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1. Enhanced Thermoelectric Transport Properties in Cu-added Bi2Se3 Polycrystalline Alloys

Author

Hyungyu Cho, TaeWan Kim, Seung Min Kang, Sanghyun Park, and Sang-il Kim

Subjects
Modeling and Simulation, Metals and Alloys, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials
Abstract

The addition of Cu to layered Bi2Te3-based thermoelectric alloys has been studied as an effective way to enhance thermoelectric transport properties. In this study, the influence of adding Cu to Bi2Se3 alloys, which have the same rhombohedral crystal structure as Bi2Te3, was investigated by synthesizing a series of CuxBi2Se3 (x = 0, 0.004, 0.008, 0.012, and 0.016) alloys. The power factors of all the Cu-added samples were enhanced compared with that of the pristine Bi2Se3 sample, primarily because of the increase in electrical conductivity. The power factor for the Cu0.016Bi2Se3 sample (x = 0.016) was 0.80 mW/mK2, a 35% increase compared to 0.59 mW/mK2 for the pristine sample at 520 K. A decrease in the total and lattice thermal conductivity was observed for the Cu-added samples, caused by additional point defect scattering after doping. The lattice thermal conductivity of the Cu0.016Bi2Se3 sample (x = 0.016) was 0.56 W/mK, a 42% reduction. Consequently, the zT values of all the Cu-added samples were enhanced, and the maximum zT value was 0.38 for the Cu0.016Bi2Se3 sample (x = 0.016) at 520 K, a 48% increase compared to that of pristine Bi2Se3. The phenomenological transport parameters, including density of state, effective mass, weighted mobility, and thermoelectric quality factor, were calculated to analyze the enhanced electronic transport properties of the Cu-added Bi2Se3.

Published
2023
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3. The Mechanism behind the High Thermoelectric Performance in YbCd2-xMgxSb2

Author

Seung-Hwan Kwon, Sang-il Kim, Minsu Heo, Won-Seon Seo, Jong Wook Roh, Heesun Yang, and Hyun-Sik Kim

Subjects
Modeling and Simulation, Metals and Alloys, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials
Abstract

YbCd2Sb2 is a promising Zintl compound for waste heat recovery applications due to its low thermal conductivity, originating from its complex crystal structure. Many strategies such as alloying or doping have been suggested to further reduce the thermal conductivity of YbCd2Sb2 to improve its thermoelectric performance. However, the effects of alloying or doping on the electronic transport properties of YbCd2Sb2 have not been evaluated in detail. Here, previously reported thermoelectric properties of YbCd2-xMgxSb2 (x = 0, 0.2, 0.4) with drastic thermal conductivity suppression were evaluated using the Single Parabolic Band (SPB) model and Callaway von Bayer (CvB) model. The SPB and CvB models evaluate any changes in electronic band parameters and phonon scattering strength, respectively, due to Mg alloying. Based on the SPB model, Mg alloying deteriorated the weighted mobility, mostly due to non-degenerate mobility reduction. However, the magnitude of point-defect phonon scattering significantly increased with Mg alloying, as evaluated by the CvB model. As a result, the maximum zT is achieved when x = 0.4 at 700 K despite the decreased electronic transport properties from Mg alloying. Our work suggests that carefully designed alloying can improve the thermoelectric performance of the Zintl compound even when it changes its electronic and thermal transport properties in opposite directions.

Published
2023
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4. Electrical, Thermal, and Thermoelectric Transport Properties of Co-Doped n-type Cu0.008Bi2Te2.6Se0.4 Polycrystalline Alloys

Author

Okmin Park, TaeWan Kim, Minsu Heo, Sang Jeong Park, Se Woong Lee, Hyun Kyu Cho, and Sang-il Kim

Subjects
Modeling and Simulation, Metals and Alloys, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials
Abstract

Bi2Te3-based alloys have been extensively studied as thermoelectric materials near room temperature. In this study, the electrical, thermal, and thermoelectric transport properties of a series of Co-doped n-type Cu0.008Bi2Te2.6Se0.4 polycrystalline alloys (Cu0.008Bi2−xCoxTe2.6Se0.4, x = 0, 0.03, 0.06, 0.09 and 0.12) are investigated. The electrical conductivity of the Cu0.008Bi1.97Co0.03Te2.6Se0.4 (x = 0.03) sample was significantly enhanced, by 34%, to 1199 S/cm compared to 793 S/cm of the pristine Cu0.008Bi2Te2.6Se0.4 (x = 0) sample at 300 K, and gradually decreased to 906 S/cm for x = 0.12 upon further doping. Power factors of the Co-doped samples decreased compared to the 3.26 mW/mK2 of the pristine Cu0.008Bi2Te2.6Se0.4 sample at 300 K. Meanwhile, the power factor of the Cu0.008Bi1.97Co0.03Te2.6Se0.4 (x = 0.03) sample became higher at 520 K. The lattice thermal conductivities of the Co-doped samples decreased due to additional point defect phonon scattering by the Co dopant. Consequently, the zT for the Cu0.008Bi1.97Co0.03Te2.6Se0.4 alloy at 520 K was 0.83, which is approximately 15% larger than that of pristine Cu0.008Bi2Te2.6Se0.4, while the zT of the Cu doped samples at 300 K was smaller than that of the pristine Cu0.008Bi2Te2.6Se0.4 sample. Electrical transport properties of the Co-doped Cu0.008Bi2−xCoxTe2.6Se0.4 samples were analyzed by experimental phenomenological parameters, including the density-of-state, effective mass, weighted mobility, and quality factor.

Published
2023
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5. Effects of bone cement augmentation for uppermost instrumented vertebra on adjacent disc segment degeneration in lumbar fusions

Author

Jae-Won, Lee, Hun-Chul, Kim, Sang-Il, Kim, Hyung-Ki, Min, Kee-Yong, Ha, Hyung-Youl, Park, Chang-Hee, Cho, Hoon-Seok, Sung, Jae-Hak, Lim, and Young-Hoon, Kim

Subjects
Surgery, Neurology (clinical)
Abstract

Retrospective cohort study OBJECTIVE: To investigate the long-term effects of bone cement-augmented instrumentation in multilevel lumbar fusions SUMMARY OF BACKGROUND DATA: Cement-augmented screw is one of the techniques used to reduce early mechanical failure in multilevel lumbar fusion, especially in the elderly. However, there is little information regarding the long-term effects.Fifty one patients who underwent three or more levels of lumbar fusion were divided into two groups according to bone cement-augmented screw fixation involving the upper instrumented vertebra (UIV): 22 patients (cemented group, group I) and 29 patients (non-cemented group, group II). The analysis of radiographic adjacent segment degeneration (ASD) involved patients with lumbosacral fusion showing a similar degree of osteoporosis. Radiologic ASD was defined as more than two UCLA grades of progression at 2 years postoperatively. Other sagittal parameters were analyzed and preoperative MR Pfirrmann grades for adjacent level, probably related to ASD.Even when no significant differences existed in preoperative demographic and radiographic parameters between the two groups, the postoperative kyphotic changes at 3 months were higher in the non-cemented group. In terms of long-term effects, radiologic ASD (20 patients (95.2%) in group I; 15 (53.6%) in group II) was significantly higher in the cemented group. Logistic regression analysis of radiologic ASD including other clinical and radiological parameters, postoperative PI-LL mismatch (OR 5.201, 95% CI 1.123-24.090, p = 0.035) and cement augmentation (OR 20.193, 95% CI 2.195-185.729, p = 0.008) showed a significant correlation with the development of radiologic ASD at postoperative 2 years.Although bone cement-augmented screw implantation can prevent kyphotic deformation at the proximal junction of UIV in early postoperative stages of multi-level lumbar fusion, a discreet selection of patients is required due to possible accelerated degeneration of adjacent segments.

Published
2023
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7. Estimation of Temperature-Dependent Band Parameters for Bi-Doped SnSe with High Thermoelectric Performance

Author

Hyunjin Park, Sang-il Kim, Jeong-Yeon Kim, Seong-Mee Hwang, and Hyun-Sik Kim

Subjects
B-factor, Materials Science (miscellaneous), Ceramics and Composites, thermoelectric, weighted mobility, SnSe, single parabolic band model
Abstract

Recent studies have revealed the outstanding thermoelectric performance of Bi-doped n-type SnSe. In this regard, we analyzed the band parameters for Sn1−xBixSe (x = 0.00, 0.02, 0.04, and 0.06) using simple equations and the Single Parabolic Band model. Bi doping suppresses the carrier-phonon coupling while increasing the density-of-states effective mass. The n-type SnSe is known to have two conduction bands converge near 600 K. Bi doping changes the temperature at which the band convergence occurs. When x = 0.04, its weighted mobility maximized near 500 K, which indicated the possible band convergence. The highest zT of the x = 0.04 sample at mid-temperatures (473–573 K) can be attributed to the engineered band convergence via Bi doping.

Published
2023
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8. Characterization of Electronic Transport Properties of Narrow-Band Gap Fe(Se1-xTex)2 Alloys via the Two-Band Model

Author

Seong-Mee Hwang, Sang-il Kim, Min-Su Heo, Kiyoung Lee, Heesun Yang, Won-Seon Seo, and Hyun-Sik Kim

Subjects
Modeling and Simulation, Metals and Alloys, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials
Abstract

Environmentally sustainable thermoelectric technologies can be more broadly applied in industries once the performance of thermoelectric materials is improved. Several approaches have been proposed to improve the electronic transport properties of thermoelectric materials. The effects of each approach on the electronic properties can be evaluated by changes in the band parameters. The Single Parabolic Band (SPB) model has been widely used to determine the effect of different materials engineering strategies on band parameters, such as the density-of-states effective mass and deformation potential. However, when the material has a narrow band gap, the Two-Band (TB) model better describes the changes in band parameters, as it includes the bipolar conduction from the minority carrier band. Here, the band parameters of previously reported Fe(Se1-xTex)2 (x/i> = 0, 0.2, 0.6, 0.8, 1) alloys, whose band gap significantly decreases with x/i>, have been estimated using the SPB and TB models. While the x-dependent band parameters obtained via the SPB model varied abruptly with x/i>, all the band parameters estimated by the TB model changed linearly with x/i>. The abruptness observed in the band parameters of the SPB model can be attributed to artifacts reflected in the single band, which occurs when the minority carrier band and band gap change are not included. The bipolar thermal conductivity of Fe(Se1-xTex)2 alloys was also calculated using the TB model, and is understood in terms of changes in the weighted mobility ratio, Hall carrier concentration, and band gap in terms of alloy composition, x/i>.

Published
2023
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9. Optical and Optoelectronic Properties of Bi2Te3, Sb2Te3, and Bi0.5Sb1.5Te3 Flakes

Author

Hyeun Seung Jo, Ju Won Kim, Sang-iL Kim, and TaeWan Kim

Subjects
Modeling and Simulation, Metals and Alloys, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials
Abstract

In this study, a mechanical exfoliation method was developed for the synthesis of high purity Bi2Te3, Sb2Te3, and Bi0.5Sb1.5Te3 flakes. The synthesized Bi2Te3, Sb2Te3, and Bi0.5Sb1.5Te3 flakes were characterized by atomic force microscope, Raman spectroscopy, and photoluminescence (PL). The effect of the thickness of the Bi2Te3, Sb2Te3, and Bi0.5Sb1.5Te3 flakes on PL and Raman spectra was investigated. As the thickness increased in the Bi2Te3 flakes, the out of plane vibration mode (A21g) shows a blue shift. For the thicker Sb2Te3 flakes, the A11g and E2g modes indicated a blue shift and a red shift, respectively. When the thickness of Bi0.5Sb1.5Te3 flakes decreased, the in-plane vibration mode (E2g) shifted to lower frequencies. A new Raman peak has been observed in Bi0.5Sb1.5Te3 flakes, which is not active in the thin films. PL measurements of Bi0.5Sb1.5Te3 flakes with various thickness revealed PL peaks in the range of 2.15 - 2.54 eV at room temperature (300 K). A Bi0.5Sb1.5Te3 flakes-based photodetector exhibited photoresponsivity as high as 661.5 A/W at a 0.02 mW power density with an 1800 nm laser at room temperature (300 K). Compared to the optoelectronic properties of Bi2Te3 flake, a twice higher responsivity at a wavelength of 1800 nm was observed with the Bi0.5Sb1.5Te3 flake-based photodetector.

Published
2023
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10. Approaches to Estimate the Magnitude of Phonon Scattering via Point Defects in Mo(Se1-xTex)2 Thermoelectric Alloys

Author

You-Jong Lee, Sang-il Kim, Seong-Mee Hwang, Jeong-Yeon Kim, Won-Seon Seo, and Hyun-Sik Kim

Subjects
Modeling and Simulation, Metals and Alloys, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials
Abstract

One of the most popular routes used to improve the thermoelectric performance of materials is to suppress their lattice thermal conductivities. Thermoelectric performance is characterized by a figure-of-merit zT, which is defined as σS2T/(κe + κl), where the σ, S, T, κe, and κl are the electrical conductivity, Seebeck coefficient, temperature (in Kelvin), electronic thermal conductivity, and the lattice thermal conductivity, respectively. Among the variables in zT, the κl is the only variable that is independent of all other variables. In other words, reduction in κl guarantees zT improvement. Therefore, several different strategies to decrease κl have been introduced and implemented. Among the many κl reduction strategies, introducing point defects in the material by forming an alloy is particularly effective. Here, phonon scattering due to point defects in Mo(Se1-xTex)2 (x = 0.0, 0.25, 0.50, 0.75, 1.0) was studied using both the Debye-Callaway (DC) model and Callaway-von Baeyer (CvB) model. The advantages and disadvantages of using DC or CvB models are thoroughly discussed. When analyzing the effect of phonon scattering due to point defects, the CvB model is simpler and gives more information about the details of phonon scattering.

Published
2023
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16. Study on the decisive factor for metal–insulator transitions in a LaVO3 Mott–Hubbard insulator

Author

Mohammad Nasir, Inseo Kim, Kimoon Lee, Sang-il Kim, Kyu Hyoung Lee, and Hee Jung Park

Subjects
General Physics and Astronomy, Physical and Theoretical Chemistry
Abstract

The transport behavior in a in LaVO3 Mott–Hubbard system is controlled by the degree of hybridization of the V 3d and O 2p states in the pure and doped systems, strongly associated with structural distortion.

Published
2023
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17. Lumbar Interbody Fusion and Osteobiologics for Lumbar Fusion

Author

Young-Hoon Kim, Kee-Yong Ha, Youn-Soo Kim, Ki-Won Kim, Kee-Won Rhyu, Jong-Beom Park, Jae-Hyuk Shin, Young-Yul Kim, Jun-Seok Lee, Hyung-Youl Park, Jaeryong Ko, and Sang-Il Kim

Subjects
Orthopedics and Sports Medicine, Surgery
Abstract

Lumbar interbody fusion (LIF) is an excellent treatment option for a number of lumbar diseases. LIF can be performed through posterior, transforaminal, anterior, and lateral or oblique approaches. Each technique has its own pearls and pitfalls. Through LIF, segmental stabilization, neural decompression, and deformity correction can be achieved. Minimally invasive surgery has recently gained popularity and each LIF procedure can be performed using minimally invasive techniques to reduce surgery-related complications and improve early postoperative recovery. Despite advances in surgical technology, surgery-related complications after LIF, such as pseudoarthrosis, have not yet been overcome. Although autogenous iliac crest bone graft is the gold standard for spinal fusion, other bone substitutes are available to enhance fusion rate and reduce complications associated with bone harvest. This article reviews the surgical procedures and characteristics of each LIF and the osteobiologics utilized in LIF based on the available evidence.

Published
2022
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20. Transition to n-type Thermoelectric Conduction in Ni-doped FeSe2 Alloys

Author

Young Bin An, Sang Jeong Park, Okmin Park, and Sang-il Kim

Subjects
Modeling and Simulation, Metals and Alloys, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials
Abstract

We investigated the effect of Ni doping on the electrical, thermal, and thermoelectric transport properties of FeSe2 polycrystalline alloys. FeSe2 alloys exhibit both n-type and p-type conduction at different temperatures and thus their practicality as a thermoelectric material is somewhat limited. In this study, Fe1-xNixSe2 polycrystalline samples withx = 0, 0.01, 0.05, 0.075, 0.1, and 0.125 were synthesized, and it was shown that Ni doping in FeSe2 alloys induces n-type conduction in the entire temperature range. The electrical conductivity is gradually increased with an increase in carrier concentration as Ni doping increases, from 8.52 (x = 0) to 329 S/cm (x = 0.125) at 300 K. The maximum power factor of 0.61 mW/mK2 was observed in the Fe1-xNixSe2 sample atx = 0.01 at 600 K. Other Ni-doped samples exhibited power factors between 0.31 and 0.34 mW/mK2 at 600 K. The thermal conductivity gradually decreased from 6.9 (x = 0) to 4.2 W/mK (x = 0.125) with Ni doping because of the additional point-defect phonon scattering of the Ni substitutes. As a result, a zT of 0.11 was observed inx = 0.01 at 600 K, while the zT of the other Ni-doped samples exhibited 0.056-0.069 at 600 K.

Published
2022
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23. Nationwide survey of infection prevention protocols in solid organ transplantation in South Korea

Author

Kyungmin Huh, Su Jin Jeong, Youn Jeong Kim, Ji-Man Kang, Jong Man Kim, Wan Beom Park, Hyung Joon Ahn, Jaeseok Yang, Sang Il Kim, Oh Jung Kwon, Myoung Soo Kim, and Sang-Oh Lee

Subjects
Transplantation, Immunology
Abstract

Infections are a major cause of morbidity, graft failure, and mortality in solid organ transplant recipients. Preventive measures have greatly reduced the burden of posttransplant infections. However, little is known about the practice patterns of infection prevention in South Korea.A questionnaire-based cross-sectional survey was conducted. The questionnaire was developed by a multidisciplinary discussion. From the Korean Network for Organ Sharing data, a list of hospitals that performed kidney, liver, heart, and lung transplantations in 2019 was selected. We invited participants to respond to the questionnaire via email from January to March 2022.The response rates for each organ were as follows; 41% (31/76 hospitals) for kidney, 49% (25/51) for liver, 40% (8/20) for heart, and 89% (8/9) for lung transplantations. The median duration of antibacterial prophylaxis after transplant ranged from 5 to 7 days. Prophylaxis was commonly applied in cytomegalovirus (CMV) D+/R- recipients. For non-lung CMV R+ recipients, a preemptive strategy was the most common method. The duration of viral load monitoring for preemptive or hybrid strategies varied. All lung transplant programs used mold-active antifungal agents for a median of 6 months. An interferon-gamma release assay was most commonly used to screen for latent tuberculosis infections.The infection prevention protocols in most transplant programs in Korea were generally in accordance with the guidelines. However, some variability was observed regarding antibacterial prophylaxis and CMV prevention. Our results provide useful insights into practice patterns and will assist in the development of national guidelines.

Published
2022
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25. Thermoelectric Properties of Si-Doped In2Se3 Polycrystalline Alloys

Author

Okmin Park, Se Woong Lee, and Sang-il Kim

Subjects
thermoelectric, indium selenide, In2Se3, doping, Materials Science (miscellaneous), Ceramics and Composites
Abstract

Post-metal chalcogenides, including InSe, In2Se3, and In4Se3, have attracted considerable attention as potential thermoelectric materials because of their intrinsically low thermal conductivity, which is attributed to their layered structure with weak van der Waals bonds. In this study, we examined the electrical and thermoelectric properties of Si-doped In2Se3 (In2−xSixSe3, x = 0, 0.005, 0.01, 0.015, and 0.02) polycrystalline samples. Hexagonal α(2H)-In2Se3 phase was synthesized without any impurity, and gradual changes in the lattice parameters were observed with Si doping. Drastic changes were observed for the measured electrical and thermal transport properties at 450–500 K, due to the phase transition from α to β at 473 K. The highest power factors were achieved by the sample with x = 0.015 for both α and β phases, exhibiting the values of 0.137 and 0.0884 mW/mK2 at 450 and 750 K, respectively. The total thermal conductivities of the α phase samples decreased gradually with increasing Si doping content, which is attributed to the point defect phonon scattering by Si doping. The total thermal conductivities of the β phase samples significantly decreased compared to those of the α phase samples. Therefore, the sample with x = 0.015 (In1.985Si0.015Se3) showed the maximum thermoelectric figure of merit values of 0.100 and 0.154 at 450 and 750 K, which are enhanced by 152 and 48% compared with those of the undoped α- and β-In2Se3 samples, respectively.

Published
2022
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30. Effect of characteristics on the clinical course at the initiation of treatment for human immunodeficiency virus infection using dimensionality reduction

Author

Yunsu Choi, Bo Youl Choi, Sang Il Kim, Jungsoon Choi, Jieun Kim, Bo Young Park, Soo Min Kim, Shin-Woo Kim, Jun Yong Choi, Joon Young Song, Youn Jeong Kim, Hyo Youl Kim, Jin-Soo Lee, Jung Ho Kim, Yoon Hee Jun, Myungsun Lee, and Jaehyun Seong

Subjects
Multidisciplinary
Abstract

The beginning of human immunodeficiency virus (HIV) infection treatment depends on various factors, which are significantly correlated with the initial CD4 cell number. However, a covariate correlation between these factors may not reflect the correct outcome variable. Thus, we evaluated the effects of a combination of fixed factors (reduced dimensions), which determine when to start treatment for the first time, on short-term outcome, long-term outcome, and survival, considering correlations between factors. Multiple correspondence analysis was performed on variables obtained from 925 patients who participated in a Korean HIV/acquired immunodeficiency syndrome cohort study (2006–2017). Five reduced dimension groups were derived according to clinical data, viral load, CD4 cell count at diagnosis, initial antiretroviral therapy, and others. The dimension group with high initial viral loads (55,000 copies/mL) and low CD4 cell counts (3) should start treatment promptly after diagnosis. Groups with high initial CD4 cell counts (> 350 cells/mm3) that did not require immediate treatment according to previous guidelines had a higher failure rate for long-term relative CD4 recovery. Our results highlight the importance of early diagnosis and treatment to positively influence long-term disease outcomes, even if the initial immune status is poor, given the patient’s combination of early diagnostic symptoms.

Published
2023
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33. Proximal Junctional Kyphosis in Adult Spinal Deformity: Definition, Classification, Risk Factors, and Prevention Strategies

Author

Hong Jin Kim, Seung Woo Suh, Woojin Cho, Kwang-Sup Song, Jae Hyuk Yang, Se-Il Suk, Jong-Beom Park, Dong-Gune Chang, and Sang Il Kim

Subjects
030222 orthopedics, medicine.medical_specialty, business.industry, Gait Disturbance, Kyphosis, medicine.disease, Surgery, 03 medical and health sciences, 0302 clinical medicine, Radiological weapon, Spinal deformity, Medicine, Orthopedics and Sports Medicine, business, 030217 neurology & neurosurgery
Abstract

Proximal junctional problems are among the potential complications of surgery for adult spinal deformity (ASD) and are associated with higher morbidity and increased rates of revision surgery. The diverse manifestations of proximal junctional problems range from proximal junctional kyphosis (PJK) to proximal junctional failure (PJF). Although there is no universally accepted definition for PJK, the most common is a proximal junctional angle greater than 10° that is at least 10° greater than the preoperative measurement. PJF represents a progression from PJK and is characterized by pain, gait disturbances, and neurological deficits. The risk factors for PJK can be classified according to patient-related, radiological, and surgical factors. Based on an understanding of the modifiable factors that contribute to reducing the risk of PJK, prevention strategies are critical for patients with ASD.

Published
2022
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34. Oncologic safety of minimally invasive surgery in non-endometrioid endometrial cancer

Author

Jung Hwan Ahn, Sang Il Kim, Joo Hee Yoon, Jimin Cha, Sung Jong Lee, Hae Nam Lee, Ji Geun Yoo, and Dong Choon Park

Subjects
education.field_of_study, medicine.medical_specialty, business.industry, Endometrial cancer, Population, Disease, medicine.disease, Endometrial Neoplasms, Surgery, Uterine cancer, Inclusion and exclusion criteria, Invasive surgery, medicine, Humans, Minimally Invasive Surgical Procedures, Female, Stage (cooking), education, business, Contraindication, Neoplasm Staging, Retrospective Studies
Abstract

Objective This study was aimed to compare the oncologic outcomes of patients with non-endometrioid endometrial cancer who underwent minimally invasive surgery with the outcomes of patients who underwent open surgery. Method This is a retrospective, multi-institutional study of patients with non-endometrioid endometrial cancer who were surgically staged by either minimally invasive surgery or open surgery. Oncologic outcomes of the patients were compared according to surgical approach. Results 113 patients met the inclusion and exclusion criteria. 57 underwent minimally invasive surgery and 56 underwent open surgery. Patients who underwent minimally invasive surgery had smaller tumors (median size, 3.3 vs. 5.2%, p = 0.0001) and a lower lymphovascular space invasion rate (29.8% vs. 48.2%, p = 0.045). In the overall population, the numbers and rate of recurrence were significantly higher in the open surgery group (p = 0.016). In multivariate analysis, disease stage and tumor size were associated with DFS in contrast to surgical procedure. Conclusion Minimally invasive surgery showed similar survival outcomes when compared to open surgery in non-endometrioid endometrial cancer patients, irrespective of disease stage. When minimally invasive surgery is managed by expert surgeons, non-endometrioid histological subtypes should not be considered a contraindication for minimally invasive surgery.

Published
2022
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36. Study of Phase Formation Behavior and Electronic Transport Properties in the FeSe2 -FeTe2 System

Author

Okmin Park, TaeWan Kim, Se Woong Lee, Hyun-Sik Kim, Weon Ho Shin, Jamil Ur Rahman, and Sang-il Kim

Subjects
Modeling and Simulation, Metals and Alloys, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials
Abstract

In this study, we investigated the phase formation behavior of the FeSe2-FeTe2 system and the evolution of their thermoelectric transport properties. A series of Fe(Se1-xTex)2(x = 0, 0.2, 0.6, 0.8 and 1) compounds were synthesized by conventional solid-state reaction. Single phase orthorhombic structures were formed, except for FeSe0.4Te1.6(x = 0.2). For FeSe0.4Te1.6(x = 0.2), in which a mixture of FeSe2 and FeTe2-based phases was observed. The electrical conductivity of FeSe2 was as low as 31 S/cm at room temperature, and greatly increased to 1295 S/cm in FeSe0.8Te1.2. Then it decreased to 335 S/cm for FeTe2. It was shown that the bipolar conduction of electrons and holes pronouncedly exists in the sample. For FeSe2 and FeTe2, the Seebeck coefficient was positive at room temperature, becoming negative at high temperatures. For the other samples, the Seebeck coefficient was negative at room temperature and the magnitude of Seebeck coefficient increased with temperature. As results, the maximum power factor of 0.19 mW/mK2 was observed for FeSe0.8Te1.2(x = 0.6) at room temperature mostly due to its high electrical conductivity. The maximum power factor observed at 600 K was 0.34 mW/mK2 for FeSe2 (x = 0) with the largest Seebeck coefficient of -101 µV/K. The Hall carrier concentration was measured and compared, and effective masses were calculated to further investigate electrical transport in the samples.

Published
2022
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45. Are the Choice of Frame and Intraoperative Patient Positioning Associated With Radiologic and Clinical Outcomes in Long-instrumented Lumbar Fusion for Adult Spinal Deformity?

Author

Hyung-Youl, Park, Young-Hoon, Kim, Kee-Yong, Ha, Dong-Gune, Chang, Sang-Il, Kim, and Soo-Bin, Park

Subjects
Adult, Lumbar Vertebrae, Postoperative Complications, Spinal Fusion, Treatment Outcome, Clinical Research, Lordosis, Humans, Orthopedics and Sports Medicine, Surgery, General Medicine, Patient Positioning, Retrospective Studies
Abstract

Previous studies of patient positioning during spinal surgery evaluated intraoperative or immediate postoperative outcomes after short-instrumented lumbar fusion. However, patient positioning during long-instrumented fusion for an adult spinal deformity (ASD) might be associated with differences in intraoperative parameters such as blood loss and longer-term outcomes such as spine alignment, and comparing types of surgical tables in the context of these larger procedures and evaluating longer-term outcome scores seem important.(1) Do blood loss and the number of transfusions differ between patients who underwent multi-level spinal fusion with a Wilson frame and those with a four-poster frame? (2) Does restoration of lumbar lordosis and the sagittal vertical axis differ between patients who underwent surgery with the use of one frame or the other? (3) Do clinical outcomes as determined by Numeric Rating Scale and Oswestry Disability Index scores differ between the two groups of patients? (4) Are there differences in postoperative complications between the two groups?Among 651 patients undergoing thoracolumbar instrumented fusion between 2015 and 2018, 129 patients treated with more than four levels of initial fusion for an ASD were identified. A total of 48% (62 of 129) were eligible; 44% (57 of 129) were excluded because of a history of fusion, three-column osteotomy, or surgical indications other than degenerative deformity, and another 8% (10 of 129) were lost before the minimum 2-year follow-up period. Before January 2017, one surgeon in this study used only a Wilson frame; starting in January 2017, the same surgeon consistently used a four-poster frame. Forty patients had spinal fusion using the Wilson frame; 85% (34 of 40) of these had follow-up at least 2 years postoperatively (mean 44 ± 13 months). Thirty-two patients underwent surgery using the four-poster frame; 88% (28 of 32) of these were available for follow-up at least 2 years later (mean 34 ± 6 months). The groups did not differ in terms of age, gender, BMI, type of deformity, or number of fused levels. Surgical parameters such as blood loss and the total amount of blood transfused were compared between the two groups. Estimated blood loss was measured by the amount of suction drainage and the amount of blood that soaked gauze. The decision to transfuse blood was based on intraoperative hemoglobin values, a protocol that was applied equally to both groups. Radiologic outcomes including sagittal parameters and clinical outcomes such as the Numerical Rating Scale score for back pain (range 0-10; minimal clinically important difference [MCID] 2.9) and leg pain (range 0-10; MCID 2.9) as well as the Oswestry Disability Index score (range 0-100; MCID 15.4) were also assessed through a longitudinally maintained database by two spine surgeons who participated in this study. Repeated-measures analysis of variance was used to compare selected radiologic outcomes between the two groups over time.Blood loss and the total amount of transfused blood were greater in the Wilson frame group than in the four-poster frame group (2019 ± 1213 mL versus 1171 ± 875 mL; mean difference 848 [95% CI 297 to 1399]; p = 0.003 for blood loss; 1706 ± 1003 mL versus 911 ± 651 mL; mean difference 795 [95% CI 353 to 1237]; p = 0.001 for transfusion). Lumbar lordosis and the sagittal vertical axis were less restored in the Wilson frame group than in the four-poster frame group (7° ± 10° versus 18° ± 14°; mean difference -11° [95% -17° to -5°]; p0.001 for lumbar lordosis; -22 ± 31 mm versus -43 ± 27 mm; mean difference 21 [95% CI 5 to 36]; p = 0.009 for the sagittal vertical axis). Such differences persisted at 2 years of follow-up. The proportion of patients with the desired correction was also greater in the four-poster frame group than in the Wilson frame group immediately postoperatively and at 2 years of follow-up (50% versus 21%, respectively; odds ratio 3.9 [95% CI 1.3 to 11.7]; p = 0.02; 43% versus 12%, respectively; odds ratio 5.6 [95% CI 1.6 to 20.3]; p = 0.005). We found no clinically important differences in postoperative patient-reported outcomes including Numeric Rating Scale and Oswestry Disability Index scores, and there were no differences in postoperative complications at 2 years of follow-up.The ideal patient position during surgery for an ASD should decrease intra-abdominal pressure and induce lordosis as the abdomen hangs freely and hip flexion is decreased. The four-poster frame appears advantageous for long-segment fusions for spinal deformities. Future studies are needed to extend our analyses to different types of spinal deformities and validate radiologic and clinical outcomes with follow-up for more than 2 years.III, therapeutic study.

Published
2021
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47. Studies on phase formation behavior and thermoelectric transport properties of Cu-doped Bi2Te3–Bi2S3 system

Author

Yurian Kim, Kyu Hyoung Lee, Chul Oh Park, Dong Ho Kim, Hyun-Sik Kim, and Sang-Il Kim

Subjects
Thermoelectric transport, Bi2S3, Mining engineering. Metallurgy, Materials science, Thermoelectric, TN1-997, Metals and Alloys, Composite, Cu doped, Phase formation, Surfaces, Coatings and Films, Biomaterials, Chemical engineering, Bi2Te3, Ceramics and Composites
Abstract

Herein, we investigated the influence of sulfur (S) addition on the phase formation behavior and thermoelectric transport properties of n-type Cu0.008Bi2Te3. A complete single phase of rhombohedral Bi2Te3 was formed in Cu0.008Bi2Te2.8S0.2, whereas a mixture of Bi2Te3 and Bi2Te2S1 phases was generated at higher S contents. We elucidated the complex effects of S substitution at Te-site on transport properties of Cu0.008Bi2Te3; (1) increase in density-of-states effective mass, (2) decrease in weighted mobility ratio, (3) reduction in lattice thermal conductivity, and (4) reduction in bipolar thermal conductivity. Despite the slight deterioration in electronic transport properties, a maximum thermoelectric figure of merit (zT) of 0.82 was achieved at 400 K in Cu0.008Bi2Te2.8S0.2 due to the synergetic effect of intensified point defect phonon scattering in a wide temperature range and suppressed bipolar thermal conduction at elevated temperatures.

Published
2021
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49. Thermoelectric transport properties of S-doped In0.9Si0.1Se

Author

Dong Ho Kim, Hyun-Sik Kim, Sang-Il Kim, Tae-Wan Kim, Weon Ho Shin, and Jamil Ur Rahman

Subjects
Electron mobility, Materials science, Condensed matter physics, Chalcogenide, Doping, Metal, symbols.namesake, chemistry.chemical_compound, Thermal conductivity, chemistry, visual_art, Thermoelectric effect, Ceramics and Composites, visual_art.visual_art_medium, symbols, Ceramic, van der Waals force
Abstract

Layered metal chalcogenides with highly promising thermoelectric properties have attracted attention owing to their intrinsically low thermal conductivity, which originates from their unique layered structure and van der Waals bonding. InSe, a post-transition metal chalcogenide, also has layered atomic structure and low thermal conductivity. We investigate the effects of S doping of Si-doped InSe, In0.9Si0.1Se. The S-doped In0.9Si0.1Se exhibits enhanced thermoelectric properties, with a higher power factor and lower thermal conductivity compared to Si-doped InSe. A significant increase in carrier mobility has an overall positive effect on the electronic transport properties, resulting in a systematic increase in power factor from 0.05 to 0.15 mW/mK2 with S doping. In addition, the thermal conductivity systematically decreases with S doping owing to additional point-defect scattering. Because of the higher power factor and lower thermal conductivity, the thermoelectric figure of merit of the In0.9Si0.1Se0.9S0.1 sample at 735 K was 0.18, which is 3.6 times that of In0.9Si0.1Se.

Published
2021
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50. Concentration‐dependent excess Cu doping behavior and influence on thermoelectric properties in <scp> Bi 2 Te 3 </scp>

Author

Yong Hwan Kim, Kyu Hyoung Lee, Yurian Kim, Soon-Mok Choi, Hyun-Sik Kim, and Sang-Il Kim

Subjects
Concentration dependent, Fuel Technology, Materials science, Nuclear Energy and Engineering, Renewable Energy, Sustainability and the Environment, Cu doping, Thermoelectric effect, Analytical chemistry, Energy Engineering and Power Technology
Published
2021
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