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1. Flexibility-assisted heat removal in thin crystalline silicon solar cells

Author

Han, Seok Jun, Stradins, Pauls, Han, Sang M., and Han, Sang Eon

Subjects
Physics - Applied Physics
Abstract

Thin crystalline silicon solar photovoltaics holds great potential for reducing the module price by material saving and increasing the efficiency by reduced bulk recombination loss. However, the module efficiency decreases rather sensitively as the module temperature rises under sunlight. Effective, inexpensive approach to cooling modules would accelerate large-scale market adoption of thin crystalline silicon photovoltaics. For effective cooling, we exploit high flexibility of single-crystalline thin silicon films to create wavy solar cells. These wavy cells possess larger surface area than conventional flat cells, while occupying the same projected area. We experimentally demonstrate that the temperature of thin wavy crystalline silicon solar cells under the sunlight can be significantly reduced by increased convective cooling due to their large surface area. The substantial efficiency gain, achieved by the effective heat removal, points to high-performance thin crystalline silicon photovoltaic systems that are radically different in configuration from conventional systems., Comment: 33 pages, 17 figures

Published
2022

2. Identifying Early Risk Factors for Postoperative Pulmonary Complications in Cardiac Surgery Patients

Author

Kaspars Setlers, Anastasija Jurcenko, Baiba Arklina, Ligita Zvaigzne, Olegs Sabelnikovs, Peteris Stradins, and Eva Strike

Subjects
postoperative pulmonary complications (PPCs), cardiac surgery, pleural effusion, risk factors, hypoalbuminemia, Medicine (General), R5-920
Abstract

Background and Objectives: Postoperative pulmonary complications (PPCs) are common in patients who undergo cardiac surgery and are widely acknowledged as significant contributors to increased morbidity, mortality rates, prolonged hospital stays, and healthcare costs. Clinical manifestations of PPCs can vary from mild to severe symptoms, with different radiological findings and varying incidence. Detecting early signs and identifying influencing factors of PPCs is essential to prevent patients from further complications. Our study aimed to determine the frequency, types, and risk factors significant for each PPC on the first postoperative day. The main goal of this study was to identify the incidence of pleural effusion (right-sided, left-sided, or bilateral), atelectasis, pulmonary edema, and pneumothorax as well as detect specific factors related to its development. Materials and Methods: This study was a retrospective single-center trial. It involved 314 adult patients scheduled for elective open-heart surgery under CPB. Results: Of the 314 patients reviewed, 42% developed PPCs within 12 h post-surgery. Up to 60.6% experienced one PPC, while 35.6% developed two PPCs. Pleural effusion was the most frequently observed complication in 89 patients. Left-sided effusion was the most common, presenting in 45 cases. Regression analysis showed a significant association between left-sided pleural effusion development and moderate hypoalbuminemia. Valve surgery was associated with reduced risk for left-sided effusion. Independent parameters for bilateral effusion include increased urine output and longer ICU stays. Higher BMI was inversely related to the risk of pulmonary edema. Conclusions: At least one PPC developed in almost half of the patients. Left-sided pleural effusion was the most common PPC, with hypoalbuminemia as a risk factor for effusion development. Atelectasis was the second most common. Bilateral effusion was the third most common PPC, significantly related to increased urine output. BMI was an independent risk factor for pulmonary edema development.

Published
2024
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3. Surgical Treatment of Hepatocellular Carcinoma with a Tumor Thrombus Invading the Right Atrium: A Case Report

Author

Laura Veinberga, Kristians Meidrops, Roberts Rumba, Marcis Gedins, Deniss Anufrijevs, Janis Vilmanis, Karina Drizlionoka, Edgars Zellans, Inguna Krustina, Juris Berzins, Inese Briede, Armands Sivins, Maija Radzina, Peteris Stradins, and Arturs Ozolins

Subjects
Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282
Abstract

Up to 3% of all hepatocellular carcinomas (HCCs) present with a tumor thrombus (TT) in the inferior vena cava (IVC) and right atrium (RA). Extensive growth of HCC into the IVC and the RA is associated with a particularly poor prognosis. This clinical condition is related to a high risk of sudden death due to pulmonary embolism or acute heart failure. Therefore, a technically challenging treatment undergoing hepatectomy and cavo-atrial thrombectomy is necessary. We report a 61-year-old man presenting with right subcostal pain, progressive weakness, and periodic shortness of breath for 3 months. He was diagnosed with advanced HCC with a TT extending from the right hepatic vein into the IVC and RA. A multidisciplinary meeting with cardiovascular and hepatobiliary surgeons, oncologists, cardiologists, anesthesiologists, and radiologists was held to determine the best treatment approach. Initially, the patient underwent right hemihepatectomy. As follows, the cardiovascular stage using cardiopulmonary bypass was successfully performed, removing the TT from the RA and ICV. In the early postoperative period, the patient remained stable and was discharged on the 8th postoperative day. A morphological examination revealed grade 2/3 HCC, a clear cell variant with microvascular and macrovascular invasion. Immunohistochemical staining was positive for HEP-1, CD10, whereas negative for S100. The morphological and immunohistochemical results corresponded to HCC. The treatment of such patients requires the cooperation of various specialties. Although the approach of the surgery is extremely complex including specific technical support, as well as high perioperative risks, the result offers favorable clinical outcomes.

Published
2023
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5. Enhanced Interfacial Stability of Si Anodes for Li-Ion Batteries via Surface SiO2 Coating

Author

Schnabel, Manuel, Arca, Elisabetta, Ha, Yeyoung, Stetson, Caleb, Teeter, Glenn, Han, Sang-Don, and Stradins, Paul

Subjects
silicon anode, silicon oxide, lithiation, lithium-ion battery, solid electrolyte interphase, carbonate electrolyte, interface, electrolyte reduction
Abstract

Silicon is a promising alloying anode for lithium-ion batteries because of its high capacity and low cost. However, its use has been hampered by mechanical failure arising from the large volume change upon cycling and by an insufficiently stable solid electrolyte interphase (SEI). SEI formation depends on the Si surface, which is often an oxide (SiOx). In this study we compare three different Si surfaces using Si wafers: 1.3 nm native SiOx, 1.4 nm thermally grown SiO2, and a SiOx-free surface. The oxide-free surface showed the worst electrochemical performance, never exceeding 94% Coulombic efficiency (CE). It also exhibited the thickest SEI and the highest overpotential for lithiation, which correlated with uninhibited electrolyte reduction and the incorporation of P-F species into the SEI. The oxide-coated surfaces performed significantly better, demonstrating a CE above 99% beyond the second cycle, low overpotential for lithiation, and a thinner and more stable SEI. The oxides lower the onset potential for electrolyte reduction and yield an SEI with fewer P-F species. However, it was found that the CE with the native oxide surface decays from the fifth cycle onward and correlates with a resurgence of electrolyte reduction. A 1-2 nm thermal SiO2 coating is optimum for achieving a stable SEI that minimizes side reactions and sustains efficient cycling.

Published
2020

6. Understanding Bartonella-Associated Infective Endocarditis: Examining Heart Valve and Vegetation Appearance and the Role of Neutrophilic Leukocytes

Author

Kristians Meidrops, Valerija Groma, Niks Ricards Goldins, Lauma Apine, Sandra Skuja, Simons Svirskis, Dita Gudra, Davids Fridmanis, and Peteris Stradins

Subjects
infective endocarditis, cardiac valves, vegetation, neutrophils, neutrophil extracellular traps, Bartonella spp., Cytology, QH573-671
Abstract

Background. The endocardium and cardiac valves undergo severe impact during infective endocarditis (IE), and the formation of vegetation places IE patients at a heightened risk of embolic complications and mortality. The relevant literature indicates that 50% of IE cases exhibit structurally normal cardiac valves, with no preceding history of heart valve disease. Gram-positive cocci emerge as the predominant causative microorganisms in IE, while Gram-negative Bartonella spp., persisting in the endothelium, follow pathogenic pathways distinct from those of typical IE-causing agents. Employing clinical as well as advanced microbiological and molecular assays facilitated the identification of causative pathogens, and various morphological methods were applied to evaluate heart valve damage, shedding light on the role of neutrophilic leukocytes in host defense. In this research, the immunohistochemical analysis of neutrophilic leukocyte activation markers such as myeloperoxidase, neutrophil elastase, calprotectin, and histone H3, was performed. A distinct difference in the expression patterns of these markers was observed when comparing Bartonella spp.-caused and non-Bartonella spp.-caused IE. The markers exhibited significantly higher expression in non-Bartonella spp.-caused IE compared to Bartonella spp.-caused IE, and they were more prevalent in vegetation than in the valvular leaflets. Notably, the expression of these markers in all IE cases significantly differed from that in control samples. Furthermore, we advocated the use of 16S rRNA Next-Generation Sequencing on excised heart valves as an effective diagnostic tool for IE, particularly in cases where blood cultures yielded negative results. The compelling results achieved in this study regarding the enigmatic nature of Bartonella spp. IE’s pathophysiology contribute significantly to our understanding of the peculiarities of inflammation and immune responses.

Published
2023
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7. Van der Waals metal-semiconductor junction: weak Fermi level pinning enables effective tuning of Schottky barrier

Author

Liu, Yuanyue, Stradins, Paul, and Wei, Su-Huai

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Materials Science
Abstract

Two-dimensional (2D) semiconductors have shown great promise in (opto)electronic applications. However, their developments are limited by a large Schottky barrier (SB) at the metal-semiconductor junction (MSJ), which is difficult to tune by using conventional metals due to the strong Fermi level pinning (FLP) effect. Here we show that, this problem can be overcome by using 2D metals, which are bounded with 2D semiconductors through van der Waals (vdW) interaction. This success relies on a weak FLP at the vdW MSJ, which is attributed to the suppression of metal-induced gap states. Consequently, the SB becomes tunable and can vanish with proper 2D metals (e.g. H-NbS2). This work not only offers new insights into the fundamental properties of heterojunctions, but also uncovers great potential of 2D metals in device applications.

Published
2016
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8. Air passivation of chalcogen vacancies in two-dimensional semiconductors

Author

Liu, Yuanyue, Stradins, Pauls, and Wei, Su-Huai

Subjects
Condensed Matter - Materials Science
Abstract

Defects play important roles in semiconductors (SCs). Unlike those in bulk SCs, defects in two-dimensional (2D) SCs are exposed to the surrounding environment, which can potentially modify their properties/functions. Air is a common environment; yet its impact on the defects in 2D SCs still remains elusive. In this work, we unravel the interaction between air and chalcogen vacancies (VX)-the most typical defects in 2D SCs. We find that, although the interaction is weak for most molecules in air, O2 can be chemisorbed at VX with a barrier that correlates with the SC cohesive energy and can be overcame even at room temperature for certain SCs. Importantly, the chemisorbed O2 changes the VX from commonly-believed harmful carrier-traps to electronically benign sites. This unusual behavior originates from the iso-valence between O2 and X when bonded with metal. Based on these findings, we propose a facile approach to improve the performance of 2D SCs by using air to passivate the defects.

Published
2015
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9. III-V/Si Wafer Bonding Using Transparent, Conductive Oxide Interlayers

Author

Tamboli, Adele C., van Hest, Maikel F. A. M., Steiner, Myles A., Essig, Stephanie, Perl, Emmett E., Norman, Andrew G., Bosco, Nick, and Stradins, Paul

Subjects
Condensed Matter - Materials Science
Abstract

We present a method for low temperature plasma-activated direct wafer bonding of III-V materials to Si using a transparent, conductive indium zinc oxide interlayer. The transparent, conductive oxide (TCO) layer provides excellent optical transmission as well as electrical conduction, suggesting suitability for Si/III-V hybrid devices including Si-based tandem solar cells. For bonding temperatures ranging from 100$^{\circ}$C to 350$^{\circ}$C, Ohmic behavior is observed in the sample stacks, with specific contact resistivity below 1 $\Omega$cm$^2$ for samples bonded at 200$^{\circ}$C. Optical absorption measurements show minimal parasitic light absorption, which is limited by the III-V interlayers necessary for Ohmic contact formation to TCOs. These results are promising for Ga$_{0.5}$In$_{0.5}$P/Si tandem solar cells operating at one sun or low concentration conditions.

Published
2015

10. Comparison of outcome between blood culture positive and negative infective endocarditis patients undergoing cardiac surgery

Author

Kristians Meidrops, Arina Zuravlova, Janis Davis Osipovs, Martins Kalejs, Valerija Groma, Eva Petrosina, Aigars Reinis, Eva Strike, Uga Dumpis, Andrejs Erglis, and Peteris Stradins

Subjects
Infective endocarditis, Blood culture negative, Blood culture positive, Procalcitonin, Intrahospital mortality, Long-term mortality, Surgery, RD1-811, Anesthesiology, RD78.3-87.3
Abstract

Abstract Background Up to 30% or even more of all infective endocarditis (IE) cases are recognized as blood culture negative, meaning that the causative agent is left unidentified. The prompt diagnosis together with the identification of causative microorganism and targeted antibiotic treatment can significantly impact the prognosis of the disease and further patient’s health status. In some studies, blood culture negative endocarditis has been shown to be associated with delayed diagnosis, worse outcome and course of the disease, and a greater number of intra and postoperative complications. Methods We retrospectively analysed the medical records of all patients who underwent cardiac surgery for endocarditis between years 2016 and 2019. The aim of this study was to analyse short and long-term mortality and differences of laboratory, clinical and echocardiography parameters in patients with blood culture positive endocarditis (BCPE) and blood culture negative endocarditis (BCNE) and its possible impact on the clinical outcome. Results In our study population were 114 (55.1%) blood culture positive and 93 (44.9%) blood culture negative cases of infectious endocarditis. The most common pathogens in the blood culture positive IE group were S.aureus in 36 cases (31.6%), Streptococcus spp. in 27 (23.7%), E.faecalis in 24 (21.1%), and other microorganisms in 27 (23.7%). Embolic events were seen in 60 patients (28.9%). In univariate analyses, detection of microorganism, elevated levels of procalcitonin were found to be significantly associated with intrahospital death, however it did not reach statistical significance in multivariate analyses. Among microorganisms, S.aureus was significantly associated with intrahospital death in both univariate and multivariate analyses. Conclusions There are no statistically significant differences between groups of BCPE and BCNE in terms of intrahospital mortality, hospital and ICU stay or 3-year mortality. There were higher levels of procalcitonin in BCPE group, however procalcitonin failed to show independent association with mortality in multivariate analysis. The most common microorganism in the BCPE group was S.aureus. It was associated with independently higher intrahospital mortality when compared to other causative microorganisms.

Published
2021
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11. Successful Bacteriophage-Antibiotic Combination Therapy against Multidrug-Resistant Pseudomonas aeruginosa Left Ventricular Assist Device Driveline Infection

Author

Karlis Racenis, Janis Lacis, Dace Rezevska, Laima Mukane, Aija Vilde, Ints Putnins, Sarah Djebara, Maya Merabishvili, Jean-Paul Pirnay, Marika Kalnina, Aivars Petersons, Peteris Stradins, Sandis Maurins, and Juta Kroica

Subjects
phage therapy, biofilm, LVAD infection, phage resistance, multidrug resistance, case report, Microbiology, QR1-502
Abstract

There is considerable interest in the use of bacteriophages (phages) to treat Pseudomonas aeruginosa infections associated with left ventricular assist devices (LVADs). These infections are often challenging to manage due to high rates of multidrug resistance and biofilm formation, which could potentially be overcome with the use of phages. We report a case of a 54-year-old man with relapsing multidrug-resistant P. aeruginosa LVAD driveline infection, who was treated with a combination of two lytic antipseudomonal phages administered intravenously and locally. Treatment was combined with LVAD driveline repositioning and systemic antibiotic administration, resulting in a successful outcome with clinical cure and eradication of the targeted bacteria. However, laboratory in vitro models showed that phages alone could not eradicate biofilms but could prevent biofilm formation. Phage-resistant bacterial strains evolved in biofilm models and showed decreased susceptibility to the phages used. Further studies are needed to understand the complexity of phage resistance and the interaction of phages and antibiotics. Our results indicate that the combination of phages, antibiotics, and surgical intervention can have great potential in treating LVAD-associated infections. More than 21 months post-treatment, our patient remains cured of the infection.

Published
2023
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12. Diagnosis and treatment of ischemia-producing coronary stenoses improves 5-year survival of patients undergoing major vascular surgery.

Author

Krievins, Dainis K., Zellans, Edgars, Latkovskis, Gustavs, Kumsars, Indulis, Krievina, Agate K., Jegere, Sanda, Erglis, Andrejs, Lacis, Aigars, Plopa, Erika, Stradins, Peteris, Ivanova, Patricija, and Zarins, Christopher K.

Abstract

Patients undergoing vascular surgery procedures have poor long-term survival due to coexisting coronary artery disease (CAD), which is often asymptomatic, undiagnosed, and undertreated. We sought to determine whether preoperative diagnosis of asymptomatic (silent) coronary ischemia using coronary computed tomography (CT)-derived fractional flow reserve (FFR CT) together with postoperative ischemia-targeted coronary revascularization can reduce adverse cardiac events and improve long-term survival following major vascular surgery In this observational cohort study of 522 patients with no known CAD undergoing elective carotid, peripheral, or aneurysm surgery we compared two groups of patients. Group I included 288 patients enrolled in a prospective Institutional Review Board-approved study of preoperative coronary CT angiography (CTA) and FFR CT testing to detect silent coronary ischemia with selective postoperative coronary revascularization in addition to best medical therapy (BMT) (FFR CT guided), and Group II included 234 matched controls with standard preoperative cardiac evaluation and postoperative BMT alone with no elective coronary revascularization (Usual Care). In the FFR CT group, lesion-specific coronary ischemia was defined as FFR CT ≤0.80 distal to a coronary stenosis, with severe ischemia defined as FFR CT ≤0.75. Results were available for patient management decisions. Endpoints included all-cause death, cardiovascular death, myocardial infarction (MI), and major adverse cardiovascular events (MACE [death, MI, or stroke]) during 5-year follow-up. The two groups were similar in age, gender, and comorbidities. In FFR CT , 65% of patients had asymptomatic lesion-specific coronary ischemia, with severe ischemia in 52%, multivessel ischemia in 36% and left main ischemia in 8%. The status of coronary ischemia was unknown in Usual Care. Vascular surgery was performed as planned in both cohorts with no difference in 30-day mortality. In FFR CT , elective ischemia-targeted coronary revascularization was performed in 103 patients 1 to 3 months following surgery. Usual Care had no elective postoperative coronary revascularizations. At 5 years, compared with Usual Care, FFR CT guided had fewer all-cause deaths (16% vs 36%; hazard ratio [HR], 0.37; 95% confidence interval [CI], 0.22-0.60; P <.001), fewer cardiovascular deaths (4% vs 21%; HR, 0.11; 95% CI, 0.04-0.33; P <.001), fewer MIs (4% vs 24%; HR, 0.13; 95% CI, 0.05-0.33; P <.001), and fewer MACE (20% vs 47%; HR, 0.36; 95% CI, 0.23-0.56; P <.001). Five-year survival was 84% in FFR CT compared with 64% in Usual Care (P <.001). Diagnosis of silent coronary ischemia with ischemia-targeted coronary revascularization in addition to BMT following major vascular surgery was associated with fewer adverse cardiovascular events and improved 5-year survival compared with patients treated with BMT alone as per current guidelines. [Display omitted] [ABSTRACT FROM AUTHOR]

Published
2024
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13. Four-Year Outcomes of Left Main Percutaneous Coronary Intervention with a Bioresorbable Scaffold in the Circumflex Ostium

Author

Andrejs Erglis, Inga Narbute, Dace Sondore, Sanda Jegere, Indulis Kumsars, Andis Dombrovskis, Karlis Grikis, Ieva Briede, Kristine Dombrovska, Karlis Trusinskis, Alona Grave, Martins Erglis, Martins Kalejs, Peteris Stradins, and Uldis Strazdins

Subjects
Diseases of the circulatory (Cardiovascular) system, RC666-701
Abstract

Objectives. The study aimed to investigate the long-term outcomes of a double stent scaffold strategy in patients with left main (LM) bifurcation lesions involving the ostium of the left circumflex artery (LCX), utilizing a drug-eluting stent (DES) in the LM extending into the left anterior descending artery (LAD) and a bioresorbable vascular scaffold (BVS) in the LCX ostium. Background. The high occurrence of in-stent restenosis of the LCX ostium is the major limitation of percutaneous coronary intervention (PCI) for LM lesions with a two-stent strategy. Methods. This was a single-center, prospective, single-arm study of 46 consecutively enrolled patients with a stable coronary artery disease and significant unprotected LM distal bifurcation disease. Patients underwent imaging-guided PCI using DES in the LM-LAD and BVS in the LCX using a T-stent or mini-crush technique. The primary outcome at four years was the composite of death, myocardial infarction, stroke, and target lesion revascularization (TLR). Results. At four years, the primary outcome was identified in 9 patients (19.6%). All events were TLRs except one myocardial infarction due to BVS thrombosis. Seven of the eight TLRs were a result of side branch BVS restenosis. Univariate predictors of the 4-year outcome were higher LDL cholesterol and BVS size ≤2.5 mm. On multivariate analysis, LCX lesion preparation with a cutting balloon and post-procedure use of intravascular ultrasound for optimization were found to be independent protective factors of MACE. Conclusions. In selected patients with LM distal bifurcation disease, an imaging-guided double stent scaffold strategy with DES in the LM and BVS in the LCX ostium was technically successful in all patients and was reasonably safe and effective for four years.

Published
2022
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16. A randomized, controlled trial of Veriset™ hemostatic patch in halting cardiovascular bleeding

Author

Glineur D, Hendrikx M, Krievins D, Stradins P, Voss B, Waldow T, Haenen L, Oberhoffer M, and Ritchie CM

Subjects
surgical bleeding, cardiac surgery, aortic valve replacement, CABG, Medical technology, R855-855.5
Abstract

David Glineur,1 Marc Hendrikx,2 Dainis Krievins,3 Peteris Stradins,3 Bernhard Voss,4 Thomas Waldow,5 Luc Haenen,6 Martin Oberhoffer,7 Caroline M Ritchie8 1Saint Luc Cliniques Universitaires, Brussels, Belgium; 2Faculty of Medicine and Life Sciences, Jessa Hospital, Hasselt University, Hasselt, Belgium; 3Pauls Stradins Clinical University Hospital, Riga, Latvia; 4German Heart Center Munich, Department of Cardiovascular Surgery, Technische Universität München, Munich, Germany; 5Heart Center Dresden GmbH, University Hospital Dresden, Dresden, Germany; 6Imelda Hospital, Bonheiden, Belgium; 7Asklepios Klinik St. Georg, Herzchirurgische Abteilung, Hamburg, Germany; 8Covidien, Medical Affairs, Bedford, MA, USA Background: Obtaining hemostasis during cardiovascular procedures can be a challenge, particularly around areas with a complex geometry or that are difficult to access. While several topical hemostats are currently on the market, most have caveats that limit their use in certain clinical scenarios such as pulsatile arterial bleeding. The aim of this study was to assess the effectiveness and safety of Veriset™ hemostatic patch in treating cardiovascular bleeding.Methods: Patients (N=90) scheduled for cardiac or vascular surgery at 12 European institutions were randomized 1:1 to treatment with either Veriset™ hemostatic patch (investigational device) or TachoSil® (control). After application of the hemostat, according to manufacturer instructions for use, time to hemostasis was monitored. Follow-up occurred up to 90 days post-surgery. Results: Median time to hemostasis was 1.5 min with Veriset™ hemostatic patch, compared to 3.0 min with TachoSil® (p

Published
2018

19. Lead-Related Infective Endocarditis in Latvia: A Single Centre Experience

Author

Nikolajs Nesterovics, Georgijs Nesterovics, Peteris Stradins, Martins Kalejs, Janis Ansabergs, Maris Blumbergs, Aija Maca, Ginta Kamzola, Aivars Lejnieks, Oskars Kalejs, and Andrejs Erglis

Subjects
lead-related infective endocarditis, cardiac implantable electronic devices, cardiac device infection, CIED complication, LRIE mortality, Medicine (General), R5-920
Abstract

Background and Objectives: Over the last five decades cardiac implantable electronic devices (CIED) have become established as the mainstay for the treatment of permanent bradycardias, chronic heart failure and dangerous heart rhythm disturbances. These devices improve survival and quality of life in many patients. However, infections associated with CIED implantation, particularly lead-related infective endocarditis (LRIE), can offset all benefits and make more harm than good for the patient. To date, there are no other studies in Latvia, addressing patients with lead-related infective endocarditis. The objective of this study was to identify the most common pathogens associated with LRIE and their antimicrobial resistance and to identify possible risk factors of patients who present with LRIE. Materials and Methods: The study was performed retrospectively at Pauls Stradins Clinical University Hospital (PSCUH). The study included patients who were referred to PSCUH due to LRIE for lead extraction. Patients were identified from procedural journals. Information about isolated microorganisms, patient comorbidities and visual diagnostics data was taken from patient records. Results: Forty-nine patients with CIED related infective endocarditis were included in the study, 34 (69.4%) were male, median age of all patients was 65.0 (50.5−73.0) years, median hospital stay was 15.5 (22.0−30.5) days. Successful and complete lead extraction was achieved in all patients. Thirty-two (65.3%) had received antibiotics prior to blood sample. Only in 31 (63.3%) positive culture results were seen. The most common isolated pathogens were Staphylococcus aureus (23.5%) and coagulase negative staphylococci (23.5%). Other bacteria were isolated considerably less often. The atrial lead was most common location for lead vegetations, seen in 50.0% of cases. Five (10.2%) patients have died due to the disease. Conclusions: Lead-related infective endocarditis is a major complication of cardiac implantable electronic devices with considerable morbidity and mortality, which in our study was as high as 10.2%.

Published
2019
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23. The fusion of tissue spheroids attached to pre-stretched electrospun polyurethane scaffolds

Author

Vince Beachley, Vladimir Kasyanov, Agnes Nagy-Mehesz, Russell Norris, Iveta Ozolanta, Martins Kalejs, Peteris Stradins, Leandra Baptista, Karina da Silva, Jose Grainjero, Xuejun Wen, and Vladimir Mironov

Subjects
Biochemistry, QD415-436
Abstract

Effective cell invasion into thick electrospun biomimetic scaffolds is an unsolved problem. One possible strategy to biofabricate tissue constructs of desirable thickness and material properties without the need for cell invasion is to use thin (

Published
2014
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25. Effects of Plasma Etching on Dopant Compensation between p- and n-Type Poly-Si Fingers in Passivated Interdigitated Back Contact Solar Cells

Author

Hartenstein, M.B., Harvey, S., Nemeth, W., LaSalvia, V., Page, M., Young, D.L., Agarwal, S., and Stradins, P.

Subjects
Manufacturing & Production of Si Cells, Silicon Materials and Cells
Abstract

38th European Photovoltaic Solar Energy Conference and Exhibition; 115-118, Efficiencies surpassing 26% have been achieved for single-junction Si solar cells based on the interdigitated back contact (IBC) architecture. However, the possibility of lateral shunting between the doped fingers has limited industrial adoption thus far. To avoid this possibility of shunt, complicated patterning techniques of the doped rear fingers have been developed, but spreading can still occur through multiple pathways during cell processing. Patterning can be simplified by using masked plasma-enhanced chemical vapor deposition (PECVD), but spreading during deposition will also lead to contamination of the isolation region between doped fingers. We significantly reduce the effect of this spreading through a short, gentle plasma etching step, which enables a trap-assisted compensation mechanism to take effect more easily than without the plasma etch. These two effects combined allow for the use of a simple patterning technique while still maintaining a highly resistive region between the doped fingers, and will reduce the complexity of IBC cell fabrication overall.

Published
2021
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26. Novel Poly-Si:Ga/SiOx Passivating Contacts through Non-Equilibrium Doping

Author

Chen, K., Napolitani, E., De Tullio, M., Jiang, C.-S., Theingi, S., Nemeth, W., Page, M., Stradins, P., Agarwal, S., and Young, D.L.

Subjects
High Temperature Route for Si Cells, Silicon Materials and Cells
Abstract

38th European Photovoltaic Solar Energy Conference and Exhibition; 144-146, Poly-Si/SiOx passivating contacts are one of the key enablers for high-efficiency, low-cost c-Si solar cells. In recent years, record devices have reached efficiencies of 26% in the laboratory and 25% in the industry. The current cell structure utilizing a tunneling oxide passivating contact structure with a back phosphorus-doped poly- Si/SiOx passivating contact and a front boron diffused emitter suffers from large emitter recombination. Thus, replacing the front B diffused emitter with a p-type passivating contact is a route to overcome this deficiency. This gives rise to front/back poly-Si based passivating contacts. To address the low passivation performance of the B-doped poly-Si passivating contacts, we replace B with Ga as a novel p-type dopant to avoid dopant accumulation in the tunneling oxide, which is known to lead to large degradation loss in passivation quality. Here, we introduce a non-equilibrium method via pulsed laser melting to thermally melt and recrystallize the poly-Si and redistribute the dopants, achieving doping concentrations above the solid solubility limit (~4E19 cm-3). We demonstrate a good passivation quality with an iVoc of 721 mV with an active Ga doping concentration in poly-Si >1020 cm-3. Furthermore, we show a low contact resistivity of 33.2 ± 9.3 mΩ∙ cm2 using a diode model calculation. Finally, cross-section scanning spreading resistance microscopy was performed to determine the resistance profile across the non-homogeneously doped poly-Si layer.

Published
2021
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33. Revealing the Nano-Scale Structure and Properties of Pinholes in SiOx Layers for POLO Contacts

Author

Guthrey, H., Kale, A.S., Lima Salles De Souza, C., Nemeth, W., Page, M., Agarwal, S., Young, D., Al-Jassim, M.M., and Stradins, P.

Subjects
Characterisation & Simulation of Si Cells, Silicon Materials and Cells
Abstract

37th European Photovoltaic Solar Energy Conference and Exhibition; 340-342, In this contribution, we report on the charge collection characteristics of silicon photovoltaic devices with passivated contacts based on the c-Si/SiOx/poly-Si structure. Using electron-beam induced current (EBIC) imaging in plan-view and cross-section orientations, we find that charge collection in a device with a 1.5-nm-thick SiOx layer is fairly uniform in the p-n junction region and does not appear to be influenced by pyramidal surface texture. In contrast, a device with a 2.2-nm-thick oxide layer shows significant spatial variation in the charge-collection signal. The locations where we observe preferential collection of excess carriers is very sensitive to the processing conditions used to grow and breakup the SiOx passivation layer. In some cases the apexes of the pyramids exhibit reduced EBIC signal as the valleys between adjacent pyramids show the strongest collection. Other conditions yield enhanced charge collection at well defined spots on pyramid faces with no observable collection in the valleys.

Published
2020
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34. Enhanced Interfacial Stability of Si Anodes for Li-Ion Batteries via Surface SiO2Coating

Author

Schnabel, M, Schnabel, M, Arca, E, Ha, Y, Stetson, C, Teeter, G, Han, SD, Stradins, P, Schnabel, M, Schnabel, M, Arca, E, Ha, Y, Stetson, C, Teeter, G, Han, SD, and Stradins, P

Abstract

Silicon is a promising alloying anode for lithium-ion batteries because of its high capacity and low cost. However, its use has been hampered by mechanical failure arising from the large volume change upon cycling and by an insufficiently stable solid electrolyte interphase (SEI). SEI formation depends on the Si surface, which is often an oxide (SiOx). In this study we compare three different Si surfaces using Si wafers: 1.3 nm native SiOx, 1.4 nm thermally grown SiO2, and a SiOx-free surface. The oxide-free surface showed the worst electrochemical performance, never exceeding 94% Coulombic efficiency (CE). It also exhibited the thickest SEI and the highest overpotential for lithiation, which correlated with uninhibited electrolyte reduction and the incorporation of P-F species into the SEI. The oxide-coated surfaces performed significantly better, demonstrating a CE above 99% beyond the second cycle, low overpotential for lithiation, and a thinner and more stable SEI. The oxides lower the onset potential for electrolyte reduction and yield an SEI with fewer P-F species. However, it was found that the CE with the native oxide surface decays from the fifth cycle onward and correlates with a resurgence of electrolyte reduction. A 1-2 nm thermal SiO2 coating is optimum for achieving a stable SEI that minimizes side reactions and sustains efficient cycling.

Published
2020

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