Mikrajuddin Abdulah
Associate Professor
Faculty of Mathematics and Natural Sciences
Jl. Ganesa 10 Bandung, 40132, Indonesia
Email Address: din[at]fi.itb.ac.id
Telephone: +62(22) [2500834] xt: 241
Fax: +62 (22) [2506452]
Education:
- B.sc., Institut Teknologi Bandung (1992)
- Magister, Institut Teknologi Bandung (1996)
- Doctor, Hiroshima University, Jepang (2002)
Career Profile:
- Faculty Member (lecturer) at Institut Teknologi Bandung, Indonesia (1994 - now)
- Postdoctoral Fellow (Japan Society for the Promotion of Science), Japan (2002-2004)
Research Interest:
- Sythesis of Nanomaterials (nanoparticles, carbon nanutuber, nanocomposites)
- Applocations of nanostructured materials (display, luminescent nano-ink, nanocatalyst, cosmetics, etc)
- Other interests in Physical Education (writting some books of physics for secondary and higher schools development of simple apparatus for physical demonstrations, etc.)
Profil Umum
Dosen di Program Studi Fisika FMIPA-ITB. S1(ITB), S2(ITB), S3(Hiroshima University, Japan), Research Student (Hiroshima University, Japan), Post Doctoral (Hiroshima University, Japan), Visiting Scientist (University of California, Irvine, USA dimenjadian Hiroshima University, Japan)
Kata - kata :
Mari kita berikan sumbangsih terbaik bagi bangsa ini, sekecil apa pun itu. Jangan mengeluh atas keterbatasan yang kita miliki. Mari kita jadikan keterbatasa sebagai pemicu kreativitas dan inovasi.Saya berkeyakinan bahwa hal-hal yang kita pandang sepele, bisa bermakna besar bagi orang lain. Jadi, mari kita sampaiakan kepada orang lain hal-hal yang kita anggap penting, sekecil apa pun itu. Tidak ada makna lebih apabila kita simpan itu hanya untuk diri sendiri.
Buku - buku :
1.Judul: Karakterisasi Material Struktur Nano: Teori, Penerapan, dan Pengolahan Data. Penulis: Dr. Mikrajuddin Abdullah dan Dr. Khairurrijal. Penerbit: Rezeki Putera, Bandung
Petunjuk Ringkas: Dari Penulisan Paper hingga Koreksi Proof
oleh Mikrajuddin Abdullah, M.Si.
Karya ilmiah:
Abdullah, Mikrajuddin, Khairurrijal, Khairurrijal, Nuryadin, Bebeh W, Sustini, Euis
2. Synthesis of Oxide Particles Using a Polymer-Assisted Spray Pyrolysis Reactor, and a Percolation Explanation of Particle Separation (2010)Abdullah, Mikrajuddin, Khairurrijal, Khairurrijal, Nuryadin, Bebeh W, Sustini, Euis
3.Synthesis of Oxide Particles Using a Polymer-Assisted Spray Pyrolysis Reactor, and a Percolation Explanation of Particle Separation (2010)Abdullah, Mikrajuddin, Khairurrijal, Khairurrijal, Nuryadin, Bebeh W, Sustini, Euis
3.Very Wide Band Absorption of Sunlight Spectra using Titanium Dioxide Particles with Distributed Band Gap (2010)Mikrajuddin Abdullah, Indah Nurmawarti, Khairurrijal
4. The Effect of Liquid Properties to Fiber Radius on Electrospinning Process (2010)Sahrul Saehana, Mikrajuddin Abdullah, Khairurrijal
5.Application of Airy Function Approach to Model Electron Tunneling in Graphene Nanoribbon-Based P-N Junction Diodes (2010)Widi Yansen, Mikrajuddin Abdullah, Khairurrijal
Ahmad Rifqy Marully, Minsahril Bukit, Khairurrijal, Mikrajuddin Abdullah
7. A Low Cost Method for Coating of Titania Nanoparticles on Continuous Plastic Fibers (2010)Vandri Ahmad Isnaini, Mikrajuddin Abdullah, Khairurrijal
8. Synthesis of Luminescent Ink from Europium-Doped Y2O3 Dispersed in Polyvinyl Alcohol Solution (2009)Astuti, Mikrajuddin Abdullah, Khairurrijal
9. Review: Karakterisasi Nanomaterial (2009)Mikrajuddin Abdullah, Khairurrijal
10. Kajian Pembuatan Nanotube Karbon dengan Menggunakan Metode Spray Pyrolysis (2009)Fatimah A Noor, Lizi L Zaenufar, Yulkifli, Mikrajuddin Abdullah, Sukirno, Khairurrijal
11. Nanopartikel Ceria yang Didop Neodimium untuk Aplikasi Solid Oxide Fuel Cell (SOFC) (2009)Mikrajuddin Abdullah, Khairurrijal, Iis Nurhasanah, Ida Sriyanti, Ahmad Rifqy Marully
12. Pengembagan Reaktor Spray Pyrolysis dan Spray Drying Untuk Sintesis Partikel Oksida dan Partikel komposit Berbentuk Bulat dan Berukuran Mikrometer (2009)Bebeh Wahid Nuryadin, Ahmad Rifqy Marully, Khairuddin, Mikrajuddin Abdullah, Khairurrijal
13. Fabrication of Ordered Macroporous Titania Film using Self-assembly an Organic Template and A Simple Dip-Coating Technique (2009)Asep BN Nandiyanto, Mikrajuddin Abdullah, Ferry Iskandar, Kikuo Okuyama
14. Pembuatan Fiber Dengan Menggunakan Teknik Ekstrusi Rotasi (2009)Ade Yeti Nuryantini, Mikrajuddin Abdullah, Khairurrijal
15. Peningkatan Efektivitas Defoamer Silika (SiO2) dengan Coating Pada HDPE (High Density Polyethylene) (2009)Maria Evita, Mikrajuddin Abdullah, Hernawan Mahfudz, Khairurrijal
16. Simulasi Fabrikasi Serat Nano (Nanofiber) dengan Metoda Pemintalan Elektrik (Electrospinning): Pengaruh Jarak Nozzle-Kolektor (2009)Sahrul Saehana, Mikrajuddin Abdullah, Khairurrijal
17. Sintesis Keramik Berbasis Komposit Clay-Karbon dan Karakterisasi Kekuatan Mekaniknya (2009)Mikrajuddin Abdullah, Anggie Dewi Sonya, Bebeh Wahid Nuryadin, Ahmad Rifqy Marully, Khairuddin, Khairurrijal
18. Teknik Pemintalan Elektrik untuk Pembuatan Nanoserat: dari Pemodelan hingga Eksperimen (2009)Khairurrijal, Muhammad M Munir, Sahrul Saehana, Ferry Iskandar, Mikrajuddin Abdullah
19. Sintesis Nanopori Karbon dari Tempurung Kelapa sebagai Elektroda pada Superkapasitor (2009)Memoria Rosi, Mikrajuddin Abdullah, Khairurrijal Khairurrijal
20. Distribusi Celah Pita Energi “Titania Kotor” (2009)Indah Nurmawarti, Mikrajuddin Abdullah, Khairurrijal
21. Simulasi Geometri Nanoserat Hasil Pemintalan Elektrik (2009)Sahrul Saehana, Mikrajuddin Abdullah, Khairurrijal
22. Pelapisan Nanomaterial TiO2 Fasa Anatase pada Nilon Menggunakan Bahan Perekat Aica Aibon dan Aplikasinya Sebagai Fotokatalis (2009)Haruno Subiyanto, Mikrajuddin Abdullah, Khairurrijal, Hernawan Mahfudz
23. Penjernihan Air Dari Pencemar Organik dengan Proses Fotokatalis pada Permukaan Titanium Dioksida (TiO2) (2009)Osi Arutanti, Mikrajuddin Abdullah, Khairurrijal, Hernawan Mahfudz
24. Analisa Pemanfaatan Gas Produk dari Reaksi Steam Reforming Methanol pada Permukaan Katalis Cu/ZnO/Al2O3 yang Disintesis Menggunakan Metoda Simple Heating (2009)Ahmad Rifqy Marully, Mikrajuddin Abdullah, Khairurrijal
25. Sintesis Nanopartikel Y2O3:Eu (Yttria) yang Didispersikan dalam Larutan Polivinil Alkohol Sebagai Tinta Luminisens (2009)Astuti, Mikrajuddin Abdullah, Khairurrijal
26. Titanium Dioxide-based Reusable Microporous Water Filter Using Silicon Dioxide as Filler (2009)Aris Priatama, Mikrajuddin Abdullah, Khairurrijal, Khairurrijal
27. Pembuatan Jaring Serat Komposit PET/TiO2 Menggunakan Teknik Ekstrusi Rotasi (2009)Ade Yeti Nuryantini, Mikrajuddin Abdullah, Khairurrijal
28. Sintesis Nanokatalis CuO/ZnO/Al2O3 Untuk Mengubah Metanol Menjadi Hidrogen untuk Bahan Bakar Kendaraan Fuel Cell (2009)Liherlinah, Mikrajuddin Abdullah, Khairurrijal
28. Model of a tunneling current in an anisotropic Si/Si1-xGex/Si heterostructure with a nanometer-thick barrier including the effect of parallel-perpendicular kinetic energy coupling (2008)Hasanah, Lilik, Abdullah, Mikrajuddin, Sukirno, ?, Winata, Toto, Khairurrijal,?
29. Optical and electrical properties of indium tin oxide nanofibers prepared by electrospinning (2008)Munir, Muhammad Miftahul, Iskandar, Ferry, Yun, Ki Myoung, Okuyama, Kikuo, Abdullah, Mikrajuddin
30. Sintesis dan Pengujian Katalis Nanokristallin Cu/ZnO/Al2O3 Dengan Metode Pemanasan Dalam Larutan Polimer Untuk Aplikasi Konversi Metanol Menjadi Hidrogen (2008)Mikrajuddin Abdullah, Khairurrijal Khairurrijal, Ahmad Rifqy Maruly, Liherlinah Liherlinah, Muhammad Sanny
31. Pemanasan Nanopartikel Dengan Sintering Rendah (2008)Mikrajuddin Abdullah, Khairurrijal Khairurrijal
32. Fabrikasi Material Nanokomposit Superkuat, Ringan dan Transparan Menggunakan Metode Simple Mixing (2008)Hadiyawarman, Agus Rijal, Bebeh Wahid Nuryadin, Mikrajuddin Abdullah, Khairurrijal
33. Desain Prototipe Reaktor Steam Reforming Menggunakan Ultrasonik Nebulizer (2008)Liherlinah, Muhammad Sanny, Ahmad Rifki Marully, Mikrajuddin Abdullah, Khairurrijal
34. Derivation of Scherrer Relation Using an Approach in Basic Physics Course (2008)Mikrajuddin Abdullah, Khairurrijal
35. Review: Sintesis Nanomaterial (2008)Mikrajuddin Abdullah, Yudistira Virgus, Nirmin, Khairurrijal
36. Sumber Cahaya Putih Struktur LuCoLed Menggunakan Nano dan Submikro Partikel (Y,Gd)3Al5O12 yang Didop Cerium Dengan Eksitasi Cahaya Biru (2008)Mikrajuddin Abdullah, Khairurrijal
37. Fabrication and photoluminescence of highly crystalline GaN and GaN:Mg nanoparticles (2005)Ogi, Takashi, Itoh, Yoshifumi, Abdullah, Mikrajuddin, Iskandar, Ferry, Azuma, Yasushi, Okuyama, Kikuo
Dr. Eng Mikrajuddin Abdullah, Pakar Nano Teknologi ITB
Sulap Air Danau Jadi Jernih dengan Alat Berenergi Matahari
Limbah pabrik dan domestik yang memenuhi sungai dan danau bisa sekejap jernih dan bersih. Aroma tak sedap yang keluar dari air Itu pun lenyap. Hanya dengan alat berenergi matahari yang ditemukan Dr. Eng Mikrajuddin Abdullah pakar nano teknologi; ITB. Seperti apa?D
RIKO NOVIANTORO, Kota Depok
PERSOALAN air kotor di sungai dan danau yang tercemar menjadi persoalan serius. Mulai pemberian sanksi bagi pelaku pencemaran, sampai kegiatan rutin membersihkan air sungai yang dilakukan berbagai kelompok sosial. Namun hasilnya belum juga optimal. Tapi, bagi
Dr. Eng Mikrajuddin Abdullah persoalan air kotor yang bikin mumet pemerintah daerah, bisa diselesaikan denga sederhana.
Air kotor yang tampak sulit ditangani itu mendadak begitu jernih dan dijamin bebas
bakteri. "Itu bukan hanya pada ukuran gelas saja. Satu danau yang luas berhektar-hektar bisa bersih dengan alat ini," ujar peraih gelar Doctor di Hiroshima University Jepang, 2002 itu.
Mikrajuddin Abdullah bersama dua rekannya ini berhasil menemukan alat pen jernih air. Dengan teori dasar, rusaknya air sungai dan danau itu dipicu tumbuhnya mikroba air dalam jumlah banyak. Mikroba itulah yang memicu air menjadi rusak dan berbau. "Kebanyakan pencemar air sungai adalah limbah organik yang bisa diurai." ungkapnya berteori. Dengan dasar teori itu, kata Mikra butuh alat yang mampu mengurai organik tersebut.
Tetapi harus berenergi murah dan gampang. Ditemukanlah penggunaan partikel titanium dioksida (TiO2) sebagai bahan utama. Menurutnya buhan kristal putih itu sangat mudah bereaksi di bawah sinar matahari. Elektron dan hole di dalamnya bekerja menghasilkan radikal bebas ion hidroksil dan anion super-
oksida. Di dalam air, keduanya memicu reaksi kimia yang disebut fotokatalisis.
"Hasilnya polutan organik itu menjadi gas atau senyawa lain yang ndak beracun." papar dia saat pemaparan Research Without Boundaries di kampus UI, kemarin. Kepala Labora; torium Sintesis dan Fungsionalisasi Nano-material ini juga menjelaskan metode yang sama telah diterapkan di Jepang, Australia, dan negara di Eropa sekitar tahun 2000. Hanya saja di negara maju itu masih ada persoalan. Yakni jenis titanium dan teknis menyebarkannya di sungai. "Serbuk TiO2 itu disebar di sungai yang tersinar matahari. Hasilnya terjadi reaksi dan air pun menjadi jernih," singkatnya menjelaskan teori pembersihan air dengan alatnya itu.
"Kita sudah uji di laboratorium air yang setelah diproses. Penyinaran itu butuh waktu sekitar 3-4 hari," terang pria yang dikenal kreatif itu. Teori pembersiahan air danau ini telah diuji di Danau Pulomas, Jakarta dengan hasil memuaskan. (*)http://bataviase.co.id/detailberita-10387601.html
sumber :
http://youmikra.blogspot.com/
http://facebook/Mikrajuddin Abdullah
http://en.scientificcommons.org/mikrajuddin_abdullah
http://bataviase.co.id/detailberita-10387601.html
http://www.bukabuku.com/authorscorner/detail/646/mikrajuddin-abdullah-m-si-.html
http://www.fmipa.itb.ac.id/index.php/in/component/content/250/250?task=view
___________________________________________________________
Scientist Profile: Dr.Eng. Mikrajuddin Abdullah, M. Si, lecturer in 2010 Achievement
Dr. Eng. Mikrajuddin Abdullah, M.Si
Mikrajuddin Abdulah
Associate Professor
Faculty of Mathematics and Natural Sciences
Jl. Ganesa 10 Bandung, 40132, Indonesia
Email Address: din[at]fi.itb.ac.id
Telephone: +62(22) [2500834] xt: 241
Fax: +62 (22) [2506452]
Education:
- B.sc., Institut Teknologi Bandung (1992)
- Magister, Institut Teknologi Bandung (1996)
- Doctor, Hiroshima University, Jepang (2002)
Career Profile:
- Faculty Member (lecturer) at Institut Teknologi Bandung, Indonesia (1994 - now)
- Postdoctoral Fellow (Japan Society for the Promotion of Science), Japan (2002-2004)
Research Interest:
- Sythesis of Nanomaterials (nanoparticles, carbon nanutuber, nanocomposites)
- Applocations of nanostructured materials (display, luminescent nano-ink, nanocatalyst, cosmetics, etc)
- Other interests in Physical Education (writting some books of physics for secondary and higher schools development of simple apparatus for physical demonstrations, etc.)
Lecturer in Science Faculty-Physics Studies Program of ITB. S1 (ITB), S2 (ITB), S3 (Hiroshima University, Japan), Research Student (Hiroshima University, Japan), Post Doctoral (Hiroshima University, Japan), Visiting Scientist (University of California, Irvine, USA dimenjadian Hiroshima University, Japan)
Words - words:
Let us give the best contribution to this nation, no matter how small it was. Do not complain of the limitations we have. Let's make keterbatasa as trigger creativity and inovasi.Saya believes that the things we consider trivial, can be significantly greater for others. So, let us sampaiakan to others the things we think are important, no matter how small it was. There are no more meaning if we keep it just for yourself.
Books :
1.Title: Karakterisasi Material Struktur Nano: Teori, Penerapan, dan Pengolahan Data. Writer: Dr. Mikrajuddin Abdullah dan Dr. Khairurrijal. Publishing : Rezeki Putera, Bandung
Petunjuk Ringkas: Dari Penulisan Paper hingga Koreksi Proof
by Mikrajuddin Abdullah, M.Si.
Paper / science journal :
1.Synthesis of Oxide Particles Using a Polymer-Assisted Spray Pyrolysis Reactor, and a Percolation Explanation of Particle Separation (2010)
Abdullah, Mikrajuddin, Khairurrijal, Khairurrijal, Nuryadin, Bebeh W, Sustini, Euis
2. Synthesis of Oxide Particles Using a Polymer-Assisted Spray Pyrolysis Reactor, and a Percolation Explanation of Particle Separation (2010)Abdullah, Mikrajuddin, Khairurrijal, Khairurrijal, Nuryadin, Bebeh W, Sustini, Euis
3.Synthesis of Oxide Particles Using a Polymer-Assisted Spray Pyrolysis Reactor, and a Percolation Explanation of Particle Separation (2010)Abdullah, Mikrajuddin, Khairurrijal, Khairurrijal, Nuryadin, Bebeh W, Sustini, Euis
3.Very Wide Band Absorption of Sunlight Spectra using Titanium Dioxide Particles with Distributed Band Gap (2010)Mikrajuddin Abdullah, Indah Nurmawarti, Khairurrijal
4. The Effect of Liquid Properties to Fiber Radius on Electrospinning Process (2010)Sahrul Saehana, Mikrajuddin Abdullah, Khairurrijal
5.Application of Airy Function Approach to Model Electron Tunneling in Graphene Nanoribbon-Based P-N Junction Diodes (2010)Widi Yansen, Mikrajuddin Abdullah, Khairurrijal
Ahmad Rifqy Marully, Minsahril Bukit, Khairurrijal, Mikrajuddin Abdullah
7. A Low Cost Method for Coating of Titania Nanoparticles on Continuous Plastic Fibers (2010)Vandri Ahmad Isnaini, Mikrajuddin Abdullah, Khairurrijal
8. Synthesis of Luminescent Ink from Europium-Doped Y2O3 Dispersed in Polyvinyl Alcohol Solution (2009)Astuti, Mikrajuddin Abdullah, Khairurrijal
9. Review: Karakterisasi Nanomaterial (2009)Mikrajuddin Abdullah, Khairurrijal
10. Kajian Pembuatan Nanotube Karbon dengan Menggunakan Metode Spray Pyrolysis (2009)Fatimah A Noor, Lizi L Zaenufar, Yulkifli, Mikrajuddin Abdullah, Sukirno, Khairurrijal
11. Nanopartikel Ceria yang Didop Neodimium untuk Aplikasi Solid Oxide Fuel Cell (SOFC) (2009)Mikrajuddin Abdullah, Khairurrijal, Iis Nurhasanah, Ida Sriyanti, Ahmad Rifqy Marully
12. Pengembagan Reaktor Spray Pyrolysis dan Spray Drying Untuk Sintesis Partikel Oksida dan Partikel komposit Berbentuk Bulat dan Berukuran Mikrometer (2009)Bebeh Wahid Nuryadin, Ahmad Rifqy Marully, Khairuddin, Mikrajuddin Abdullah, Khairurrijal
13. Fabrication of Ordered Macroporous Titania Film using Self-assembly an Organic Template and A Simple Dip-Coating Technique (2009)Asep BN Nandiyanto, Mikrajuddin Abdullah, Ferry Iskandar, Kikuo Okuyama
14. Pembuatan Fiber Dengan Menggunakan Teknik Ekstrusi Rotasi (2009)Ade Yeti Nuryantini, Mikrajuddin Abdullah, Khairurrijal
15. Peningkatan Efektivitas Defoamer Silika (SiO2) dengan Coating Pada HDPE (High Density Polyethylene) (2009)Maria Evita, Mikrajuddin Abdullah, Hernawan Mahfudz, Khairurrijal
16. Simulasi Fabrikasi Serat Nano (Nanofiber) dengan Metoda Pemintalan Elektrik (Electrospinning): Pengaruh Jarak Nozzle-Kolektor (2009)Sahrul Saehana, Mikrajuddin Abdullah, Khairurrijal
17. Sintesis Keramik Berbasis Komposit Clay-Karbon dan Karakterisasi Kekuatan Mekaniknya (2009)Mikrajuddin Abdullah, Anggie Dewi Sonya, Bebeh Wahid Nuryadin, Ahmad Rifqy Marully, Khairuddin, Khairurrijal
18. Teknik Pemintalan Elektrik untuk Pembuatan Nanoserat: dari Pemodelan hingga Eksperimen (2009)Khairurrijal, Muhammad M Munir, Sahrul Saehana, Ferry Iskandar, Mikrajuddin Abdullah
19. Sintesis Nanopori Karbon dari Tempurung Kelapa sebagai Elektroda pada Superkapasitor (2009)Memoria Rosi, Mikrajuddin Abdullah, Khairurrijal Khairurrijal
20. Distribusi Celah Pita Energi “Titania Kotor” (2009)Indah Nurmawarti, Mikrajuddin Abdullah, Khairurrijal
21. Simulasi Geometri Nanoserat Hasil Pemintalan Elektrik (2009)Sahrul Saehana, Mikrajuddin Abdullah, Khairurrijal
22. Pelapisan Nanomaterial TiO2 Fasa Anatase pada Nilon Menggunakan Bahan Perekat Aica Aibon dan Aplikasinya Sebagai Fotokatalis (2009)Haruno Subiyanto, Mikrajuddin Abdullah, Khairurrijal, Hernawan Mahfudz
23. Penjernihan Air Dari Pencemar Organik dengan Proses Fotokatalis pada Permukaan Titanium Dioksida (TiO2) (2009)Osi Arutanti, Mikrajuddin Abdullah, Khairurrijal, Hernawan Mahfudz
24. Analisa Pemanfaatan Gas Produk dari Reaksi Steam Reforming Methanol pada Permukaan Katalis Cu/ZnO/Al2O3 yang Disintesis Menggunakan Metoda Simple Heating (2009)Ahmad Rifqy Marully, Mikrajuddin Abdullah, Khairurrijal
25. Sintesis Nanopartikel Y2O3:Eu (Yttria) yang Didispersikan dalam Larutan Polivinil Alkohol Sebagai Tinta Luminisens (2009)Astuti, Mikrajuddin Abdullah, Khairurrijal
26. Titanium Dioxide-based Reusable Microporous Water Filter Using Silicon Dioxide as Filler (2009)Aris Priatama, Mikrajuddin Abdullah, Khairurrijal, Khairurrijal
27. Pembuatan Jaring Serat Komposit PET/TiO2 Menggunakan Teknik Ekstrusi Rotasi (2009)Ade Yeti Nuryantini, Mikrajuddin Abdullah, Khairurrijal
28. Sintesis Nanokatalis CuO/ZnO/Al2O3 Untuk Mengubah Metanol Menjadi Hidrogen untuk Bahan Bakar Kendaraan Fuel Cell (2009)Liherlinah, Mikrajuddin Abdullah, Khairurrijal
28. Model of a tunneling current in an anisotropic Si/Si1-xGex/Si heterostructure with a nanometer-thick barrier including the effect of parallel-perpendicular kinetic energy coupling (2008)Hasanah, Lilik, Abdullah, Mikrajuddin, Sukirno, ?, Winata, Toto, Khairurrijal, ?
29. Optical and electrical properties of indium tin oxide nanofibers prepared by electrospinning (2008)Munir, Muhammad Miftahul, Iskandar, Ferry, Yun, Ki Myoung, Okuyama, Kikuo, Abdullah, Mikrajuddin
30. Sintesis dan Pengujian Katalis Nanokristallin Cu/ZnO/Al2O3 Dengan Metode Pemanasan Dalam Larutan Polimer Untuk Aplikasi Konversi Metanol Menjadi Hidrogen (2008)Mikrajuddin Abdullah, Khairurrijal Khairurrijal, Ahmad Rifqy Maruly, Liherlinah Liherlinah, Muhammad Sanny
31. Pemanasan Nanopartikel Dengan Sintering Rendah (2008)Mikrajuddin Abdullah, Khairurrijal Khairurrijal
32. Fabrikasi Material Nanokomposit Superkuat, Ringan dan Transparan Menggunakan Metode Simple Mixing (2008)Hadiyawarman, Agus Rijal, Bebeh Wahid Nuryadin, Mikrajuddin Abdullah, Khairurrijal
33. Desain Prototipe Reaktor Steam Reforming Menggunakan Ultrasonik Nebulizer (2008)Liherlinah, Muhammad Sanny, Ahmad Rifki Marully, Mikrajuddin Abdullah, Khairurrijal
34. Derivation of Scherrer Relation Using an Approach in Basic Physics Course (2008)Mikrajuddin Abdullah, Khairurrijal
35. Review: Sintesis Nanomaterial (2008)Mikrajuddin Abdullah, Yudistira Virgus, Nirmin, Khairurrijal
36. Sumber Cahaya Putih Struktur LuCoLed Menggunakan Nano dan Submikro Partikel (Y,Gd)3Al5O12 yang Didop Cerium Dengan Eksitasi Cahaya Biru (2008)Mikrajuddin Abdullah, Khairurrijal
37. Fabrication and photoluminescence of highly crystalline GaN and GaN:Mg nanoparticles (2005)Ogi, Takashi, Itoh, Yoshifumi, Abdullah, Mikrajuddin, Iskandar, Ferry, Azuma, Yasushi, Okuyama, Kikuo
Dr. Abdullah Mikrajuddin Eng, Expert Report of Nano Technology
10 Dec 2009
Water Magic by the Lake So Clear Energized Solar Tool
Factory and domestic waste that meets the rivers and lakes can be instantly clear and clean. Not tasty aroma that comes out of the water was gone. Only by means of solar energy which found Dr. Eng Abdullah Mikrajuddin nano technology experts; ITB. Like what? D
NOVIANTORO Rico, Depok
MATTERS dirty water in rivers and lakes are polluted to be a serious problem. Began imposing sanctions for the perpetrators of pollution, until the routine cleaning of river water by various social groups. But the result has not been optimal. But, for
Dr. Eng Abdullah Mikrajuddin dirty water problems that make mumet local governments, can be solved simple premises.
Dirty water which seems difficult to deal with it suddenly so clear and free guaranteed
bacteria. "It's not just the size of the glass. A wide lake acres can clean with this tool," said winning the title of Doctor in Hiroshima University in Japan, in 2002's.
Mikrajuddin Abdullah and two colleagues managed to find clear water pen tool. With the basic theory, damage to river water and lake water triggered the growth of microbes in large quantities. Microbes that's what triggered the water to be broken and smelly. "Most of the river water pollution is organic waste that can be parsed." said theorized. With the basic theory, said Mikra need a tool that can break down the organic.
But it must be cheap and easy energy. Was discovered the use of titanium dioxide particles (TiO2) as a main ingredient. According to harbor a white crystal was very easy to react in the sunlight. Electrons and holes in it to work to produce free radicals and hydroxyl ions and anions super-
oxide. In water, they trigger a chemical reaction called photocatalytic.
"The result of organic pollutants into gases or other compounds are not toxic." he said when exposure Without Boundaries Research on the UI campus, yesterday. Head Labora thorium Synthesis and functionalization of nano-materials is also explaining the same method has been applied in Japan, Australia and countries in Europe around the year 2000. It's just that in developed countries that still have problems. That kind of technical titanium and spread them on a river. "TiO2 powder was dispersed in the river that tersinar sun. The result is a reaction occurs and the water became clear," briefly explain the theory that the cleaning water with their equipment.
"We've tested in the laboratory water after processing. Irradiation it took about 3-4 days," explained the man who recognized that creative. Theory pembersiahan lake water was tested in Lake Pulomas, Jakarta, with satisfactory results. (*) Http://bataviase.co.id/detailberita-10387601.html
blog :http://youmikra.blogspot.com/
source:
http://youmikra.blogspot.com
http://facebook/Mikrajuddin Abdullah
http://en.scientificcommons.org/mikrajuddin_abdullah
http://bataviase.co.id/detailberita-10387601.html
http://www.bukabuku.com/authorscorner/detail/646/mikrajuddin-abdullah-m-si-.html
http://www.fmipa.itb.ac.id/index.php/in/component/content/250/250?task=view
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