Efficient Organic Solar Cell with 16.88% Efficiency Enabled by Refined Acceptor Crystallization and Morphology with Improved Charge Transfer and Transport Properties

Single‐layered organic solar cells (OSCs) using nonfullerene acceptors have reached 16% efficiency. Such a breakthrough has inspired new sparks for the development of the next generation of OSC materials. In addition to the optimization of electronic structure, it is important to investigate the essential solid‐state structure that guides the high efficiency of bulk heterojunction blends, which provides insight in understanding how to pair an efficient donor–acceptor mixture and refine film morphology. In this study, a thorough analysis is executed to reveal morphology details, and the results demonstrate that Y6 can form a unique 2D packing with a polymer‐like conjugated backbone oriented normal to the substrate, controlled by the processing solvent and thermal annealing conditions. Such morphology provides improved carrier transport and ultrafast hole and electron transfer, leading to improved device performance, and the best optimized device shows a power conversion efficiency of 16.88% (16.4% certified). This work reveals the importance of film morphology and the mechanism by which it affects device performance. A full set of analytical methods and processing conditions are executed to achieve high efficiency solar cells from materials design to device optimization, which will be useful in future OSC technology development.     

Hollow CuS Nanoboxes as Li‐Free Cathode for High‐Rate and Long‐Life Lithium Metal Batteries

Transition metal sulfides hold promising potentials as Li‐free conversion‐type cathode materials for high energy density lithium metal batteries. However, the practical deployment of these materials is hampered by their poor rate capability and short cycling life. In this work, the authors take the advantage of hollow structure of CuS nanoboxes to accommodate the volume expansion and facilitate the ion diffusion during discharge–charge processes. As a result, the hollow CuS nanoboxes achieve excellent rate performance (≈371 mAh g^?1 at 20 C) and ultra‐long cycle life (>1000 cycles). The structure and valence evolution of the CuS nanobox cathode are identified by scanning electron microscopy, transmission electron microscopy, and X‐ray photoelectron spectroscopy. Furthermore, the lithium storage mechanism is revealed by galvanostatic intermittent titration technique and operando Raman spectroscopy for the initial charge–discharge process and the following reversible processes. These results suggest that the hollow CuS nanobox material is a promising candidate as a low‐cost Li‐free cathode material for high‐rate and long‐life lithium metal batteries.     

Revisiting the Role of Conductivity and Polarity of Host Materials for Long‐Life Lithium–Sulfur Battery

Despite their high theoretical energy density and low cost, lithium–sulfur batteries (LSBs) suffer from poor cycle life and low energy efficiency owing to the polysulfides shuttle and the electronic insulating nature of sulfur. Conductivity and polarity are two critical parameters for the search of optimal sulfur host materials. However, their role in immobilizing polysulfides and enhancing redox kinetics for long‐life LSBs are not fully understood. This work has conducted an evaluation on the role of polarity over conductivity by using a polar but nonconductive platelet ordered mesoporous silica (pOMS) and its replica platelet ordered mesoporous carbon (pOMC), which is conductive but nonpolar. It is found that the polar pOMS/S cathode with a sulfur mass fraction of 80 wt% demonstrates outstanding long‐term cycle stability for 2000 cycles even at a high current density of 2C. Furthermore, the pOMS/S cathode with a high sulfur loading of 6.5 mg cm^?2 illustrates high areal and volumetric capacities with high capacity retention. Complementary physical and electrochemical probes clearly show that surface polarity and structure are more dominant factors for sulfur utilization efficiency and long‐life, while the conductivity can be compensated by the conductive agent involved as a required electrode material during electrode preparation. The present findings shed new light on the design principles of sulfur hosts towards long‐life and highly efficient LSBs.     

Hybrid Perovskite‐Organic Flexible Tandem Solar Cell Enabling Highly Efficient Electrocatalysis Overall Water Splitting

Perovskite‐organic tandem solar cells are attracting more attention due to their potential for highly efficient and flexible photovoltaic device. In this work, efficient perovskite‐organic monolithic tandem solar cells integrating the wide bandgap perovskite (1.74 eV) and low bandgap organic active PBDB‐T:SN6IC‐4F (1.30 eV) layer, which serve as the top and bottom subcell, respectively, are developed. The resulting perovskite‐organic tandem solar cells with passivated wide‐bandgap perovskite show a remarkable power conversion efficiency (PCE) of 15.13%, with an open‐circuit voltage (V_oc) of 1.85 V, a short‐circuit photocurrent (J_sc) of 11.52 mA cm^?2, and a fill factor (FF) of 70.98%. Thanks to the advantages of low temperature fabrication processes and the flexibility properties of the device, a flexible tandem solar cell which obtain a PCE of 13.61%, with V_oc of 1.80 V, J_sc of 11.07 mA cm^?2, and FF of 68.31% is fabricated. Moreover, to demonstrate the achieved high V_oc in the tandem solar cells for potential applications, a photovoltaic (PV)‐driven electrolysis system combing the tandem solar cell and water splitting electrocatalysis is assembled. The integrated device demonstrates a solar‐to‐hydrogen efficiency of 12.30% and 11.21% for rigid, and flexible perovskite‐organic tandem solar cell based PV‐driven electrolysis systems, respectively.     

不同剂量熊果酸干预糖尿病小鼠视网膜病变的作用及机制研究

目的:探究不同剂量熊果酸(UA)干预糖尿病小鼠视网膜病变的作用及机制。方法:选取雄性健康C57BL/6小鼠60只,其中50只按50 mg/kg的剂量一次性往小鼠尾静脉注射新鲜配置的四氯嘧啶生理盐水溶液构建小鼠糖尿病视网膜病变模型,随机分为5组,每组10只,分别为模型组、阳性对照组(小鼠玻璃体注射3μL 40 mg/m L的曲安奈德),低剂量UA干扰组(小鼠玻璃体注射3μL剂量为0.5μg/μL的UA)、中剂量UA干扰组(小鼠玻璃体注射3μL剂量为1.0μg/μL的UA),高剂量UA干扰组(小鼠玻璃体注射3μL剂量为2.0μg/μL的UA),余下10只小鼠作为正常对照组。观察各组小鼠对胰岛素敏感性、视网膜内糖代谢情况、小鼠视网膜神经节细胞(RGCs)凋亡情况,比较各组小鼠视网膜组织中血管内皮生长因子(VEGF)、环氧化酶-2(COX-2)、基质金属蛋白酶2(MMP-2)蛋白及其mRNA的表达情况。结果:建模后,正常对照组胰岛素抵抗指数(HOMA-IR)、视网膜含糖量、葡萄糖转运体-1(GLUT-1)与葡萄糖转运体-3(GLUT-3)含量、RGCs凋亡率、视网膜组织中VEGF、COX-2、MMP-2蛋白及其mRNA的表达量低于模型组(P0.05);经干扰后,阳性对照组、不同剂量UA干扰组HOMA-IR、视网膜含糖量、GLUT-1、GLUT-3的含量、RGCs凋亡率、视网膜组织中VEGF、COX-2、MMP-2蛋白及其mRNA的表达量低于模型组(P0.05),且随UA干扰剂量的升高而降低(P0.05)。结论:UA能够降低HOMA-IR和视网膜糖代谢能力,抑制RGCs的凋亡,对VEGF、COX-2、MMP-2蛋白及其mRNA的表达具有一定的抑制作用,高剂量UA对糖尿病小鼠视网膜病预防治疗效果较好。     

定坤丹对多囊卵巢综合征患者性激素水平、胰岛素抵抗及妊娠情况的影响

目的:探讨定坤丹对多囊卵巢综合征患者性激素水平、胰岛素抵抗及妊娠情况的的影响。方法:选择2016年5月至2018年5月我院收治的210例多囊卵巢综合征患者,根据随机化原则将其分为两组,每组105例。对照组患者接受达英-35与二甲双胍治疗,研究组在对照组的基础上口服定坤丹治疗。连续治疗3个月后,比较两组治疗前后的性激素水平及胰岛各相关指标的变化。治疗结束后随访1年,比较两组的排卵及妊娠情况。结果:与治疗前相比,两组治疗后的血清睾酮(Testosterone,T)、黄体生成素(Luteinizing hormone,LH)及LH/FSH均明显降低,且研究组以上指标均显著低于对照组(P<0.05)。两组治疗前后的卵泡刺激素(Follicle-stimulating hormone,FSH)水平比较无统计学差异(P>0.05)。与治疗前相比,两组治疗后的空腹胰岛素(Fasting insulin,FINS)、餐后2 h胰岛素(Postprandial 2 hours insulin,2hPINS)及β细胞胰岛素分泌功能(Homeostasis model assessment ofβcell,HOMA-β)均明显升高,胰岛素敏感指数(Homeostasis model assessment-Insulin sensitivity index,HOMA-IS)明显降低,且研究组以上指标较对照组改善更明显(P<0.05)。研究组排卵及成功妊娠率均显著高于对照组(P<0.05)。结论:定坤丹有助于改善多囊卵巢综合征患者性激素水平及胰岛素抵抗,提高排卵及妊娠率。     

孕妇分娩机构选择及其影响因素分析

目的:调查孕妇分娩机构选择情况,并对影响分娩机构选择的因素进行分析,为加强分娩机构建设,合理配置助产机构医疗资源提供参考。方法:本研究调查对象均为2019年5月-2019年9月期间在我院办理建档立册的孕产妇,随机抽取420例孕妇进行自制问卷调查,实际发放问卷420份,获得有效问卷为395份。采用EpiData3.1软件建立数据库,统计孕妇基本资料、选择分娩机构考虑因素,多元Logistic回归分析影响选择分娩机构的因素。结果:90%以上的孕妇认为医疗技术水平、仪器设备水平、是否有新生儿科、医院声誉、服务态度、环境比较重要,是选择医疗机构会考虑的因素;大多数孕妇选择三级分娩机构、专科分娩机构进行分娩;经单因素和多因素分析显示,专家门诊、费用、医院级别可能是孕妇选择分娩机构类别的独立影响因素(P0.05)。结论:孕妇趋向于选择三级、专科分娩机构进行分娩,增强二级和民营助产机构的核心竞争力,有助于合理配置助产机构医疗资源,更好保障母婴安全。     

吡拉西坦联合鼠神经生长因子对急性缺血性脑卒中患者的疗效及Hcy、PCT和皮质醇水平的影响

目的:探讨吡拉西坦联合鼠神经生长因子对急性缺血性脑卒中患者的疗效及对同型半胱氨酸(Hcy)、降钙素原(PCT)和皮质醇水平的影响。方法:回顾性分析我院2017年2月～2018年11月收治的73例急性缺血性脑卒中患者为研究对象,依据入院先后顺序分为对照组(n=35)和观察组(n=38)。对照组患者采用吡拉西坦治疗,观察组基于对照组加以鼠神经生长因子治疗。观察并比较两组临床疗效,治疗前后美国国立卫生研究院卒中量表(NIHSS)、日常生活能力(ADL),治疗前及治疗2周结束时用全自动生化分析仪测定血浆Hcy水平,用放射免疫学分析法测定PCT水平,用化学发光法测定皮质醇水平,用超声多普勒诊断仪测定基底动脉、左右大脑中动脉血流。结果:治疗后,观察组NIHSS评分低于对照组(8.96±1.21)vs(11.27±1.59)分,ADL评分高于对照组(74.21±9.75)vs(66. 04±8.03)分(P0.05)。观察组总有效率高于对照组89.47%vs 68.57%(P0.05)。治疗后,观察组Hcy、PCT及皮质醇水平低于对照组(14.27±2.01)vs (18.51±2.84)μmol/L、(0.25±0.03)vs (0.31±0.04)μg/L、(171.93±23.86)vs(228.75±30.27)nmol/L(P0.05)。治疗后,观察组脑血流学指标高于对照组基底动脉(43.81±6.84)vs(39.62±5.27)mL/min、左大脑中动脉血流(64.27±9.95)vs(57.03±7.52)mL/min、右大脑中动脉血流(62.85±9.01)vs(56.64±7.42)mL/min(P0.05)。结论:吡拉西坦联合鼠神经生长因子能够提高急性缺血性脑卒中的疗效,降低Hcy、PCT及皮质醇水平,促进神经功能的恢复。     

颅内动脉瘤夹闭术、血管内栓塞术治疗颅内动脉瘤的疗效及安全性研究

目的:探讨颅内动脉瘤夹闭术、血管内栓塞术治疗颅内动脉瘤的疗效及安全性。方法:回顾性分析2016年9月-2019年1月接受手术治疗的76例颅内动脉瘤患者的临床资料,根据手术方式的不同分为接受颅内动脉瘤夹闭术治疗的A组40例和接受血管内栓塞术治疗的B组36例。对比两组患者的动脉瘤完全闭合率、住院费用及血清炎性因子[C反应蛋白(CRP)、白介素-1β(IL-1β)、白介素-6(IL-6)、肿瘤坏死因子-α(TNF-α)]、脑氧饱和度水平及日常生活能力量表(ADL)评分值,记录并发症发生情况。结果:两组患者的动脉瘤完全闭合率比较差异无统计学意义(x~2=0.515,P=0.473)。A组患者的住院费用低于B组患者(t=17.732,P=0.000);A组患者术后血清中CRP、IL-1β、IL-6、TNF-α的水平高于B组(t=10.580、12.904、9.355、19.176,P均=0.000);A组患者术后脑氧饱和度水平低于B组(t=2.113,P=0.019),两组ADL评分值的差异无统计学意义(t=1.211,P=0.115);A组术中再破裂、脑血管痉挛发生率高于B组患者(x~2=4.817、5.383,P=0.028、0.020)。结论:颅内动脉瘤夹闭术应用于颅内动脉瘤患者,动脉瘤完全闭合率与血管内栓塞术无明显差异,住院费用更低,但对目标血管的刺激较大,可能存在术中再破裂、脑血管痉挛等风险。