Your search keyword '"Jeon, Juhee"' showing total 9 results

1. Generation and Storage of Random Voltage Values via Ring Oscillators Comprising Feedback Field-Effect Transistors.

Author

Son, Jaemin, Jeon, Juhee, Cho, Kyoungah, and Kim, Sangsig

Subjects

*FIELD-effect transistors, *RANDOM number generators, *VOLTAGE, *PHYSICAL mobility, *RANDOM variables

Abstract

In this study, we demonstrate the generation and storage of random voltage values using a ring oscillator consisting of feedback field-effect transistors (FBFETs). This innovative approach utilizes the logic-in-memory function of FBFETs to extract continuous output voltages from oscillatory cycles. The ring oscillator exhibited uniform probability distributions of 51.6% for logic 0 and 48.4% for logic 1. The generation of analog voltages provides binary random variables that are stored for over 5000 s. This demonstrates the potential of the ring oscillator in advanced physical functions and true random number generator technologies. [ABSTRACT FROM AUTHOR]

Published

2024

2. Read Operation Mechanism of Feedback Field-Effect Transistors with Quasi-Nonvolatile Memory States.

Author

Jeon, Juhee, Cho, Kyoungah, and Kim, Sangsig

Subjects

*FIELD-effect transistors, *POTENTIAL barrier, *RF values (Chromatography), *CHARGE carriers, *MEMORY, *NONVOLATILE memory

Abstract

In this study, the read operation of feedback field-effect transistors (FBFETs) with quasi-nonvolatile memory states was analyzed using a device simulator. For FBFETs, write pulses of 40 ns formed potential barriers in their channels, and charge carriers were accumulated (depleted) in these channels, generating the memory state "State 1 (State 0)". Read pulses of 40 ns read these states with a retention time of 3 s, and the potential barrier formation and carrier accumulation were influenced by these read pulses. The potential barriers were analyzed, using junction voltage and current density to explore the memory states. Moreover, FBFETs exhibited nondestructive readout characteristics during the read operation, which depended on the read voltage and pulse width. [ABSTRACT FROM AUTHOR]

Published

2024

3. Production of Resveratrol Glucosides and Its Cosmetic Activities.

Author

Thapa, Samir Bahadur, Jeon, Juhee, Park, Byung Gyu, Shim, Dabin, Lee, Chang Seok, and Sohng, Jae Kyung

Subjects

RESVERATROL, COSMETICS, POLYMERIZATION, ANTIOXIDANTS, ANTI-inflammatory agents

Abstract

A biocatalytic system that could produce bioactive resveratrol poly-glucosides, using sucrose as a low-cost source of UDP-glucose donors and amylosucrase DgAS from Deinococcus geothermalis, was developed in this study. This system boasts several advantages, including the rapid and direct conversion of substrates to products, thermostability, regio-stereospecificity, and effectiveness, both in vitro and in vivo, at 40 °C. The results showed that the optimal reaction condition of the production of resveratrol glucosides was obtained by 2.0 µg/mL DgAS and 100 mM sucrose at pH 7.0, incubated at 40 °C for 5 h. With a success rate of around 97.0% in vitro and 95.0% in vivo in a short period of time, resveratrol-O-glucosides showed exciting outcomes in cosmetic applications, including antioxidant, anti-inflammatory, anti-aging, and whitening effects when tested with Raw 264.7, B16, and HS68 cell lines. DgAS is recognized as an important biocatalyst due to its high thermostability, effectiveness, and specificity among all known amylosucrases (ASases) in the production of poly-glucosides in a chain of polyphenols, such as resveratrol, making it an ideal candidate for industrial use in the cost-effective production of cosmetic items. [ABSTRACT FROM AUTHOR]

Published

2023

4. Disturbance Characteristics of 1T DRAM Arrays Consisting of Feedback Field-Effect Transistors.

Author

Jeon, Juhee, Cho, Kyoungah, and Kim, Sangsig

Subjects

FIELD-effect transistors, SILICON nanowires, RF values (Chromatography), ENERGY consumption

Abstract

Challenges in scaling dynamic random-access memory (DRAM) have become a crucial problem for implementing high-density and high-performance memory devices. Feedback field-effect transistors (FBFETs) have great potential to overcome the scaling challenges because of their one-transistor (1T) memory behaviors with a capacitorless structure. Although FBFETs have been studied as 1T memory devices, the reliability in an array must be evaluated. Cell reliability is closely related to device malfunction. Hence, in this study, we propose a 1T DRAM consisting of an FBFET with a p+–n–p–n+ silicon nanowire and investigate the memory operation and disturbance in a 3 × 3 array structure through mixed-mode simulations. The 1T DRAM exhibits a write speed of 2.5 ns, a sense margin of 90 μA/μm, and a retention time of approximately 1 s. Moreover, the energy consumption is 5.0 × 10−15 J/bit for the write '1' operation and 0 J/bit for the hold operation. Furthermore, the 1T DRAM shows nondestructive read characteristics, reliable 3 × 3 array operation without any write disturbance, and feasibility in a massive array with an access time of a few nanoseconds. [ABSTRACT FROM AUTHOR]

Published

2023

5. Novel Chlorin e6-Curcumin Derivatives as a Potential Photosensitizer: Synthesis, Characterization, and Anticancer Activity.

Author

Thapa Magar, Til Bahadur, Lee, Jusuk, Lee, Ji Hoon, Jeon, Juhee, Gurung, Pallavi, Lim, Junmo, and Kim, Yong-Wan

Subjects

PHOTOSENSITIZERS, PHOTODYNAMIC therapy, ANTINEOPLASTIC agents, CURCUMINOIDS, STRUCTURE-activity relationships, CELL lines

Abstract

Novel series of chlorin e6-curcumin derivatives were designed and synthesized. All the synthesized compounds 16, 17, 18, and 19 were tested for their photodynamic treatment (PDT) efficacy against human pancreatic cancer cell lines: AsPC-1, MIA-PaCa-2, and PANC-1. The cellular uptake study was performed in the aforementioned cell lines using fluorescence-activated cell sorting (FACS). 17, among the synthesized compounds with IC50 values of 0.27, 0.42, and 0.21 µM against AsPC-1, MIA PaCa-2, and PANC-1 cell lines, respectively, demonstrated excellent cellular internalization capability and exhibited higher phototoxicity relative to the parent Ce6. The quantitative analyses using Annexin V-PI staining revealed that the 17-PDT-induced apoptosis was dose-dependent. In pancreatic cell lines, 17 reduced the expression of the anti-apoptotic protein, Bcl-2, and increased the pro-apoptotic protein, cytochrome C, which indicates the activation of intrinsic apoptosis, the primary cause of cancer cell death. Structure–activity relationship studies have shown that the incorporation of additional methyl ester moiety and conjugation to the enone moiety of curcumin enhances cellular uptake and PDT efficacy. Moreover, in vivo PDT testing in melanoma mouse models revealed that 17-PDT greatly reduced tumor growth. Therefore, 17 might be an effective photosensitizer for PDT anticancer therapy. [ABSTRACT FROM AUTHOR]

Published

2023

6. Prediction of Device Characteristics of Feedback Field-Effect Transistors Using TCAD-Augmented Machine Learning.

Author

Woo, Sola, Jeon, Juhee, and Kim, Sangsig

Subjects

FIELD-effect transistors, MACHINE learning, SILICON nanowires, RANDOM forest algorithms, COMPUTER-aided design, AUTOMATIC timers

Abstract

In this study, the device characteristics of silicon nanowire feedback field-effect transistors were predicted using technology computer-aided design (TCAD)-augmented machine learning (TCAD-ML). The full current–voltage (I-V) curves in forward and reverse voltage sweeps were predicted well, with high R-squared values of 0.9938 and 0.9953, respectively, by using random forest regression. Moreover, the TCAD-ML model provided high prediction accuracy not only for the full I-V curves but also for the important device features, such as the latch-up and latch-down voltages, saturation drain current, and memory window. Therefore, this study demonstrated that the TCAD-ML model can substantially reduce the computational time for device development compared with conventional simulation methods. [ABSTRACT FROM AUTHOR]

Published

2023

7. Correction: Yun et al. Prion Protein of Extracellular Vesicle Regulates the Progression of Colorectal Cancer. Cancers 2021, 13 , 2144.

Author

Yun, Chul-Won, Lee, Jun-Hee, Go, Gyeongyun, Jeon, Juhee, Yoon, Sungtae, and Lee, Sang-Hun

Subjects

DISEASE progression, COLORECTAL cancer

Published

2021

8. Prion Protein of Extracellular Vesicle Regulates the Progression of Colorectal Cancer.

Author

Yun, Chul-Won, Lee, Jun-Hee, Go, Gyeongyun, Jeon, Juhee, Yoon, Sungtae, Lee, Sang-Hun, and McMullin, Mary Frances

Subjects

THERAPEUTIC use of immunoglobulins, PROTEIN metabolism, COLON tumors, DISEASE progression, ENDOTHELIAL cells, CYTOKINES, EXOSOMES, RECTUM tumors, CANCER invasiveness, METASTASIS, CELL physiology, GENE expression, FLUOROURACIL, CELL proliferation, HEALTH behavior, COMMUNICATION, EXTRACELLULAR space, VASCULAR endothelial growth factors, DRUG resistance in cancer cells, HYPOXEMIA

Abstract

Simple Summary: Cellular prion protein (PrPC) are overexpressed in cancers and related to cancer proliferation, invasion, metastasis, and drug resistance. The aim of our study was to investigate the role of PrPC-expressing exosomes regulating the colorectal cancer cells (CRC) behavior and tumor progression. We confirmed the increased sphere formation, expression of cancer initiating genes, motility, and tumor growth by hypoxic exosomes. Also, PrPC-expressing exosomes induced the microenvironment of metastasis via increase of endothelial permeability and angiogenic cytokine secretion. The treatment of anti-PrPC and 5-fluorouracil decreased the tumor progression. Targeting PrPC is an effective therapeutic strategy in cancer therapy. Colorectal cancer (CRC) is one of the leading causes of cancer-related death due to its aggressive metastasis in later stages. Although there is a growing interest in the tumorigenic role of cellular prion protein (PrPC) in the process of metastasis, the precise mechanism behind the cellular communication involving prion proteins remains poorly understood. This study found that hypoxic tumor microenvironment increased the PrPC-expressing exosomes from CRC, and these exosomes regulate the CRC cell behavior and tumor progression depending on the expression of PrPC. Hypoxic exosomes from CRC cells promoted sphere formation, the expression of tumor-inducing genes, migration, invasion, and tumor growth. Furthermore, these exosomes increased endothelial permeability, migration, invasion, and angiogenic cytokine secretion. These effects were associated with PrPC expression. Application of anti-PrPC antibody with 5-fluorouracil significantly suppressed the CRC progression in a murine xenograft model. Taken together, these findings indicate that PrP-expressing exosomes secreted by hypoxic CRC cells are a key factor in the tumorigenic CRC-to-CRC and CRC-to-endothelial cell communication. Significance: These findings suggest that inhibiting PrPC in hypoxic exosomes during chemotherapy may be an effective therapeutic strategy in colorectal cancer. [ABSTRACT FROM AUTHOR]

Published

2021

9. The Dual Role of Autophagy in Cancer Development and a Therapeutic Strategy for Cancer by Targeting Autophagy.

Author

Yun, Chul Won, Jeon, Juhee, Go, Gyeongyun, Lee, Jun Hee, and Lee, Sang Hun

Subjects

*CANCER stem cells, *AUTOPHAGY, *METASTASIS, *DRUG resistance, *LYSOSOMES

Abstract

Autophagy is a delicate intracellular degradation process that occurs due to diverse stressful conditions, including the accumulation of damaged proteins and organelles as well as nutrient deprivation. The mechanism of autophagy is initiated by the creation of autophagosomes, which capture and encapsulate abnormal components. Afterward, autophagosomes assemble with lysosomes to recycle or remove degradative cargo. The regulation of autophagy has bipolar roles in cancer suppression and promotion in diverse cancers. Furthermore, autophagy modulates the features of tumorigenesis, cancer metastasis, cancer stem cells, and drug resistance against anticancer agents. Some autophagy regulators are used to modulate autophagy for anticancer therapy but the dual roles of autophagy limit their application in anticancer therapy, and present as the main reason for therapy failure. In this review, we summarize the mechanisms of autophagy, tumorigenesis, metastasis, cancer stem cells, and resistance against anticancer agents. Finally, we discuss whether targeting autophagy is a promising and effective therapeutic strategy in anticancer therapy. [ABSTRACT FROM AUTHOR]

Published

2021