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INDONESIA
Jurnal Integrasi Sains dan Qur'an (JISQu)
Published by SMA Trensains Muhammadiyah Sragen
ISSN : 28283163     EISSN : 28282000     DOI : -
Core Subject : Religion, Education, Agriculture, Social,
Religion Agriculture, Biological Sciences & Forestry Education Environmental Science Other
Jurnal Integrasi Sains dan Quran (JISQu) has been published since 2022 and is the leading high school research journal in Indonesia. Jurnal Integrasi Sains dan Quran (JISQu) selects the highest quality of high school student research work in all areas of science, including natural science and math. It provides a platform for high school students who are involved in research to learn publication about the publication process and to become a published author. Jurnal Integrasi Sains dan Quran (JISQu) has a rolling admission without a deadline and has an open access to public.
Arjuna Subject : Umum - Umum
Articles 9 Documents
 1 
Search results for , issue "Vol 5 No 01 (2026): Februari" : 9 Documents clear
INOVASI DAN PENERIMAAN TEKNOLOGI: TINJAUAN DARI PERSPEKTIF TEN TYPES OF INNOVATION, TAM, DAN UTAUT Widayoko, Agus; Selvy Herawati; Nasirin
Jurnal Integrasi Sains dan Quran Vol 5 No 01 (2026): Februari
Publisher : SMA Trensains Muhammadiyah Sragen

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.64477/501485-490

Abstract

Innovation and technology acceptance are two fundamental aspects that determine the success of organizations in the digital era. Innovation is not only limited to the creation of new products, but also encompasses how organizations manage business models, build customer experiences, and utilize networks and technology. Keeley (2013) in Ten Types of Innovation emphasizes that innovation can appear in various forms—from internal configurations and product offerings to interactions with customers. However, no matter how good an innovation is, its success is largely determined by the extent to which the technology or system is accepted by users. Davis (1989) with the Technology Acceptance Model (TAM) provides a basic framework for understanding technology acceptance through two main factors: perceived usefulness and perceived ease of use. This model is widely applied in education, healthcare, e-commerce, e-government, and industry. Meanwhile, Venkatesh et al. (2003) expanded this perspective through the Unified Theory of Acceptance and Use of Technology (UTAUT) by adding social factors and supporting conditions, and considering the influence of moderators such as age, gender, experience, and level of voluntary use. This article compares these three frameworks in accessible language, highlighting their relevance in supporting digital transformation across various sectors. By combining the perspectives of innovation and technology acceptance, this paper emphasizes that the success of an innovation depends not only on creativity in creating a new product or service, but also on the ease, benefits, and supportive environment that encourages its adoption. These findings are relevant for researchers, practitioners, and policymakers seeking to design sustainable innovations that are truly accepted and utilized by the wider community.
Analisis Regresi Linier Kelembaban Tanah dan Produksi Energi pada Plant-MFC Berbasis Padi untuk Pertanian Mandiri Energi Mariza Ainun Jariyah; Kaila Zalfa Ashofa; Afifah Nurin Aisyah; Aulianisa Hanan Az Zuhri; Videnina Mizzani
Jurnal Integrasi Sains dan Quran Vol 5 No 01 (2026): Februari
Publisher : SMA Trensains Muhammadiyah Sragen

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.64477/501491-498

Abstract

The global energy crisis and demand for environmentally friendly energy have driven the development of alternative bioelectrochemical technologies, such as the microbial fuel cell (MFC). This study analyses the effect of soil moisture on the electrical power generated by the MFC system. The research was conducted at Trensains Muhammal High School in Sragen from September to October 2025, using simple linear regression analysis. The analysis shows a regression equation of Y = 1.83 + 0.82X with a coefficient of determination (R²) of 0.994, indicating that 99.4% of the electrical power variability is explained by changes in soil moisture. The regression model was declared valid based on the F test (Fcount = 1258.7; p < 0.05), t test (tcount = 35.48; p < 0.05), and classical assumption tests (p > 0.05). The MFC system can produce 38.2 mW on an area of 100 cm², which is sufficient to power low-power devices. This technology has significant potential for use in sustainable agriculture and achieving SDGs 7 and 13.
Analisis Potensi Energi Biomassa dari Limbah Sekam Padi Menggunakan Model Stokastik (Monte-Carlo) untuk Mendukung Ketahanan Energi dalam Upaya RPJPN Indonesia Altamis Ahnaf Esalka; Rasyid Putra Ariyani; Arifin Aji Nugroho; Widayoko, Agus
Jurnal Integrasi Sains dan Quran Vol 5 No 01 (2026): Februari
Publisher : SMA Trensains Muhammadiyah Sragen

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.64477/501540-550

Abstract

Indonesia generates a large amount of rice-based agricultural residues, particularly rice husk, which contains lignocellulosic compounds and a calorific value of 13–15 MJ/kg, making it a potential alternative energy source. However, estimating biomass energy potential is challenged by uncertainties in production variability, residue ratios, calorific values, and conversion efficiency. To address this issue, this study aims to estimate the potential energy production from rice husk biomass as a contribution to Indonesia’s renewable energy transition within the 2025–2045 National Long-Term Development Plan (RPJPN). A stochastic Monte-Carlo simulation was applied using secondary data on national rice production, residue-to-product ratio, calorific value, and conversion efficiency. A total of 100,000 random iterations were conducted to obtain probabilistic estimates of energy potential. The results indicate that rice husk biomass can generate an average of 103.64 TWh, with a critical point of 40.04 TWh and an optimum value of 213.21 TWh. Compared to Indonesia’s projected 2045 electricity consumption, rice husk biomass contributes 10.34%–58.3% toward the RPJPN renewable energy target. These findings demonstrate that rice husk biomass holds significant potential to support national energy resilience and the transition toward a sustainable energy mix.
Optimalisasi Fermentasi Bioetanol dari Kulit Durian Lokal (Durio zibethinus) dengan Penambahan Vitamin B Kompleks Sebagai Bahan Bakar Rumah Tangga Rafi Rijal Mufaiq; M. Nuril Yazdan Al-Firdhaus; Giesty Trienita; Widayoko, Agus
Jurnal Integrasi Sains dan Quran Vol 5 No 01 (2026): Februari
Publisher : SMA Trensains Muhammadiyah Sragen

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.64477/501508-516

Abstract

Indonesia still faces a high dependence on LPG, making the development of more sustainable alternative energy sources necessary. On the other hand, durian peel waste is abundant but has not been optimally utilized as a raw material for bioethanol. The low efficiency of lignocellulosic biomass fermentation remains a major obstacle; therefore, the aim of this study is to determine the effectiveness of adding B-complex vitamins to bioethanol production by examining the resulting ethanol content. The type of research conducted is descriptive research with a quantitative data approach. Data were collected through literature studies, observations, and experiments. The research procedures included delignification, hydrolysis, fermentation for 6 and 7 days, and distillation. To determine product effectiveness, analyses of ethanol content, density, and flash point were carried out. The results show that the addition of B-complex vitamins significantly increases the quality of bioethanol, with ethanol levels reaching 99.5% on day 6 and 97.7% on day 7, higher than without vitamin addition. The density ranged from 0.7992 to 0.8315 g/ml, which is close to the SNI 7390:2012 standard, while the flash point of 11–12°C indicates good ethanol purity. Thus, durian peel waste has potential as a second-generation bioethanol feedstock, and B-complex vitamins have been proven to improve fermentation efficiency and the quality of the resulting ethanol based on ethanol content analysis.
Subtitusi Membran Polimer dengan Limbah Puntung Rokok Untuk Mencegah Emulsi Minyak dan Air pada Limbah Cair Industri Mahogra Teja Mutthohar; Fatih Nur Shofwan Khoironi; Yuni Hidayani; Widayoko, Agus
Jurnal Integrasi Sains dan Quran Vol 5 No 01 (2026): Februari
Publisher : SMA Trensains Muhammadiyah Sragen

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.64477/501499-507

Abstract

Oily waste is one of the most difficult types of waste to manage due to the lack of filtration facilities for petrochemical industry waste. According to the Ministry of Environment and Forestry, the average amount of oil is 1000-2000 mg/L in industrial liquid waste, which has a negative impact on the aquatic environment and other biota. On the other hand, in 2020, tobacco consumption reached 322 billion sticks, producing approximately 107.3 tons of cigarette butt waste. Cigarette butts contain cellulose acetate, making them solid waste that is difficult to decompose naturally. However, cigarette butt filters, which are rich in cellulose acetate, have great potential as an alternative raw material for membrane technology. This study aims to develop polymer membranes based on recycled cigarette butt waste as an environmentally friendly membrane system for sustainable living, by evaluating the effectiveness of water filtration using these membranes with a minimum permeation flux indicator of 400 L/m²·hour and reducing membrane production costs by ≤ 30% compared to conventional membranes. The method used is descriptive with a quantitative approach, focusing on the utilization of cigarette butt waste as a polymer membrane. Data collection was carried out through experiments, observations, and literature studies. From the tests conducted, the permeation flux test was 474,6-588,5 L/m²/hour, referring to Widiasa’s (2014) research. The water toxicity test with a pH of 7 met SNI 06-6989.11-2004, and the durability test showed that the membrane could be used three times.
Sintesis Bioplastik dari Ampas Tebu dan Gelatin Ekstrak Tulang Ayam dengan Menggunakan Plasticizer Sorbitol Muhammad Luthfi Ramadhan; Anfasa Mulky El-syarif; Agus Widayoko
Jurnal Integrasi Sains dan Quran Vol 5 No 01 (2026): Februari
Publisher : SMA Trensains Muhammadiyah Sragen

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.64477/501517-526

Abstract

Plastic waste is a serious problem in Indonesia, with a total of 359.06 tonnes of plastic waste entering the sea in 2023, making Indonesia the fifth largest contributor of plastic waste to the oceans in the world. The non-biodegradable nature of conventional plastics causes prolonged environmental pollution, necessitating environmentally friendly alternatives to plastic. This study aims to analyse the manufacturing process and productivity of bioplastics made from bagasse waste and chicken bone extract gelatin using sorbitol plasticiser as a plasticiser. This study is descriptive in nature with a quantitative data approach, with data collected through observation, experimentation, and literature review. The tests included water absorption, load resistance, pH, and organoleptic tests. The results of this study show that bioplastics have transparent brown characteristics, a slightly rough soft texture, and a distinctive sweet aroma. In addition, the bioplastic in this study also showed water absorption of 13.46%, load resistance of up to 1 kg, and a pH value of 6-7. The test results have met the standards of SNI 7188.7:2016, SNI 01-2891-1992, and ISO 13302:2003. Based on the tests conducted in this study, the bioplastic meets the criteria as an alternative to conventional plastic. This product can also contribute to reducing plastic waste while effectively utilising organic waste.
Pemanfaatan Minyak Jelantah dengan Ampas Tebu Teraktivasi sebagai Katalis Sekaligus Media Adsorpsi untuk Produksi Biodiesel Mendukung Indonesia Emas 2045 Mawan Zhuhri, Faldanil; Abrar, Raka Afifuddin; Widayoko, Agus; Hidayati, Nurul
Jurnal Integrasi Sains dan Quran Vol 5 No 01 (2026): Februari
Publisher : SMA Trensains Muhammadiyah Sragen

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.64477/501527-539

Abstract

The increasing use of diesel fuel in Indonesia has prompted the need for more environmentally friendly alternative energy sources, one of which is through the use of used cooking oil as a raw material for biodiesel. This study aims to determine the effectiveness of activated bagasse as a catalyst and adsorbent in improving biodiesel quality. The method used is a laboratory experiment that includes the process of purifying used cooking oil with RBD adsorption, transesterification reaction using activated bagasse catalyst, and testing biodiesel quality through ALB, density, flash point, and yield parameters. The results showed that activated bagasse was able to reduce the free fatty acid content from 0.20224% to 0.04096% after purification, and in biodiesel it decreased further to 0.0256%. The transesterification process took 65 minutes, close to the standard 60 minutes, with the resulting biodiesel having a density of 0.86 g/mL, a flash point of 98°C, and a yield of 74%. Based on these results, activated sugarcane bagasse is considered quite effective as an environmentally friendly catalyst in the production of biodiesel from waste cooking oil and has the potential to be a more beneficial solution for the utilization of biomass waste.
Pengaruh Penambahan Zeolit dan Karbon Aktif pada Papan Partikel Berbahan Dasar Ampas Tebu (Saccharum officinarum L.) dan Biomassa Lignoselulosa terhadap Kekuatan Mekanik serta Potensi Adsorptif terhadap Gas Polutan Bernice Kinan Pindyastama; Almahabah Nur Illahi; Fatichah Lutfi Zata Aqmar; Agus Widayoko
Jurnal Integrasi Sains dan Quran Vol 5 No 01 (2026): Februari
Publisher : SMA Trensains Muhammadiyah Sragen

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.64477/501551-560

Abstract

Indonesia is one of the largest sugarcane producers in Southeast Asia, but the bagasse waste produced is often underutilized and can pollute the environment. This study developed particle boards based on sugarcane bagasse and lignocellulosic biomass with the addition of zeolite and activated carbon. This study focused on observing the effect of adding zeolite and activated carbon as reinforcing materials for particle boards as well as adsorbents for pollutant gases. The method used in this study was quantitative research with an experimental approach. Data collection was conducted through observation and literature review. The boards were made by mixing biomass, bagasse, zeolite, activated carbon, resin, and catalyst in certain proportions, then molded and pressed until dry. Testing was carried out through load resistance testing (ASTM D1037-12), water absorption testing (SNI 03-2105-2006), and pollutant gas adsorption testing (SNI 19-7117.7-2005). The results showed that the board could withstand loads of up to 62 kg, had a water absorption capacity of 36.4%, and a CO gas adsorption efficiency of 44%. These findings prove that the addition of zeolite and activated carbon effectively increases mechanical strength and adsorption function, making particle boards an environmentally friendly construction solution and a means of reducing air pollutants.
Optimalisasi Bioherbisida Berbasis Limbah Kulit Jeruk Nipis (Citrus aurantifolia.) dengan Penambahan Effective Microorganisms (EM) sebagai Pengendalian Gulma pada Sektor Pertanian Padi Islam, Muhammad Fardan; Fausta Subagya, Evan; Giesty Trienita; Widayoko, Agus
Jurnal Integrasi Sains dan Quran Vol 5 No 01 (2026): Februari
Publisher : SMA Trensains Muhammadiyah Sragen

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.64477/501561-576

Abstract

This study aims to optimize bioherbicides based on lime peel waste (Citrus aurantifolia) supplemented with Effective Microorganisms (EM4) as an environmentally friendly alternative to synthetic herbicides in rice fields. This study utilizes natural phytotoxic compounds such as flavonoids, limonene, and tannins, which are enhanced through microbial fermentation. This study is descriptive with a qualitative comparative approach. The methods used include Soxhlet extraction with 96% ethanol, fermentation with EM4 concentrations of 0%, 3%, 5%, and 10%, and seven days of observation of organoleptic properties, soil pH, and weed toxicity. Data analysis compared changes in solution and weed response between treatments. Increased EM4 concentration resulted in a stronger odor, darker solution, and higher herbicide effectiveness; the 5% and 10% treatments caused total drying and collapse of weeds within 5–7 days, while 0% and 3% only caused mild chlorosis. Soil pH remained stable at 7, indicating no negative effects on soil fertility. Therefore, lime peel bioherbicide shows strong potential as an effective, inexpensive, and sustainable weed control option.

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