Exploring device physics of perovskite solar cell via machine learning with limited samples

Perovskite solar cells(PsCs)have developed tremendously over the past decade.However,the key factors influencing the power conversion efficiency(PCE)of PSCs remain incompletely understood,due to the complexity and coupling of these structural and compositional parameters.In this research,we demon-strate an effective approach to optimize PSCs performance via machine learning(ML).To address chal-lenges posed by limited samples,we propose a feature mask(FM)method,which augments training samples through feature transformation rather than synthetic data.Using this approach,squeeze-and-excitation residual network(SEResNet)model achieves an accuracy with a root-mean-square-error(RMSE)of 0.833%and a Pearson's correlation coefficient(r)of 0.980.Furthermore,we employ the permu-tation importance(PI)algorithm to investigate key features for PCE.Subsequently,we predict PCE through high-throughput screenings,in which we study the relationship between PCE and chemical com-positions.After that,we conduct experiments to validate the consistency between predicted results by ML and experimental results.In this work,ML demonstrates the capability to predict device performance,extract key parameters from complex systems,and accelerate the transition from laboratory findings to commercialapplications.

High-performance and robust high-temperature polymer electrolyte membranes with moderate microphase separation by implementation of terphenyl-based polymers

Acid loss and plasticization of phosphoric acid(PA)-doped high-temperature polymer electrolyte membranes(HT-PEMs)are critical limitations to their practical application in fuel cells.To overcome these barriers,poly(terphenyl piperidinium)s constructed from the m-and p-isomers of terphenyl were synthesized to regulate the microstructure of the membrane.Highly rigid p-terphenyl units prompt the formation of moderate PA aggregates,where the ion-pair interaction between piperidinium and biphosphate is reinforced,leading to a reduction in the plasticizing effect.As a result,there are trade-offs between the proton conductivity,mechanical strength,and PA retention of the membranes with varied m/p-isomer ratios.The designed PA-doped PTP-20m membrane exhibits superior ionic conductivity,good mechanical strength,and excellent PA retention over a wide range of temperature(80–160°C)as well as satisfactory resistance to harsh accelerated aging tests.As a result,the membrane presents a desirable combination of performance(1.462 W cm^(-2) under the H_(2)/O_(2)condition,which is 1.5 times higher than that of PBI-based membrane)and durability(300 h at 160°C and 0.2 A cm^(-2))in the fuel cell.The results of this study provide new insights that will guide molecular design from the perspective of microstructure to improve the performance and robustness of HT-PEMs.

Synthesis of phosphonated graphene oxide by electrochemical exfoliation to enhance the performance and durability of high-temperature proton exchange membrane fuel cells

The doping of functionalized graphene oxide(GO)in the membranes becomes a promising method for improving the performance of high-temperature proton exchange membrane fuel cells(HT-PEMFC).Phosphonated graphene oxide(PGO)with a P/O ratio of 8.5%was quickly synthesised by one-step electrochemical exfoliation based on a three-dimensiaonal(3D)printed reactor and natural graphite flakes.Compared with the GO prepared by the two-step electrochemical exfoliation method,the PGO synthesized by the one-step electrochemical exfoliation can better improve the performance of the membrane-electrode-assembly(MEA)based on the polybenzimidazole(PBI)membrane in the HTPEMFC.The doping of 1.5 wt%GO synthesised by electrochemical exfoliation with the 2-step method or reactor method in PBI increased the peak power density by 17.4%or 35.4%compared to MEA based on pure PBI membrane at 150℃,respectively.In addition,the doping of PGO in PBI improves its durability under accelerated stress test(AST).

Recent advances in phosphoric acid-based membranes for high-temperature proton exchange membrane fuel cells

High-temperature proton exchange membrane fuel cells(HT-PEMFCs)are pursued worldwide as efficient energy conversion devices.Great efforts have been made in the area of designing and developing phosphoric acid(PA)-based proton exchange membrane(PEM)of HT-PEMFCs.This review focuses on recent advances in the limitations of acid-based PEM(acid leaching,oxidative degradation,and mechanical degradation)and the approaches mitigating the membrane degradation.Preparing multilayer or polymers with continuous network,adding hygroscopic inorganic materials,and introducing PA doping sites or covalent interactions with PA can effectively reduce acid leaching.Membrane oxidative degradation can be alleviated by synthesizing crosslinked or branched polymers,and introducing antioxidative groups or highly oxidative stable materials.Crosslinking to get a compact structure,blending with stable polymers and inorganic materials,preparing polymer with high molecular weight,and fabricating the polymer with PA doping sites away from backbones,are recommended to improve the membrane mechanical strength.Also,by comparing the running hours and decay rate,three current approaches,1.crosslinking via thermally curing or polymeric crosslinker,2.incorporating hygroscopic inorganic materials,3.increasing membrane layers or introducing strong basic groups and electron-withdrawing groups,have been concluded to be promising approaches to improve the durability of HT-PEMFCs.The overall aim of this review is to explore the existing degradation challenges and opportunities to serve as a solid basis for the deployment in the fuel cell market.

Neutron Diffraction of Large-Volume Samples at High Pressure Using Compact Opposed-Anvil Cells

Neutron diffraction techniques of large-volume samples at high pressure using compact opposed-anvil cells are developed at a reactor neutron source, China＇s Mianyang research reactor. We achieve a high-pressure condition of in situ neutron diffraction by means of a newly designed large-volume opposed-anvil cell. This pressure calibration is based on resistance measurements of bismuth and the neutron diffraction of iron. Pressure calibration experiments are performed at room temperature for a new cell using the tungsten carbide anvils with a tapered angle of 30°, Φ4.5 mm culet diameter and the metal-nonmetal composite gasket with a thickness of 2 mm. Transitions in Bi（Ⅰ–Ⅱ 2.55 GPa, Ⅱ–V 7.7 GPa） are observed at 100 and 300 kN, respectively, by resistance measurements.The pressure measurement results of neutron diffraction are consistent with resistance measurements of bismuth.As a result, pressures up to about 7.7 GPa can routinely and stably be achieved using this apparatus, with the sample volume of 9 mm^3.

Easily-handled method to isolate mesenchymal stem cells from coagulated human bone marrow samples

AIM:To establish an easily-handled method to isolate mesenchymal stem cells(MSCs) from coagulated human bone marrow samples. METHODS: Thrombin was added to aliquots of seven heparinized human bone marrow samples to mimic marrow coagulation. The clots were untreated,treated with urokinase or mechanically cut into pieces before culture for MSCs. The un-coagulated samples and the clots were also stored at 4 ℃ for 8 or 16 h before the treatment. The numbers of colony-forming unit-fibroblast(CFU-F) in the different samples were determined. The adherent cells from different groups were passaged and their surface profile was analyzed with flow cytometry. Their capacities of in vitro osteogenesis and adipogenesis were observed after the cells were exposed to specific inductive agents.RESULTS: The average CFU-F number of urokinasetreated samples(16.85 ± 11.77/106) was comparable to that of un-coagulated control samples(20.22 ± 10.65/106,P = 0.293),which was significantly higher than those of mechanically-cut clots(6.5 ± 5.32/106,P < 0.01) and untreated clots(1.95 ± 1.86/106,P < 0.01). The CFU-F numbers decreased after samples were stored,but those of control and urokinase-treated clots remained higher than the other two groups. Consistently,the numbers of the attached cells at passage 0 were higher in control and urokinase-treated clots than those of mechanically-cut clots and untreated clots.The attached cells were fibroblast-like in morphology and homogenously positive for CD44,CD73 and CD90,and negative for CD31 and CD45. Also,they could be induced to differentiate into osteoblasts and adipocytes in vitro. CONCLUSION: Urokinase pretreatment is an optimal strategy to isolate MSCs from human bone marrow samples that are poorly aspirated and clotted.

Graphene/carbon structured catalyst layer to enhance the performance and durability of the high-temperature proton exchange membrane fuel cells

In this study,nitrogen doped electrochemically exfoliated reduced graphene oxide and carbon black supported platinum(Pt/Nr EGO_(2)-CB_(3))has been prepared to enhance the performance and durability of hightemperature PEMFCs with lower Pt loading.On the one hand,Pt/Nr EGO_(2)-CB_(3)with the strong interaction between the Pt and nitrogen(N)prevent agglomeration of Pt particles and Pt particles is 5.46±1.46 nm,which is smaller than that of 6.78±1.34 nm in Pt/C.Meanwhile,ECSA of Pt/Nr EGO_(2)-CB_(3)decrease 13.65%after AST,which is much lower than that of 97.99%in Pt/C.On the other hand,the Nr EGO flakes in MEAac act as a barrier to mitigate phosphoric acid redistribution,which improves the formation of triple-phase boundaries(TPBs)and gives stable operation of the MEAacwith a lower decay rate of 0.02 mV h^(-1)within100 h.After steady-state operation,the maximum power density of Pt/Nr EGO_(2)-CB_(3)(0.411 W cm^(-2))is three times higher than that of conventional Pt/C(0.134 W cm^(-2))in high-temperature PEMFCs.After AST,the mass transfer resistance of Pt/Nr EGO_(2)-CB_(3)electrode(0.560Ωcm^(2))is lower than that in Pt/C(0.728Ωcm^(2)).

Factors Associated with Sample Rejection for CD4+/CD8+ T Cell Count Analyses at the Kenyatta National Hospital Comprehensive Care Center Laboratory, Kenya

Background: The appropriate time to initiate antiretroviral therapy (ART) in HIV/AIDS patients is determined by measurement of CD4+/CD8+ T cell count. The CD4/CD8+ T cell count is also useful, together with viral load, in monitoring disease progression and effectiveness treatment regimens. Several factors may contribute to sample rejection during the CD4+/CD8+ T cells count, resulting in negative effects on patient management. Objective: Evaluate the causes for CD4+CD8+ T cell count sample rejection at the Kenyatta National Hospital Comprehensive Care Center Laboratory. Method: A retrospective cross-sectional study was conducted between 2018 and 2020. Data was obtained from the “rejected samples” for PartecR FlowCyp flow cytometry file. Designed data collection sheet was used for data capture. A total of 3972 samples were submitted for CD4+/CD8+ T cell count during the study period. Causes for sample rejection were numbered 1 to 12, each representing a reason for sample rejection. Number 1 was sub-categorized into clotted, hemolyzed, short-draw and lipemic. Data was analyzed using excel, and presented using tables, graphs and pie charts. Approval to conduct the study was obtained from KNH/UoN ERC. Results: In the study period, 81/3972 (2.0%) samples were rejected. Samples submitted more than 48 hours after collection were mostly rejected. Other factors included improper collection technique, delayed testing, patient identification error and incorrect use of vacutainer. A combination of clotted samples, specimen submission more than 48 hours caused the most frequent sample rejection, followed with combination of specimen submission more than 48 hours, delayed testing and delayed specimen processing. Together, clotted samples, incorrect vacutainer and poor specimen label caused the least sample rejection. Conclusion: Sample rejection rate for CD4/CD8+ T cell count was relatively low, and multiple factors contributed to rejection. However, improved quality assurance will enable more benefit to patients who seek this test in the laboratory.

Analytical quality-by-design approach for sample treatment of BSA-containing solutions

The sample preparation of samples conlaining bovine serum albumin（BSA）,e.g..as used in transdermal Franz diffusion cell（FDC） solutions,was evaluated using an analytical qualily-by-design（QbD）approach.Traditional precipitation of BSA by adding an equal volume of organic solvent,often successfully used with conventional HPLC-PDA,was found insufficiently robust when novel fused-core HPLC and/or UPLC-MS methods were used.In this study,three factors（acetonitrile（%）.formic acid（%） and boiling time（min）） were included in the experimental design to determine an optimal and more suitable sample treatment of BSAcontaining FDC solutions.Using a QbD and Derringer desirability（D） approach,combining BSA loss,dilution factor and variability,we constructed an optimal working space with the edge of failure defined as D〈0.9.The design space is modelled and is confirmed to have an ACN range of 83 ± 3% and FA content of 1 ±0.25%.

流式分选仪的创新调试及在初始T细胞纯化中的应用

针对敏感细胞样本如何调试流式分选仪以获得高纯度、高活性的分选产物是众多流式分选从业者关注的问题。该文以流式分选仪FACSAria Fusion为例,首创性地将工程师调试界面与用户调试界面相结合调整系统默认最低样品进样压力,并配合85μm喷嘴,按照用户常规操作流程,在流速1.0的情况下对小鼠原代初始T细胞进行纯化,并对产物的质量进行检测。结果证明阐述的调试方法可以成功地获得高纯度初始T细胞,并且诱导分化成的调节T细胞产生特异转录因子Foxp3的能力与未分选细胞相当。

流式细胞仪样品预处理系统的设计与实现

根据流式细胞仪对样品“均一化”的需求,研制了一套基于微流控细胞分选技术的流式细胞仪样品预处理系统,装置可以实现对粒径小于100µm细胞或微粒的驱动和分选.系统主要包含微流控分选芯片和样品驱动模块两部分,通过聚焦不同位置,实现了对不同粒径细胞/颗粒的有效分离.系统无需对细胞进行标记处理,经分选的细胞便于后续流式细胞仪检测.经验证,系统能够有效去除牡蛎血淋巴细胞样品中的大粒子杂质,提高细胞样品的稳定性和均一性,增加流式细胞仪检测结果的准确性.

藻细胞显微成像中微流控自动进样分段控制方法

藻细胞显微图像快速自动获取具有重要的应用价值。针对微流控-显微成像技术中样品进样效率与细胞成像质量问题,研究了基于藻细胞通过荧光检测窗口持续时间的样品平均流速检测方法,并提出基于体积流量调节的微流控自动进样分段控制方法。结果表明,进样速度在10~30μL/min范围内,样品平均流速检测误差小于5%;分段控制实现了藻细胞显微图像的高质量自动获取,与显微镜检成像质量基本一致,且样品进样速度提升68%以上。研究结果为藻细胞显微图像高效自动获取提供了有效实用方法。

Prediction of peritoneal free cancer cells in gastric cancer patients by golden-angle radial sampling dynamic contrast-enhanced magnetic resonance imaging

Objectiveperitoneal free cancer cells can negatively impact disease progression and patient outcomes in gastric cancer. This study aimed to investigate the feasibility of using golden-angle radial sampling dynamic contrast-enhanced magnetic resonance imaging (GRASP DCE-MRI) to predict the presence of peritoneal free cancer cells in gastric cancer patients.MethodsAll enrolled patients were consecutively divided into analysis and validation groups. Preoperative magnetic resonance imaging (MRI) scans and perfusion were performed in patients with gastric cancer undergoing surgery, and peritoneal lavage specimens were collected for examination. Based on the peritoneal lavage cytology (PLC) results, patients were divided into negative and positive lavage fluid groups. The data collected included clinical and MR information. A nomogram prediction model was constructed to predict the positive rate of peritoneal lavage fluid, and the validity of the model was verified based on data from the verification group.ResultsThere was no statistical difference between the proportion of PLC-positive cases predicted by GRASP DCE-MR and the actual PLC test. MR tumor stage, tumor thickness, and perfusion parameter Tofts-Ketty model volume transfer constant (Ktrans) were independent predictors of positive peritoneal lavage fluid. The nomogram model featured a concordance index (C-index) of 0.785 and 0.742 for the modeling and validation groups, respectively.ConclusionsGRASP DCE-MR could effectively predict peritoneal free cancer cells in gastric cancer patients. The nomogram model constructed using these predictors may help clinicians to better predict the risk of peritoneal free cancer cells being present in gastric cancer patients.

尿液标本放置时间对尿常规检验结果中尿沉渣、红细胞的影响

目的 研究尿液标本放置不同时间后进行尿常规检验对尿沉渣以及红细胞的影响。方法 随机抽取2021年9月至2023年9月在福建省漳州市医院检验科接受尿常规检查的患者55例,分别在样本放置0 h、1 h、2 h、4 h、6 h后进行检验,对比检验结果。结果 放置4 h后尿常规检验中红细胞(810.42±112.44)个/μl,白细胞(591.52±82.39)个/μl,低于放置2 h检验结果 [红细胞(1220.37±324.76)个/μl,白细胞(697.73±141.80)个/μl](P <0.05);放置6 h后红细胞(495.76±79.30)个/μl,白细胞(490.28±65.32)个/μl,低于放置4 h检验结果(P <0.05)。上皮细胞检验结果差异无统计学意义(P> 0.05)。放置4 h后尿常规检验中大红细胞(590.65±143.60)个/μl,溶解红细胞(35.59±8.10)个/μl,和放置2 h检验差异有统计学意义[大红细胞(391.43±126.54)个/μl,溶解红细胞(个/μl)](P <0.05);放置6 h后大红细胞(391.43±126.54)个/μl,溶解红细胞(43.27±8.82)个/μl,和放置4 h后检验差异有统计学意义(P <0.05)。小红细胞检验结果差异无统计学意义(P> 0.05)。结论 尿液样本放置时间延长对于白细胞、红细胞、大红细胞以及溶解红细胞检验结果造成较大影响,且随着时间增加检查结果误差越大,因此建议在采集样本后2 h内完成尿常规检验,最长不超过3 h完成检验工作。采集尿液样本后应保存在2~8℃冰箱内冷藏,以抑制细菌繁殖。

一种新型静态样品池系统应用于高温谱线参数测量

在实际高温气体探测工况下,温度的变化往往会对所测气体谱线参数测量结果带来不同程度的影响,且有时难以实现实时在线测量。因此该研究旨在设计加工一个新型高温样品池模拟高温环境,并在其基础上搭建一套可调谐二极管激光吸收光谱测量系统用来对目标气体高温环境下的光谱进行探测,实现对谱线参数的精确检测。针对高温样品池的设计,采用Comsol对样品池材料的固体导热特性进行模拟分析,从而确定最佳加工所需尺寸和材质。经检测,设计加工后的高温样品池具有良好的性能,可在300~1000 K温度范围及-0.1~10 atm压力范围内工作,在1000 K温度下样品池温度的最大偏差为20 K;在真空条件下,当温度为300和1000 K时分别测量到的气体泄漏速率为5和10 Pa·min^(-1)。使用中心波长为1573 nm的分布反馈(DFB)半导体激光器作为光源测量了HITRAN2016数据库中参数较为准确的CO分子的部分高温光谱,并把依此反演得到的谱线参数与HITRAN数据库进行对比分析,误差基本在5%以内,证明了所设计加工高温样品池的良好性能,可为高温环境下的气体谱线参数测量提供帮助。

干细胞移植患者白消安暴露量的估算模型研究

目的采用有限采样法建立接受自体造血干细胞移植(autologous stem cell transplantation,ASCT)的淋巴瘤患者体内白消安暴露量-药时曲线下面积(area under the concentration-time curve,AUC)的估算模型。方法选取12名适合接受ASCT的淋巴瘤患者,采用含白消安105 mg·m^(-2),静脉滴注3 h的预处理方案,分别于白消安第1剂输注开始后1 h,输注结束后5 min,1、2、4、6、18 h采集血样,采用液质联用法进行白消安血药浓度测定。采用传统药动学方法计算白消安的临床药动学参数后,采用多元线性逐步回归分析法,建立有限采样法的白消安的AUC 0-t估算模型。以Jackknife法和Bootstrap法进行模型内部验证,采用Bland-Altman图评价经典药动学方法与有限采样法的一致性。结果采取有限采样法得出以AUC对C 60min、C 180min、C 300min进行多元线性回归的方程分析,方程的线性关系和预测效果最好,为AUC 0-t=295.003C 60min+233.050C 180min+273.163C 300min-1202.713,其中r 2为0.995,平均预测误差为-0.87%,均方根误差为2.40%。结论采用三点法估算的有限采样法模型,可以用于接受ASCT的淋巴瘤患者体内白消安AUC 0-t的估算,为临床合理应用白消安提供参考。

去白细胞悬浮红细胞2种抽样方式质量结果的分析

目的 分析去白细胞悬浮红细胞2种抽样方式的质量结果,探讨分样抽检模式在连云港市红十字中心血站质量抽检中的应用,以提高血液质量,节约血液资源。方法 回顾性分析2020年1月—2022年5月去白细胞悬浮红细胞质量结果,比较2种抽样方式的差异。结果 2种抽样方式外观、血红蛋白含量、储存期末溶血率、无菌试验抽检合格率均为100%;分袋抽样组容量、血细胞比容、白细胞残留量合格率分别为97.87%、100%、96.81%;整袋抽样组容量、血细胞比容合格率分别为93.33%、97.78%,差异无统计学意义(P>0.05);分袋抽样组与整袋抽样组血细胞比容、总血红蛋白浓度比较,差异无统计学意义(P>0.05);分袋抽样组储存期末溶血率为(0.23±0.18)%,高于整袋抽样组的(0.11±0.07)%(P<0.001)。结论 采用分袋抽样模式完成血液常规抽检,可以节约血液资源;准确检测结果同时严格控制采血、制备过程中各项关键控制点,为临床提供充足、安全的血液制品。

Fast Response Fluorescent Probe with a Large Stokes Shift for Thiophenol Detection in Water Samples and Cell Imaging

Herein,the 2,4-dinitrophenyl functional group acting as the thiophenol reactive site was introduced into a carbazole-chalcone fluorophore to synthesize probe-CCF2,which could result in a remarkable increase in fluorescence when reacting with thiophenols.The selectivity and accuracy of probe-CCF2 were investigated with thiophenols,hydrosulphide salt,aliphatic thiols,glutathione,cysteine,anions and metal cations.Probe-CCF2 exhibited a detection limit of 37 nmol/L(R^(2)=0.9951),a remarkable Stokes shift of approximately 130 nm,and a brief response time of 9 min with a remarkable increase in fluorescence of 90-fold.Probe-CCF2 was applied for thiophenol detection in water samples and imaging in living cells successfully,with high sensitivity and excellent selectivity.

基于区域直线距离的锂离子电池健康状态评估

在原始充电曲线中引入区域电压和区域直线距离的概念,并提出基于区域直线距离的电池S_(OH)(健康状态)评估方法,采用实验室条件下NCA(镍钴铝)电池单体和LFP(磷酸铁锂)电池模组在1/2C倍率下的充电电压数据以及一座20 kW/100 kW·h储能电站的电池运行数据,来建立基于区域直线距离的电池S_(OH)评估模型,对比了基于区域直线距离L_(AB)的方法和IC(增量容量)峰高法,并考察了不同采样频率和区域电压下L_(AB)-S_(OH)模型的效果。结果表明:S_(OH)与L_(AB)呈线性正相关,线性拟合优度可达到0.96以上,L_(AB)-S_(OH)模型的S_(OH)评估准确性均优于IC峰高法。区域直线距离作为健康因子提高了低采样频率下电池S_(OH)评估的准确性,这为工程上储能电池的S_(OH)在线评估提供了可能性。

High temperature polymer electrolyte membrane fuel cell

One of the majorissuesli mitingtheintroduction of polymer electrolyte membranefuel cells(PEMFCs) is thelowtemperature ofoperation which makes platinum-based anode catalysts susceptible to poisoning by the trace amount of CO,inevitably present in reformedfuel.In order to alleviate the problemof COpoisoning andi mprove the power density of the cell,operating at temperature above 100 ℃ispreferred.Nafion-type perfluorosulfonated polymers have been typically used for PEMFC.However,the conductivity of Nafion-typepolymers is not high enoughto be usedfor fuel cell operations at higher temperature(>90 ℃) and atmospheric pressure because they dehy-drate under these condition.An additional problem which faces the introduction of PEMFCtechnology is that of supplying or storing hydrogen for cell operation,especially for vehicular applications.Consequently the use of alternative fuels such as methanol and ethanol is of interest,especially if thiscan be used directlyinthe fuel cell,without reformationto hydrogen.Ali mitation of the direct use of alcohol is thelower activity of oxida-tionin comparison to hydrogen,which means that power densities are considerably lower.Hence to i mprove activity and power outputhigher temperatures of operation are preferable.To achieve this goal,requires a newpolymer electrolyte membrane which exhibits stabilityand high conductivityin the absence of liquid water.Experi mental data on a polybenzi midazole based PEMFC were presented.Asi mple steady-stateisothermal model of the fuel cell is alsoused to aidin fuel cell performance opti misation.The governing equations involve the coupling of kinetic,ohmic and mass transport.Thispaper also considers the advances madeinthe performance of direct methanol and solid polymer electrolyte fuel cells and considers theirli mi-tations in relation to the source and type of fuels to be used.