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"[ABSTRAKSintesis TiO2 bermorfologi nanotube array bentuk film (TNTAs) telah dilakukan dengan proses anodisasi logam Ti dalam larutan elektrolit gliserol yang mengandung NH4F, dilanjutkan dengan annealing untuk membuat fasa kristal dari TNTAs. Optimasi berbagai parameter meliputi variasi kadar air dalam larutan elektrolit, perlakuan annealing, penambahan NaBF4, metode dan lama pengadukan serta variasi loading dan metode dalam penambahan dopan logam Pt. Hasil SEM/FESEM menunjukkan bahwa TNTAs berhasil disintesis dengan tube yang rapi, tegak lurus dan mempunyai kisaran diameter dalam antara 49-205 nm, tebal dinding 11-33 nm serta panjang 530-2577 nm. Annealing dengan H2/Ar merupakan cara yang efisien untuk memasukkan dopan C, N dan B dalam matrik TNTAs secara insitu saat anodisasi, sehingga diperoleh penurunan energi band gap sampai pada kisaran 2,20?3,10 eV. Kebanyakan TNTAs berfasa anatase dengan ukuran kristal dari 18?33 nm. TNTAs yang disintesis pada kadar air 25% volume dan annealing dengan 20% H2/Ar merupakan fotokatalis optimal yang menghasilkan kerapatan arus tertinggi. Uji TNTAs untuk memproduksi hidrogen menggunakan gliserol sebagai sacrificial agent. Penambahan 5 mM NaBF4 selama anodisasi menghasilan TNTAs termodifikasi yang mampu menghambat laju rekombinasi elektron-hole sehingga dapat meningkatkan produksi hidrogen sebesar 32 %. Penambahan dopan Pt sebagai electron trapper secara fotodeposisi pada TNTAs hasil anodisasi ultrasonik mampu menghasilkan hidrogen dari larutan gliserol sebesar lima kali lebih tinggi dibandingkan tanpa penambahan Pt.;

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ABSTRACTSynthesis of TiO2 nanotube array (TNTAs) has been performed by anodization process of Ti metal in the glycerol electrolyte solution containing NH4F followed by annealing to induce crystallization. Optimization some parameters was done including the variation of water content in the electrolyte solution, annealing atmosphere, addition of NaBF4, mode of mixing, as well as the variation of loading and the methods of Pt addition on the TNTAs. SEM/FESEM analysis showed that well ordered and vertically oriented of TNTAs with inner diameters of 49-205 nm, wall thicknesses from 11 to 33 nm and lengths from 530 to 2577 nm were synthesized. Annealing with H2/Ar is found to be an efficient method for introducing dopant C, N and B into the lattice of TNTAs via insitu anodization and, therefore, the reducing band gap in the range of 2,20?3,10 eV can be obtained. Most of TNTAs have anatase phase with the crystalline size from 18 to 33 nm. Water content of 25 v% and annealing under H2/Ar of as-synt TNTAs showed optimal condition in producing the highest photocurrent density. The photocatalytic hydrogen production test was performed with glycerol as a sacrificial agent. The addition of 5 mM NaBF4 during anodization resulted modified TNTAs that can reduce recombination of electron-hole and showed up 32 % improvement in hydrogen production. The photodeposition of Pt on the TNTAs that obtained from ultrasonic anodization can enhance hydrogen production five times higher compare to the one with unplatinized TNTAs.;Synthesis of TiO2 nanotube array (TNTAs) has been performed by anodization process of Ti metal in the glycerol electrolyte solution containing NH4F followed by annealing to induce crystallization. Optimization some parameters was done including the variation of water content in the electrolyte solution, annealing atmosphere, addition of NaBF4, mode of mixing, as well as the variation of loading and the methods of Pt addition on the TNTAs. SEM/FESEM analysis showed that well ordered and vertically oriented of TNTAs with inner diameters of 49-205 nm, wall thicknesses from 11 to 33 nm and lengths from 530 to 2577 nm were synthesized. Annealing with H2/Ar is found to be an efficient method for introducing dopant C, N and B into the lattice of TNTAs via insitu anodization and, therefore, the reducing band gap in the range of 2,20?3,10 eV can be obtained. Most of TNTAs have anatase phase with the crystalline size from 18 to 33 nm. Water content of 25 v% and annealing under H2/Ar of as-synt TNTAs showed optimal condition in producing the highest photocurrent density. The photocatalytic hydrogen production test was performed with glycerol as a sacrificial agent. The addition of 5 mM NaBF4 during anodization resulted modified TNTAs that can reduce recombination of electron-hole and showed up 32 % improvement in hydrogen production. The photodeposition of Pt on the TNTAs that obtained from ultrasonic anodization can enhance hydrogen production five times higher compare to the one with unplatinized TNTAs., Synthesis of TiO2 nanotube array (TNTAs) has been performed by anodization process of Ti metal in the glycerol electrolyte solution containing NH4F followed by annealing to induce crystallization. Optimization some parameters was done including the variation of water content in the electrolyte solution, annealing atmosphere, addition of NaBF4, mode of mixing, as well as the variation of loading and the methods of Pt addition on the TNTAs. SEM/FESEM analysis showed that well ordered and vertically oriented of TNTAs with inner diameters of 49-205 nm, wall thicknesses from 11 to 33 nm and lengths from 530 to 2577 nm were synthesized. Annealing with H2/Ar is found to be an efficient method for introducing dopant C, N and B into the lattice of TNTAs via insitu anodization and, therefore, the reducing band gap in the range of 2,20–3,10 eV can be obtained. Most of TNTAs have anatase phase with the crystalline size from 18 to 33 nm. Water content of 25 v% and annealing under H2/Ar of as-synt TNTAs showed optimal condition in producing the highest photocurrent density. The photocatalytic hydrogen production test was performed with glycerol as a sacrificial agent. The addition of 5 mM NaBF4 during anodization resulted modified TNTAs that can reduce recombination of electron-hole and showed up 32 % improvement in hydrogen production. The photodeposition of Pt on the TNTAs that obtained from ultrasonic anodization can enhance hydrogen production five times higher compare to the one with unplatinized TNTAs.]"

"ABSTRAKKebutuhan bahan pembersih yang terus meningkat dapat menyebabkan meningkatnya pencemaran lingkungan akibat penggunaan detergen komersial yang mengandung surfaktan bersifat toksik, seperti Sodium Lauryl Sulfate SLS , Linear Alkylbenzene Sulfonate LAS dan Sodium Laureth Sulfate SLES . Surfaktan Methyl Ester Sulfonate MES dapat mensubstitusi surfaktan toksik tersebut dalam detergen. Pembentukan MES dilakukan dengan esterifikasi dan transesterifikasi crude palm oil, sulfonasi, pemurnian, dan penetralan. Nanomaterial fotokatalis TiO2 ditambahkan sebagai bahan aditif untuk meningkatkan kinerja surfaktan dalam mengangkat kotoran dan mendegradasi senyawa organik. Variasi komposisi surfaktan MES dan TiO2 dilakukan untuk memperoleh kestabilan detergen. Teknik analisis data dalam penelitian ini adalah karakterisasi metil ester, surfaktan MES, dan detergen menggunakan instrumen spektrofotometer UV-Vis, FTIR, GC-MS, dan LC-MS. Kondisi optimum pada proses esterifikasi dan transesterifikasi adalah rasio mol 1:6 antara CPO dan metanol berdasarkan konversi tertinggi, yaitu 99 . Kondisi optimum proses sulfonasi adalah rasio mol 1:5 antara metil ester dan NaHSO3 berdasarkan nilai tegangan permukaan terendah, yaitu sekitar 36 dyne/cm . Komposisi detergen yang menunjukkan kestabilan terbaik adalah 0,1 TiO2-3 MES-2 CMC yang memiliki kemampuan mengangkat kotoran sekitar 86 dan sisa surfaktan dalam air sisa cucian menjadi sekitar 33.

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ABSTRACTThe increasing need for cleaning agents can lead to increased environmental pollution due to the use of commercial detergents that containing toxic surfactants, such as Sodium Lauryl Sulfate SLS , Linear Alkylbenzene Sulfonate LAS and Sodium Laureth Sulfate SLES . The Methyl Ester Sulfonate MES surfactant may substitute the toxic surfactant in the detergent. The formation of MES is carried out by esterification and transesterification of crude palm oil, sulfonation, refining, and neutralization. The photocatalyst nanoparticle TiO2 is added as an additive to improve surfactant performance in removing impurities and degrading organic compounds. Variations of MES surfactant and TiO2 compositions were performed to obtain detergent stability. Data analysis technique in this research is methyl ester, MES surfactant, and detergent characterization using UV Vis spectrophotometer instrument, FTIR, GC MS, and LC MS. The optimum condition in esterification and transesterification process is 1 6 mole ratio between CPO and methanol based on the highest conversion, 99 . The optimum condition of the sulfonation process is the 1 5 mole ratio between methyl ester and NaHSO3 based on the lowest surface tension value, which is about 36 dyne cm. Detergent composition which showed the best stability was 0.1 TiO2 3 MES 2 CMC which has the ability to remove impurities by 86 and the remaining surfactant in residual water was 33."

"ABSTRAKPengembangan deterjen cair ramah lingkungan berbasis titania, surfaktan nabati, dan zeolit 4A telah dilakukan. Prinsip kerja deterjen tersebut adalah pengangkatan kotoran oleh surfaktan nabati, kemudian dilanjutkan dengan fotodegradasi katalitik terhadap air buangan cucian oleh titania. Adapun penambahan zeolit 4A berperan untuk meningkatkan kinerja deterjen dalam air sadah (builder). Produk deterjen yang dihasilkan adalah berbentuk cair, sehingga ditambahkan carboxy methyl cellulose (CMC) sebagai pengental dan penstabil deterjen. Hasil penelitian menunjukkan bahwa deterjen non-konsentrat dengan rasio konsentrasi titania 0,1% dan surfaktan palmPAS 0,7% memiliki kemampuan mengangkat kotoran (methylene blue) sebesar 89%, dan kandungan surfaktan sisa pencucian menurun hingga 14%. Komposisi optimal deterjen konsentrat untuk pencucian dengan air non-sadah adalah 1% TiO2, 7% palmPAS, 2% CMC, dan 90% air dengan kemampuan mengangkat kotoran lebih dari 50% pada beban pencucian 2 kali deterjen non-konsentrat. Adapun komposisi optimal deterjen konsentrat untuk pencucian dengan air sadah maksimum 100 ppm Ca2+ adalah 1% TiO2, 7% palmPAS, 2% CMC, 2% zeolit, dan 88% air dengan kemampuan mengangkat kotoran sebesar 35% pada beban pencucian 2 kali deterjen non-konsentrat.

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ABSTRACTThis study has further investigated the development of eco-friendly liquid detergent using titania, natural-based surfactant, and 4A zeolite. The principle of the detergents is the dirt removal by natural-based surfactant, followed by catalytic photodegradation of the laundry?s waste water by titania. The addition of zeolite improves the detergent performance in hard water (builder). As the detergent format is liquid, carboxy methyl cellulose (CMC) was added as the thickener and the detergent?s stabilizer. Research showed that non concentrated detergent with 0,1%Titania-0,7%palmPAS surfactant ratio was able to remove 89% of dirt (methylene blue) together with 14% reduction of the residual surfactants. The optimize condition for concentrated detergent washed with non-hard water is 1% TiO2, 7% palmPAS, 2% CMC, and 90% water. It was able remove more than 50% of dirt for 2 times detergent non-concentrated washing. While the optimize condition for concentrated detergent washed with maximum 100 ppm Ca2+ hard water is 1% TiO2, 7% palmPAS, 2% CMC, 2% zeolite, and 88% water. It was able remove 35% of dirt for 2 times detergent non-concentrated washing."

"ABSTRAKPendorong utama di balik pengembangan agen pembersih adalah untuk mencari baha aktif yaitu surfaktan yang relatif lebih ramah lingkungan. Sekitar 65-70 surfaktan anionik yang diproduksi komersial dihasilkan dari bahan baku tidak terbarukan, sedangkan sisanya diproduksi dari minyak konsumsi seperti minyak kelapa sawit dan kelapa yang nantinya dapat mengganggu kestabilan pangan. Penelitian ini memanfaatkan minyak non konsumsi dengan kadar asam lemak tinggi yaitu minyak jarak pagar untuk menghasilkan metil ester sulfonat MES sebagai salah satu bahan aktif agen pembersih. Penambahan nanopartikel titania dengan dopan tembaga dilakukan guna meningkatkan performa agen pembersih. Metil ester sulfonat disintesis melalui tiga tahap berurutan yaitu esterifikasi, transesterifikasi dan sulfonasi. Esterifikasi dilakukan dengan menggunakan katalis titania dengan bantuan sinar UV-A dengan variasi loading 0-10 dan perbandingan reaktan 1:12-1:48. Transesterifikasi dilakukan dengan menggunakan katalis NaOH 1 dengan minyak jarak pagar dan metanol 1:12. Sulfonasi dilakukan pada suhu 100oC selama 4,5 jam dengan mereaksikan NaHSO3 dan metil ester dengan variasi 1:1-1:3. Katalis disintesis dengan metode fotodeposisi dengan variasi dopan tembaga 1-3. Minyak jarak pagar dengan kandungan FFA 5,64 dapat turun menjadi 2,40 dengan loading katalis titania 7,5 dan rasio minyak jarak dan metanol 1:48. Metil ester sulfonat yang dihasilkan dari proses sulfonasi memiliki nilai tegangan permukaan 33,93-33,12 dyne/cm. Hasil uji bahan akif agen pembersih menunjukan bahwa agen pembersih optimum yaitu MES-20 dan 3 Cu/TiO2-0,1 memiliki nilai deterjensi 87 dengan kemampuan disinfeksi 90,30 selama 30 menit.

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ABSTRACTThe main urge behind the development of new surfactants as one of the active ingredients of cleaning agents is to look for surfactants that are relatively more environmentally friendly. Approximately 65 70 of commercially produced anionic surfactants are produced from non renewable feedstock, while the remainder is produced from edible oils such as palm oil and coconut which can disrupt food stability. This study utilizes non edible oil with high fatty acid content of jatropha oil to produce methyl ester sulfonate as one of the active ingredient of cleaning agent. The addition of titania nanoparticles with copper dopants is performed to improve the performance of cleaning agents. Methyl esters of sulfonates are synthesized through three successive stages of esterification, transesterification and sulphonation. Esterification was performed using titania catalyst with the aid of UV A light with loading variation of 0 10 and reactant ratio of 1 12 1 48. Transesterification was performed by using 1 NaOH catalyst with jatropha oil and methanol 1 12. Sulfonation is carried out at 100 C for 4.5 hours by reacting NaHSO3 and methyl ester with variation of 1 1 1 3. The Cu TiO2 nanoparticles was synthesized by photodeposition method with 1 3 copper dopant variation. Jatropha oil with FFA content of 5.64 can decrease to 2.40 with loading of 7.5 titania catalyst and ratio of jatropha oil and methanol 1 48. The methyl ester sulfonate produced from the sulfonation process has surface tension value of 33.93 33.12 dyne cm. The cleaning agent assay results showed that the optimum cleaning agent MES 20 and 3 Cu TiO2 0,1 had 87 detergency with 90.30 disinfect ability for 30 minutes. "

"Di Indonesia, indeks ultraviolet berada di angka 8 – 11 dan termasuk ke dalam kategori risiko bahaya yang sangat tinggi sehingga diperlukan perlindungan tambahan untuk perlindungan, yakni tabir surya. Namun, penggunaan tabir surya masih rendah. Penelitian ini bertujuan untuk mengetahui hubungan antara tingkat pengetahuan dan sikap terkait paparan sinar matahari dan penggunaan tabir surya pada mahasiswa. Sampel penelitian ini adalah 111 mahasiswa non-kesehatan yang tersebar dalam 9 fakultas di Universitas Indonesia, dengan desain penelitian deskriptif korelasional, pendekatan kuantitatif, dan rancangan cross-sectional. Penelitian ini mengembangkan 2 kuesioner dari CHACES (Cuestionario sobre hábitos, actitudes y conocimientos sobre exposición solar en adolescencia y edad adulta) dan Pramesti. Penelitian ini menggunakan Uji Chi-Square dengan hasil terdapat hubungan yang bermakna antara tingkat pengetahuan dengan sikap mahasiswa (p = 0,001; α = 0,05). Berdasarkan hasil penelitian, peneliti merekomendasikan untuk institusi pendidikan membentuk kurikulum terkait kesehatan kulit untuk lintas jurusan dan mempertimbangkan untuk anak sekolah sebagai langkah preventif.

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In Indonesia, the ultraviolet index is at 8 – 11 and is included in the category of very high hazard risk so that additional protection is needed, it is sunscreen. However, the use of sunscreen is still low. This study aims to determine the relationship between the level of knowledge and attitudes related to sun exposure and the use of sunscreen in college students. The sample of this study were 111 non-health students spread across 9 faculties at the University of Indonesia, with a correlational descriptive research design, a quantitative approach, and a cross-sectional design. This study developed 2 questionnaires from CHACES (Cuestionario sobre hábitos, actitudes y conocimientos sobre exposición solar en adolescencia y edad adulta) and Pramesti. This study used the Chi-Square Test with the result that there was a significant relationship between the level of knowledge and student attitudes (p = 0.001; α = 0.05). Based on the results of the study, the researchers recommended for educational institutions to form a curriculum related to skin health for cross-majors and consider it for school as a preventive measure."

"[ABSTRAKInjectable bone substitute (IBS) merupakan metode penanganan kerusakan tulang yang efektif, karena dapat mempermudah proses operasi dan memberi kenyamanan bagi pasien. Penelitian ini bertujuan untuk mengembangkan material pengisi tulang mampu injeksi berbasis kalsium fospat dengan perbandingan Ca/P (1.67) dan kitosan. Sintesis dilakukan dengan cara mencampurkan semen kalsium fosfat dan kitosan sebesar 0%, 4%, 8%, 11% dalam larutan Na2HPO4 (1mol/L) yang kemudian dicetak dan dipanaskan pada suhu 370C selama 2 jam. Sampel hasil percobaan kemudian dikarakterisasi dengan XRD, SEM, FTIR, serta pengujian kemampuan injeksi dan setting time. Dari hasil karakterisasi tersebut didapatkan bahwa proses injeksi yang baik dapat dilakukan dengan perbandingan larutan dan serbuk (0.68 ml/gram). Setting time dan kekuatan tekan meningkat dengan penambahan kitosan, sedangkan modulus kompresi-nya berkurang dari 140-106 MPa. Terbentuknya senyawa HA yang diindikasikan dari uji XRD serta hasil uji FTIR menunjukkan tidak ada ikatan secara kimia antara semen kalsium fospat (HA,DCPD) dan kitosan, melainkan berupa ikatan hidrogen. Adapun hasil karakterisasi menunjukkan bahwa produk IBS yang telah disintesis berpotensi untuk dijadikan material pengisi tulang. ABSTRACTInjectable bone substitute (IBS) is an effective methode to treat bone damage, because it can provide a minimun surgical and make the patient feel comfort. The aim of this study is to make injectable calcium phosphate-based bone substitute material with a ratio of Ca/P (1.67) and chitosan. Synthesis was performed by mixing calcium phosphate cement and chitosan at 0, 4, 8, 11 wt.% in Na2HPO4 (1 mol/L) as a solvent. Sampels were then characterized by using XRD, SEM, FTIR, injectability and seting time. The results showed that the injection process can be performed with liquid and powder rasio of 0.68 ml/g. Setting time and compression strength increases with the addition of chitosan, while its Young's modulus decreases. Formation of HA indicated by XRD and FTIR showed that there is no chemical bond between calcium phosphate cement (HA, DCPD) and chitosan, but in the form of hydrogen bonds. Based on the aforementioned data, the results showed that IBS produced in this work has the potential to be used as a bone substitute material., Injectable bone substitute (IBS) is an effective methode to treat bone damage, because it can provide a minimun surgical and make the patient feel comfort. The aim of this study is to make injectable calcium phosphate-based bone substitute material with a ratio of Ca/P (1.67) and chitosan. Synthesis was performed by mixing calcium phosphate cement and chitosan at 0, 4, 8, 11 wt.% in Na2HPO4 (1 mol/L) as a solvent. Sampels were then characterized by using XRD, SEM, FTIR, injectability and seting time. The results showed that the injection process can be performed with liquid and powder rasio of 0.68 ml/g. Setting time and compression strength increases with the addition of chitosan, while its Young's modulus decreases. Formation of HA indicated by XRD and FTIR showed that there is no chemical bond between calcium phosphate cement (HA, DCPD) and chitosan, but in the form of hydrogen bonds. Based on the aforementioned data, the results showed that IBS produced in this work has the potential to be used as a bone substitute material.]"

"Rekayasa karpet yang membersihkan sendiri, anti bakteri, dan bebas bau dilakukan dengan melapisi kitosan-titania nanokomposit pada karpet bulu sintetis. Nanokomposit disintesis dengan menambahkan kitosan ke TiO2 dengan menggunakan metode impregnasi basah. Nanokomposit kemudian ditandai dengan FTIR untuk menentukan ikatan yang terjadi, UV-Vis DRS untuk menentukan celah pita energi, dan SEM-EDX untuk menganalisis morfologi dan komposisi. Tes disinfeksi koloni E. coli dilakukan dengan menggunakan nanokomposit yang disintesis di bawah fotoreaktor akrilik untuk menganalisis kemampuan disinfektan. Setelah mendapatkan komposisi nanokomposit paling optimal berdasarkan tes, nanokomposit terbaik kemudian dilapisi di atas karpet. Serangkaian tes dilakukan pada karpet, termasuk uji pembersihan sendiri dengan mencelupkan karpet ke suspensi lumpur, uji fotodegradasi metilen biru, dan uji degradasi amonia. Hasil karakterisasi FTIR menunjukkan bahwa sejumlah ikatan terjadi antara kitosan dan TiO2, sementara UV-Vis DRS menunjukkan bahwa nanokomposit yang disintesis memiliki nilai celah pita 3,11 eV. Tes desinfeksi E-coli menunjukkan bahwa komposisi nanokomposit terbaik adalah konsentrasi kitosan 3wt%, sedangkan pembersihan sendiri, fotodegradasi metilen biru, dan uji degradasi amonia menunjukkan bahwa penambahan 0,67v% tetraetil ortosilikat adalah penambahan paling optimal dalam pelapisan nanokomposit pada permukaan karpet.

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A self-cleaning, anti bacterial, and odor free carpet engineering is conducted by coating chitosan-titania nanocomposite on a synthetic fur carpet. The nanocomposite is synthesized by adding chitosan to TiO2 by means of wet impregnation method. The nanocomposite is then characterized by FTIR to determine the bonds that occur, UV-Vis DRS to determine the energy bandgap, and SEM-EDX to analyze the morphology and composition.

An E. coli colony disincfection test is done using the synthesized nanocomposite under an acrylic photoreactor to analyze its disinfectant ability. After obtaning the most optimum nanocomposite composition based on the test, the best nanocomposite is then coated on the carpet. A series of tests is done to the carpet, including the self-cleaning test by dipping the carpet to mud suspension, methylene blue photodegradation test, and amonia degradation test.

The FTIR characterization result shows that a number of bonds occured between chitosan and TiO2, while UV-Vis DRS shows that the synthesized nanocomposite has a bandgap value of 3.11 eV. The E-coli disinfection test shows that the best nanocomposite composition is of the 3wt% chitosan concentration, while the self-cleaning, methylen blue photodegradation, and amonia degradation test shows that addition of 0.67v% tetraethyl orthosilicate is the most optimum addition in the nanocomposite coating on the carpet surface."

"Biomaterial komposit hidroksiapatit/kitosan adalah material yang penting untuk aplikasi medis, misalnya pada pembuatan scaffold tulang. Kitosan difosforilasi menggunakan asam ortofosfat sebelum pembuatan biomaterial. Biomaterial dengan komposisi berat 70% hidroksiapatit dan 30% kitosan dibuat menggunakan metode thermally induced phase separation (TIPS) pada temperatur pembekuan -20, -30, -40 dan -80°C sebelum freeze drying selama tiga hari. Penelitian memperlihatkan bahwa pada temperatur pembekuan -20°C, diperoleh ukuran pori terbesar, 48.24 μm, modulus kompresi tertinggi, 376.9 KPa, dan kekuatan tekan tertinggi, 38.4 KPa. Penelitian mengindikasikan bahwa pembuatan scaffold menggunakan metode TIPS pada temperatur pembekuan lebih tinggi menghasilkan sifat-sifat scaffold yang lebih baik untuk aplikasi medis.

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Biomaterials composite of hydroxyapatite/chitosan is preeminent material for medical application, such as bone scaffold fabrication. The chitosan had been phosphorylated using orthophosphoric acid prior to the biomaterials fabrication. Biomaterials with the weight composition of 70% hydroxyapatite and 30% chitosan has been fabricated using the thermally induced phase separation (TIPS) method in the freezing temperatures of -20, -30, -40 and -80°C before three days freeze drying. This research showed that in the freezing temperatures of -20°C, highest compression modulus of 376.9 KPa, highest compressive strength of 38.4 KPa and biggest pore size of 48.24 μm are achieved. This research indicates that scaffold fabrication using TIPS method in higher freezing temperature results in better scaffold properties for medical application."

"Kerusakan pada tulang atau cacat tulang merupakan masalah kesehatan masyarakat di seluruh dunia yang perlu diperhatikan, karena dapat mengganggu aktivitas kehidupan. Metode yang cukup menjanjikan untuk penyembuhan cacat tulang adalah fabrikasi perancah dari bahan biomaterial. Perancah adalah biomaterial padat berbentuk 3 dimensi dengan struktur berpori yang dapat mendukung interaksi sel biomaterial, proliferasi, diferensiasi sel, dan dapat terurai dengan tingkat toksisitas minimal. Penelitian ini bertujuan untuk memfabrikasi perancah dengan komposit berupa hidroksiapatit (HAp)/kolagen/kitosan, hidroksiapatit/kolagen/kitosan/functionalized-multi walled carbon nanotube (f-MWCNT) dengan hidroksiapatit serta kolagen hasil ekstraksi tulang ikan tuna, hidroksiapatit/kolagen/kitosan/titanium dioksida (TiO2), dan hidroksiapatit/kolagen/kitosan/functionalized-multi walled carbon nanotube (f-MWCNT). Fabrikasi dilakukan dengan menggunakan metode freeze drying. Perancah hasil fabrikasi dikarakterisasi sifat biologisnya melalui uji biokompatibilitas dengan MTS assay dan uji diferensiasi sel dengan pewarnaan alizarin merah. Uji viabilitas menunjukkan sel umumnya bermigrasi dan menempel dekat perancah. Penambahan bahan mekanik f-MWCNT dan titanium dioksida pada perancah dapat mengurangi viabilitas sel. Namun, pada kadar yang tepat, perancah dengan kandungan f-MWCNT atau titanium dioksida dapat memiliki sifat viabilitas yang baik. Uji diferensiasi menunjukkan penambahan bahan mekanik f-MWCNT dan titanium dioksida dapat menginduksi diferensiasi osteogenik namun hasilnya masih tidak optimal.

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Damage to bones or bone defects is a public health problem around the world that needs attention because it can interfere many life activities. A promising method for healing bone defects is the fabrication of scaffolds from biomaterials. Scaffolds are solid biomaterials in 3-dimensional sHApe with a porous structure that can support biomaterial cell interactions, proliferation, cell differentiation, and can be decomposed with minimal toxicity. This study aims to fabricate scaffolds with composites in the form of hydroxyapatite/collagen/chitosan, hydroxyapatite/collagen/chitosan/functionalized MWCNT (f-MWCNT) where the hydroxyapatite and collgen used were obtained from tuna fish bone extraction, hydroxyapatite/collagen/chitosan/titanium dioxide, and hydroxyapatite/collagen/chitosan/functionalized MWCNT (f-MWCNT). Fabrication was carried out using freeze drying method. The fabricated scaffolds were characterized for their biological properties through biocompatibility test with MTS assay and cell differentiation test with alizarin red staining. Viability tests showed cells generally migrated and adhered near the scaffold. The addition of mechanical material f-MWCNT and titanium dioxide to the scaffold can reduce cell viability. However, at the right levels, scaffolds containing f-MWCNT or titanium dioxide can have good viability. The differentiation test showed that the addition of mechanical material f-MWCNT and titanium dioxide could induce osteogenic differentiation but the results were still not optimal."