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Nanogap electrodes have important applications in power saving devices, electrochemical sensors and dielectric detections of biomolecules. The purpose of this paper is to report on the fabrication and characterization of polysilicon nanogap patterning using novelties technique.

Polysilicon material is used to fabricate the nanogap structure and gold is used for the electrode and two chrome masks are used to complete this work; the first mask for the nanogap pattern and a second mask for the electrode. The method is based on the control of the coefficients (temperature and time) with an improved pattern size resolution thermal oxidation.

Physical characterization by scanning electron microscopy (SEM) demonstrates such nanogap electrodes could be produced with high reproducibility and precision. Electrical characterization shows that nanogap enhanced the sensitivity of the device by increase the capacitance and the conductivity as well. They have also good efficiency of power consumption with high insulation properties.

With this technique, there are no principal limitations to fabricating nanostructures with different layouts down to several different nanometer dimensions. The paper documents the fabrication of nanogaps electrodes on a polysilicon, using low‐cost techniques such as vacuum deposition and conventional lithography. Polysilicon is a low‐cost materials and has desirable properties for semiconductor applications. A method of preparing a nanogap electrode according to the present innovation has an advantage of providing active surface that can easily be modified for immobilizations of biomolecules.

The purpose of this paper was to systematically study the electrical properties of 5‐, 42‐ and 75‐nm gap polysilicon structures to evaluate the potentiality of these structures to be used in biomolecular sensing devices.

The authors previously reported the fabrication and morphological characterization of these structures. In this report, they electrically probed the presence of nanogap through current measurement. The effects of electrolytes on the capacitance profiles of these structures were systematically studied with air, water and various dilutions of phosphate buffer saline.

An increment in capacitance was found with the increment in electrolyte concentration. Improvement in current flow, capacitance, permittivity, and conductivity were observed with the smaller size nanogaps, suggesting their applications in low power consuming devices.

Since nanogap‐based dielectric biosensing devices need to be operated with a low level of current to avoid biomolecular damage, these structures should have potential applications in dielectric‐based biomolecular detection using a low cost dielectric analyser.

This paper aims to discuss a nanoscale biosensor and its signal analysis algorithms.

In this work, five nanoscale biosensors are reviewed, namely, silicon nanowire field-effect-transistor biosensors, polysilicon nanogap capacitive biosensors, nanotube amperometric biosensors, gold nanoparticle-based electrochemical biosensors and quantum dot-based electrochemical biosensors.

Each biosensor produces a different output signal depending on its electrical characteristics. Five signal analysers are studied, with most of the existing signal analyser analyses based on the amplitude of the signal. Based on the analysis, auto-threshold peak detection is proposed for further work.

Suitability of the signal processing algorithm to be applied to nano-biosensors was reported.

The purpose of this paper is to investigate the potential of fruit waste materials from fruit industry as sources of powerful natural antioxidants.

The peels of mango, rambutan, and santol were extracted and analyzed for their antioxidant activity. Pork ball samples were prepared and treated with different natural extracts at various concentrations, namely 0.05, 0.10, 0.15, and 0.20% (v/w), compared with the control (no natural extract), and then stored at 4°C. The samples were investigated at the zeroth, third, fifth, eighth and tenth day to find out the antioxidant activity of the total phenolic content and lipid oxidation including the evaluation of the change of rancid flavor and color during storage. All statistical results were analyzed by RCBD using SPSS at p⩽0.05.

During storage, the amount of phenolic compound in a pork ball by adding fruit extracts at various concentrations slightly decreased, while the lipid oxidation slightly increased. Mango extract showed the best efficiency to delay lipid oxidation in the pork ball for ten days followed by santol extract and rambutan extract. For sensory evaluation, the pork ball with fruit extract at various concentrations showed the lower rancidity development than control, and mango extract at 0.20% (v/w) showed the best delaying rancidity during ten-day storage. Thus, mango peel extract at 0.20% (v/w) showed the highest effectiveness of antioxidant activity against lipid oxidation in pork ball.

This study was continued from the previous research which investigated the best extraction condition for by-products of mango, rambutan, and santol. From that study, the authors found that the crude extracts need further research on their antioxidant property in foods. The research findings have provided information regarding the interesting new natural antioxidant that can be applied into lipid-containing foods to delay the rancidity and extend the shelf life.

Nanobiosensors based on nanogap capacitor are widely used for measuring dielectric properties of DNA, protein and biomolecule. The purpose of this paper is to report on the fabrication and characterization polysilicon nanogap patterning using novelties technique.

Overall, the polysilicon nanogap pattern was fabricated based on conventional lithographic techniques. For size expansion technique, by employing simple dry thermal oxidation, the couple of nanogap pattern has been expanded to lowest nanogap value. The progress of nanogap pattern expansion was verified by using scanning electron microscopy (SEM). Conductivity, resistivity, and capacitance test were performed to characterize and to measure electrical behavior of full device fabrication.

SEM characterization emphasis on the expansion of polysilicon nanogap pattern increasing with respect to oxidation time. Electrical characterization shows that nanogap enhanced the sensitivity of the device at the value of nano ampere of current.

These simple least‐cost method does not require complicated nanolithography method of fabrication but still possible to serve as biomolecular junction. This approach can be applied extensively to different design of nanogap structure down to several nanometer levels of dimensions. A method of preparing a nanogap electrode according to the present innovation has an advantage of providing active surface that can be easily modified for immobilizations of biomolecules.

This study aims to provides the insights on the advantages and disadvantages of international franchising and licensing from the perspectives of legal and business considerations in the Gulf Cooperation Council (GCC).

Using a quantitative research approach, the authors conducted a survey with 150 business owners and franchisees in the GCC and analyzed the data using descriptive statistics, structural equation modeling and frequency analysis.

The findings reveal that while international franchising and licensing offer significant benefits for business expansion and revenue growth, they also pose risks related to legal compliance, cultural differences and intellectual property protection. Indeed, the results of this study provide valuable insights into the advantages and disadvantages of international franchising and licensing in the GCC from both legal and business perspectives.

There is limited research on the legal and business perspectives of international franchising and licensing in the GCC. This study contributes to the literature by providing a comprehensive analysis of the legal and business perspectives of international franchising and licensing in the GCC.

The purpose of this study is to present reports on fabrication of silicon (Si) nanowires (NWs). The study consists of microwire formation on silicon-on-insulator (SOI) that was fabricated using a top-down approach which involved conventional photolithography coupled with shallow anisotropic etching.

A 5-inch p-type silicon-on-insulator (SOI) coated with 250nm layer and Photoresist (PR) with thickness of 400nm is coated in order to make pattern transfer via binary mask, after the exposure and development, a resist pattern between 3 μm-5 μm were obtained, Oxygen plasma spreen was used to reduce the size of the PR to 800 μm, after this, the wafer with 800 μm was loaded into SAMCO inductively coupled plasma (ICP)-RIE and got silicoon microwire was obtained. Next, the sample was put into an oxidation furnace for 15, 30, 45 and 60 minutes and the sample was removed and dipped into a buffered oxide etch solution for five minutes to remove all the SiO₂ ashes.

The morphological characterization was conducted using scanning electron microscopy and atomic force microscopy. At terminal two, gold electrodes which were designated as source and drain were fabricated on top of individual NWs using conventional lithography electrical and chemical response. Once the trimming process has been completed, the device's current–voltage (I-V) characteristic was measured by using a Keithley 4200 semiconductor parameter analyser. Devices with different width of wires approximately 20, 40, 60 and 80 nm were characterized. The wire current variation as a function of the pH variation in voltage was investigated: pH monitoring for variations of pH values between 5 and 9.

This paper provides useful information on novel and yet simple cost-effective fabrication of SiNW; as such, it should be of interest to a broad readership, especially those interested in micro/nanofabrication.

Online health question-and-answer (Q&A) forums have developed a new business model whereby listeners (peer patients) can pay to read health information derived from consultations between askers (focal patients) and answerers (physicians). However, research exploring the mechanism behind peer patients' purchase decisions and the specific nature of the information driving these decisions has remained limited. This study aims to develop a theoretical model for understanding how peer patients make such decisions based on limited information, i.e. the first question displayed in each focal patient-physician interaction record, considering argument quality (interrogative form and information details) and source credibility (patient experience of focal patients), including the contingent role of urgency.

The model was tested by text mining 1,960 consultation records from a popular Chinese online health Q&A forum on the Yilu App. These records involved interactions between focal patients and physicians and were purchased by 447,718 peer patients seeking health-related information until this research.

Patient experience embedded in focal patients' questions plays a significant role in inducing peer patients to purchase previous consultation records featuring exchanges between focal patients and physicians; in particular, increasingly detailed information is associated with a reduced probability of making a purchase. When focal patients demonstrate a high level of urgency, the effect of information details is weakened, while the interrogative form is strengthened.

The originality of this study lies in its exploration of the monetization mechanism forming the trilateral relationship between askers (focal patients), answerers (physicians) and listeners (peer patients) in the business model “paying to view others' answers” in the online health Q&A forum and the moderating role of urgency in explaining the mechanism of how first questions influence peer patients' purchasing behavior.

This study aims to examine the impact of digital health technology adoption on female physicians’ work–life balance (WLB) in Bahrain. This study also examines the impact of two moderating variables: career stage, based on the kaleidoscope career model (KCM) and the presence of domestic workers, based on Becker’s theory of the allocation of time.

An electronic quantitative survey was administered to female physicians working in Bahrain. The survey gathered data on various aspects of digital health technology, WLB and demographic characteristics such as age and the presence of domestic workers. From a target population of approximately 1,000 female physicians in Bahrain, 102 participated in the survey.

The authors found that the effect of digital health technologies on WLB is positive in general and specifically for the early-career stage; however, it harms WLB in the middle and late-career stages. This is consistent with KCM predictions. In addition, there is no moderating effect of having domestic helpers.

This paper contributes to the theoretical understanding of the effect of technology on WLB by expanding the traditional model (KCM) to include an economic model of how female physicians allocate their time between work and home responsibilities, including the effect that a domestic worker can have on this allocation. Beyond these theoretical contributions, this paper is also the first to study technology and WLB in the health sector in Bahrain following the COVID-19 pandemic.

This study aims to investigate the prevalence of cosmetic surgery and its relationship with the level of mental health and socioeconomic variables in Sulaymaniyah city in Iraq.

This descriptive-analytical and cross-sectional study was conducted on 941 subjects who were selected using multistage sampling method. Data were collected using a checklist as well as a questionnaire. Data analysis was done using chi-square test and multiple logistic regression model using Stata software version 20.

The prevalence of cosmetic surgery was 13.4% (female: 17.5%; male: 8.2%). The most common types of cosmetic surgery were rhinoplasty (7.6%) in women and hair transplant (5.5%) in men. Overall, rhinoplasty (7.6%) was the most common type of cosmetic surgery among both groups. In total, the prevalence of having symptoms of mental disorders was 34.5% and it was significantly higher among people with a history of cosmetic surgery (65.1%) than those without any experience of having cosmetic surgery (29.8%) (p < 0.001). Being female (odds ratio [OR] = 2.07; 95% confidence interval [CI]: 1.33–3.22), having mild symptoms of mental disorders (OR = 2.76; 95% CI: 1.71–4.47) and having moderate or severe symptoms of mental disorders (OR = 7.48; 95% CI: 4.60–12.29) were among the important variables that could affect performing cosmetic surgery.

The prevalence of cosmetic surgery in Sulaymaniyah is high, and based on the findings of this study, gender and mental health status are effective factors in this regard. Designing targeted interventions is suggested with an emphasis on the findings of this study to reduce the rate of cosmetic surgeries.