的最新征候。信息文明与载体演变共同推动着屏幕时代的来临。文章基于技术文化史视角,聚焦大众的技术使用及其社会文化影响,把屏幕的本质限定于文化消费与文化生活的层面。作为文化消费终端的极致体现,屏幕的演化可分为四个阶段,分别对应了文化消费与文化生活的四次重大变迁:电影屏幕之于“显像”阶段,电视屏幕之于“入户”阶段,电脑屏幕之于“齐一”阶段,手机屏幕之于“独霸”阶段。这一演化历程也体现为虚实融合与载体强化的过程。最终,数字化消解了影像的物质性,也使人与影像之间的中介形式大一统为数字屏幕。屏幕本身的物质局限性引发了人们对于后屏幕时代的畅想,物质性界面的消融则提供了从有屏到无屏的巨大想象空间,而当下屏幕带来的诸多异化也会在未来被更高级的技术形态所制衡。