Your search keyword '"Rezki, Muhammad"' showing total 12 results

1. Emerging electrochemical biosensing strategies using enzyme-incorporated metal-organic frameworks

Author

Devi, K.S. Shalini, Rezki, Muhammad, and Tsujimura, Seiya

Published

2023

2. Effects of Cross-linker Chemistry on Bioelectrocatalytic Reactions in a Redox Cross-linked Network of Glucose Dehydrogenase and Thionine.

Author

Hossain, Md Motaher, Rezki, Muhammad, Shalayel, Ibrahim, Zebda, Abdelkader, and Tsujimura, Seiya

Published

2024

3. Enzyme Cascade Electrode Reactions with Nanomaterials and Their Applicability towards Biosensor and Biofuel Cells.

Author

Kalyana Sundaram, Shalini devi, Hossain, Md. Motaher, Rezki, Muhammad, Ariga, Kotoko, and Tsujimura, Seiya

Subjects

ELECTRODE reactions, MULTIENZYME complexes, ENZYME stability, BIOMASS energy, NANOSTRUCTURED materials, GRAPHENE oxide

Abstract

Nanomaterials, including carbon nanotubes, graphene oxide, metal–organic frameworks, metal nanoparticles, and porous carbon, play a crucial role as efficient carriers to enhance enzyme activity through substrate channeling while improving enzyme stability and reusability. However, there are significant debates surrounding aspects such as enzyme orientation, enzyme loading, retention of enzyme activity, and immobilization techniques. Consequently, these subjects have become the focus of intensive research in the realm of multi-enzyme cascade reactions. Researchers have undertaken the challenge of creating functional in vitro multi-enzyme systems, drawing inspiration from natural multi-enzyme processes within living organisms. Substantial progress has been achieved in designing multi-step reactions that harness the synthetic capabilities of various enzymes, particularly in applications such as biomarker detection (e.g., biosensors) and the development of biofuel cells. This review provides an overview of recent developments in concurrent and sequential approaches involving two or more enzymes in sequence. It delves into the intricacies of multi-enzyme cascade reactions conducted on nanostructured electrodes, addressing both the challenges encountered and the innovative solutions devised in this field. [ABSTRACT FROM AUTHOR]

Published

2023

4. The review analysis of zoom meeting and Google meeting user by using the KNN algorithm.

Author

Rezki, Muhammad, Handayani, Kartika, Lailiah, Badariatul, Sa'adah, Rabiatus, and Putra, Octa Pratama

Subjects

*VIDEOCONFERENCING, *K-nearest neighbor classification, *COVID-19 pandemic, *CLOUD computing, *CORONAVIRUSES

Abstract

Coronavirus 19 (COVID-19) is still not over yet and is still spreading throughout the region. COVID-19 is a very dangerous virus, it can be transmitted which is caused by acute respiratory symptoms. COVID-19 causes people not to do activities altogether in order to avoid mass crowds. Also, it is to prevent the spread of COVID-19. However, this restriction does not limit people from communicating with others. This kind of situation requires certain media; such as Zoom Cloud Meeting and Google Meet which can be downloaded via the Google Play Store. The purpose of the study is to compare 2 virtual meet applications, they are Zoom Cloud Meeting and Google Meet by using user review data based on star ratings. Researchers conduct the experiments by involving the K-Nearest Neighbor (KNN), K-Nearest Neighbor (KNN)+Smote Upsampling+PSO models, to find out the best model and accuracy in analyzing user reviews of Google Meet and Zoom cloud meetings. Based on the test results, it shows an accuracy rate of 67.25% with the K-Nearest Neighbor algorithm of Google Meet users, Zoom Cloud Meeting users with the same algorithm, K-nearest neighbor only gets an accuracy rate of 64.95%. [ABSTRACT FROM AUTHOR]

Published

2023

5. Facile synthesis of Cu-BDC MOF via solvothermal method for biosensor application.

Author

Rezki, Muhammad, Harimurti, Suksmandhira, Septiani, Ni Luh Wulan, Amri, Fauzan, Suyatman, Nugraha, and Yuliarto, Brian

Subjects

*CARBON electrodes, *PARTICLE size distribution, *METAL-organic frameworks, *BIOSENSORS, *DOPAMINE, *CHARGE exchange, *ORGANIC conductors

Abstract

Combining the merit of metal and organic substance, Metal Organic Frameworks (MOFs) have been considered as a promising biosensor material. By the nature characteristic of MOFs themselves and/or the modification with other materials, allowing MOFs to be applied for various of biological substance/organism, e.g. protein, DNA, RNA, bacteria, and even virus. In this work, we investigated the potential of copper-based MOF (Cu-BDC) as a non-enzymatic biosensor, specifically for dopamine (DA) detection. The detection of DA concentration level is immensely important in monitoring the health of our nervous system and in diagnosing a neurodegenerative disorder, e.g. Parkinson disease. In our work, we presented a facile synthesis of Cu-BDC MOF biosensor using sonochemical method with ultrasonication pre-treatment for the detection of DA at various concentration level. The SEM image of the synthesized Cu-BDC showed that it has a homogeneous particle size distribution of 300 nm. Drop casting it onto glassy carbon electrode (GCE), altering it to serve as an electrochemical based biosensor. From electrochemical measurement, the Cu-BDC modified electrode exhibited an excellent electron transfer and electrocatalytic activity with a low oxidation potential (0.32V) of DA detection. Furthermore, the electrode biosensor was then evaluated in detecting various DA concentration level. The result showed that it has a wide linear detection range of 100 µM -1000 µM with a limit of detection (LOD) of 44.5 µM. All these results demonstrated our successful and outstanding facile synthesis method of Cu-BDC MOF as a sensitive biosensor. [ABSTRACT FROM AUTHOR]

Published

2021

6. Differences in health beliefs and behavior compliance of the patients with chronic renal failure.

Author

Safitri, Jehan, Seftiana, Miranda, Rusli, Rusdi, and Rezki, Muhammad

Subjects

HEALTH Belief Model, CHRONIC kidney failure, PATIENTS' attitudes, DECISION making, ACQUISITION of data

Abstract

Health belief is about a patient's belief that vulnerability and treatment efficacy can affect health behavior decisions. This research investigated the difference in behavior compliance of patients with chronic renal failure based on gender and health beliefs' contribution to it. The sample of this research was 30 male and 30 female renal failure patients at Brigjend H. Hasan Basry Hospital. Data was collected by behavior compliance scale and health belief scale. Multivariate analysis was used to analyze the data. The results show a significant relationship between male and female patients' health beliefs and behavior compliance. The health belief of male patients is higher than female patients, while the behavior compliance of female patients is higher than males. It can be concluded that health and gender are factors affecting behavior compliance. Therefore, paramedics may increase patients' health beliefs to enhance behavior compliance, especially among female patients with chronic renal failure. [ABSTRACT FROM AUTHOR]

Published

2022

7. Polyvinylpyrrolidone (PVP)-Assisted Solvothermal Synthesis of Mesoporous TiO2 Nanoparticles as an Active Material for Enzymatic Electrochemical Glucose Sensor.

Author

Amri, Fauzan, Bonardo, Doli, Rezki, Muhammad, Septiani, Ni Luh Wulan, Iqbal, Muhammad, Syarif, Dani Gustaman, Nugraha, and Yuliarto, Brian

Subjects

ELECTROCHEMICAL sensors, POVIDONE, GLUCOSE, GLUCOSE oxidase, NANOPARTICLES, DETECTION limit, CRYSTALLINITY

Abstract

This study reports on an enzymatic glucose sensor based on mesoporous TiO2 nanoparticles (MTNPs) synthesized by a simple solvothermal method. The unique structure of MTNPs with a fairly homogenous shape, porous, and high crystallinity is the consequence of the use of PVP yang during the synthesis process. PVP plays an important role in creating the uniform morphology and mesoporous structure of MTNPs-2. The success of glucose oxidase immobilization on the surface of MTNPs was proven by FTIR and UV-vis characterizations. The prepared GCE/MTNPs-2/GOx electrode successfully detects glucose molecules with good sensing performance with a sensitivity of 0.4098 µA mM-1 cm-2, a wide linear range of 0.1-1 mM, and a relatively low detection limit of 73 µM. [ABSTRACT FROM AUTHOR]

Published

2021

8. Amine-functionalized Cu-MOF nanospheres towards label-free hepatitis B surface antigen electrochemical immunosensors.

Author

Rezki, Muhammad, Septiani, Ni Luh Wulan, Iqbal, Muhammad, Harimurti, Suksmandhira, Sambegoro, Poetro, Adhika, Damar Rastri, and Yuliarto, Brian

Abstract

Metal–organic framework (MOF) nanomaterials offer a wide range of promising applications due to their unique properties, including open micro- and mesopores and richness of functionalization. Herein, a facile synthesis via a solvothermal method was successfully employed to prepare amine-functionalized Cu-MOF nanospheres. Moreover, the growth and the morphology of the nanospheres were optimized by the addition of PVP and TEA. By functionalization with an amine group, the immobilization of a bioreceptor towards the detection of hepatitis B infection biomarker, i.e., hepatitis B surface antigen (HBsAg), could be realized. The immobilization of the bioreceptor/antibody to Cu-MOF nanospheres was achieved through a covalent interaction between the carboxyl group of the antibodies and the amino-functional ligand in Cu-MOF via EDC/NHS coupling. The amine-functionalized Cu-MOF nanospheres act not only as a nanocarrier for antibody immobilization, but also as an electroactive material to generate the electrochemical signal. The electrochemical sensing performance was characterized using cyclic voltammetry (CV), electrochemical impedance spectroscopy (EIS), and differential pulse voltammetry (DPV). The results showed that the current response proportionally decreased with the increase of HBsAg concentration. More importantly, the sensing performance of the amine-functionalized Cu-MOF nanospheres towards HBsAg detection was found to be consistent in real human serum media. This strategy successfully resulted in wide linear range detection of HBsAg from 1 ng mL−1 to 500 ng mL−1 with a limit of detection (LOD) of 730 pg mL−1. Thus, our approach provides a facile and low-cost synthesis process of an electrochemical immunosensor and paves the way to potentially utilize MOF-based nanomaterials for clinical use. [ABSTRACT FROM AUTHOR]

Published

2021

9. Mesoporous TiO2-based architectures as promising sensing materials towards next-generation biosensing applications.

Author

Amri, Fauzan, Septiani, Ni Luh Wulan, Rezki, Muhammad, Iqbal, Muhammad, Yamauchi, Yusuke, Golberg, Dmitri, Kaneti, Yusuf Valentino, and Yuliarto, Brian

Abstract

In the past two decades, mesoporous TiO2 has emerged as a promising material for biosensing applications. In particular, mesoporous TiO2 materials with uniform, well-organized pores and high surface areas typically exhibit superior biosensing performance, which includes high sensitivity, broad linear response, low detection limit, good reproducibility, and high specificity. Therefore, the development of biosensors based on mesoporous TiO2 has significantly intensified in recent years. In this review, the expansion and advancement of mesoporous TiO2-based biosensors for glucose detection, hydrogen peroxide detection, alpha-fetoprotein detection, immobilization of enzymes, proteins, and bacteria, cholesterol detection, pancreatic cancer detection, detection of DNA damage, kanamycin detection, hypoxanthine detection, and dichlorvos detection are summarized. Finally, the future perspective and research outlook on the utilization of mesoporous TiO2-based biosensors for the practical diagnosis of diseases and detection of hazardous substances are also given. [ABSTRACT FROM AUTHOR]

Published

2021

10. Review—Recent Trend on Two-Dimensional Metal-Organic Frameworks for Electrochemical Biosensor Application.

Author

Ulhakim, Muhamad Taufik, Rezki, Muhammad, Dewi, Kariana Kusuma, Abrori, Syauqi Abdurrahman, Harimurti, Suksmandhira, Wulan Septiani, Ni Luh, Kurnia, Kiki Adi, Setyaningsih, Widiastuti, Darmawan, Noviyan, and Yuliarto, Brian

Subjects

METAL-organic frameworks, BIOSENSORS, CHARGE exchange, MECHANICAL properties of condensed matter, SURFACE area

Abstract

Electrochemical biosensors have attracted a tremendous attention for many researchers recently due to its facile synthesis process, tunability easiness by tailoring the material properties or composition, and wide range of biological analyte types detection. To obtain an excellent electrochemical biosensor performance, a material that facilitates fast electron transfer, large surface area, excellent electrocatalytic activity, and abundant available sites for bioconjugation is immensely needed. Metal-organic frameworks in the two-dimensional form (2D MOFs) provide all of the criteria needed as the sensing material for electrochemical biosensors application. However, the design and preparation of 2D MOFs, which have high stability and sensitivity as well as good selectivity for biological analyte detection, is still quite challenging. This review provides the recent studies and development of 2D MOFs as electrochemical biosensor. A detailed discussion about 2D MOFs structures, their synthesis strategy and control, 2D MOFs materials in electrochemical biosensor application, and the future challenges is thoroughly explained in this review. Hopefully, this review will also provide a new inspiration to advance future studies of 2D MOFs materials development as electrochemical biosensor. [ABSTRACT FROM AUTHOR]

Published

2020

11. Book Review: Gender-critical feminism.

Author

Mutrofin, Safri Anggara, David, and Rezki, Muhammad

Subjects

GENDER role, SOCIAL constructionism, FEMINISM

Published

2024

12. Mesoporous TiO 2 -based architectures as promising sensing materials towards next-generation biosensing applications.

Author

Amri F, Septiani NLW, Rezki M, Iqbal M, Yamauchi Y, Golberg D, Kaneti YV, and Yuliarto B

Subjects

Humans, Materials Testing, Particle Size, Porosity, Smart Materials, Surface Properties, Biosensing Techniques, Titanium chemistry

Abstract

In the past two decades, mesoporous TiO2 has emerged as a promising material for biosensing applications. In particular, mesoporous TiO2 materials with uniform, well-organized pores and high surface areas typically exhibit superior biosensing performance, which includes high sensitivity, broad linear response, low detection limit, good reproducibility, and high specificity. Therefore, the development of biosensors based on mesoporous TiO2 has significantly intensified in recent years. In this review, the expansion and advancement of mesoporous TiO2-based biosensors for glucose detection, hydrogen peroxide detection, alpha-fetoprotein detection, immobilization of enzymes, proteins, and bacteria, cholesterol detection, pancreatic cancer detection, detection of DNA damage, kanamycin detection, hypoxanthine detection, and dichlorvos detection are summarized. Finally, the future perspective and research outlook on the utilization of mesoporous TiO2-based biosensors for the practical diagnosis of diseases and detection of hazardous substances are also given.

Published

2021