ini lagi salah satu tech yg bisa berguna tapi bisa juga berbahaya....yg bisa sangat berguna terutama di bidang kedokteran.....tapi kalo diprogram buat menghancurkan?.....mana ukurannya sangat kecil....

bahas yok....:D

bukannya nanotechnology buat chip komputer semacem prosesor, pokoknya berhubungan sama elektronik deh, iya kan ?

emank nanotech bisa buat begituan dengan tingkat akurasi yg sangat tinggi.....tapi nanotech juga bisa buat nanosurgery...misal buat kanker....

maksudnya disini kayak di film atau game dimana ada mesin^2 kecil sangat imut yang dipasang misalnya ke badan terus bisa saling koordinasi untuk berubah jadi bentuk tertentu gitu ya ? terus bisa dipakai untuk memperbaiki diri segala.

yah....di banyakan scifi siy buat begituan (kalo di manga black cat sih bisa ngerubah struktur tubuh seenak jidat)...malah konon kabarnya loe bisa jadi immortal dengan adanya nanomachine....tiap kali ada sel yg rusak dibetulin.....:D:D:D

Originally posted by Luagefak Stalker
yah....di banyakan scifi siy buat begituan (kalo di manga black cat sih bisa ngerubah struktur tubuh seenak jidat)...malah konon kabarnya loe bisa jadi immortal dengan adanya nanomachine....tiap kali ada sel yg rusak dibetulin.....:D:D:D
manusia jadi sebuah benda biomechanic dong?

actually... Emeralda yang di Xenogear juga sejenis kan, full mesin

Originally posted by Windy Reed
maksudnya disini kayak di film atau game dimana ada mesin^2 kecil sangat imut yang dipasang misalnya ke badan terus bisa saling koordinasi untuk berubah jadi bentuk tertentu gitu ya ? terus bisa dipakai untuk memperbaiki diri segala.

oh, maksudlu kayak yang di terminator itu kan.

hebat ya yang bikin terminator, pada waktu itu kan belum zamannya nano teknologi, tapi udeh kepikiran sampe ke sana.

Kalo kalian suka nonton discovery di TPI, pasti tahu.
Soalnya sekarang ini sudah ada manusia yang memakai chip khusus di tubuhnya, sehingga dengan demikian ia bisa mengontrol seluruh peralatan elektronik yang ada di rumahnya hanya dengan memikirkannya saja.Hebat,khan...!!!!
Bahkan ada isu bahwa ia juga bisa mengontrol komputer atau peralatan elektronik milik orang lain dari jarak jauh(meski cuma isu, tapi menarik untuk disimak)....

Originally posted by Ztar Kraftz

oh, maksudlu kayak yang di terminator itu kan.

hebat ya yang bikin terminator, pada waktu itu kan belum zamannya nano teknologi, tapi udeh kepikiran sampe ke sana.
kalo gak salah, itu bikinnya terinspirasi dari manga dengan judul Parasyte, soalnya dicerita itu juga mahkluk asingnya bisa berubah bentuk jadi senjata, mirip ama yang T2000

OT dikit.....PARASYTEEEE....gwa dulu demen nih ama nih manga.....cuman dulu diterbitin ngaa ampe tamat yah.....semoga mo diterbitin ulang...:D:D:D

Originally posted by Windy Reed

kalo gak salah, itu bikinnya terinspirasi dari manga dengan judul Parasyte, soalnya dicerita itu juga mahkluk asingnya bisa berubah bentuk jadi senjata, mirip ama yang T2000

wah, berarti yang ngarang parasyte pikirannya jauh ke depan banget

Originally posted by Ztar Kraftz


wah, berarti yang ngarang parasyte pikirannya jauh ke depan banget

ngaa juga lagi....;D..soalnya diceritannya itu bentuk badan bisa berubah rubah murni gara-gara aliennya koq....ngaa ada nanotech-nanotecknya.....;D

nih ada artikel bagus ttg nanotechnology di sini (http://www.cnet.com/techtrends/0-6014-7-818759.html?tag=st.sr.1544316-7-1727815.txt.6014-7-818759)

it's not a dream!
:D

beberapa fungsi utamanya ntar...betul betul "indah"....:D

The first products made from nanomachines will be stronger fibers. Eventually, we will be able to replicate anything, including diamonds, water and food. Famine could be eradicated by machines that fabricate foods to feed the hungry.

In the computer industry, the ability to shrink the size of transistors on silicon microprocessors will soon reach its limits. Nanotechnology will be needed to create a new generation of computer components. Molecular computers could contain storage devices capable of storing trillions of bytes of information in a structure the size of a sugar cube.

Nanotechnology may have its biggest impact on the medical industry. Patients will drink fluids containing nanorobots programmed to attack and reconstruct the molecular structure of cancer cells and viruses to make them harmless. There's even speculation that nanorobots could slow or reverse the aging process, and life expectancy could increase significantly. Nanorobots could also be programmed to perform delicate surgeries -- such nanosurgeons could work at a level a thousand times more precise than the sharpest scalpel. By working on such a small scale, a nanorobot could operate without leaving the scars that conventional surgery does. Additionally, nanorobots could change your physical appearance. They could be programmed to perform cosmetic surgery, rearranging your atoms to change your ears, nose, eye color or any other physical feature you wish to alter.

Nanotechnology has the potential to have a positive effect on the environment. For instance, airborne nanorobots could be programmed to rebuild the thinning ozone layer. Contaminants could be automatically removed from water sources, and oil spills could be cleaned up instantly. Manufacturing materials using the bottom-up method of nanotechnology also creates less pollution than conventional manufacturing processes. Our dependence on non-renewable resources would diminish with nanotechnology. Many resources could be constructed by nanomachines. Cutting down trees, mining coal or drilling for oil may no longer be necessary. Resources could simply be constructed by nanomachines.

Originally posted by Luagefak Stalker
beberapa fungsi utamanya ntar...betul betul "indah"....:D

The first products made from nanomachines will be stronger fibers. Eventually, we will be able to replicate anything, including diamonds, water and food. Famine could be eradicated by machines that fabricate foods to feed the hungry.

In the computer industry, the ability to shrink the size of transistors on silicon microprocessors will soon reach its limits. Nanotechnology will be needed to create a new generation of computer components. Molecular computers could contain storage devices capable of storing trillions of bytes of information in a structure the size of a sugar cube.

Nanotechnology may have its biggest impact on the medical industry. Patients will drink fluids containing nanorobots programmed to attack and reconstruct the molecular structure of cancer cells and viruses to make them harmless. There's even speculation that nanorobots could slow or reverse the aging process, and life expectancy could increase significantly. Nanorobots could also be programmed to perform delicate surgeries -- such nanosurgeons could work at a level a thousand times more precise than the sharpest scalpel. By working on such a small scale, a nanorobot could operate without leaving the scars that conventional surgery does. Additionally, nanorobots could change your physical appearance. They could be programmed to perform cosmetic surgery, rearranging your atoms to change your ears, nose, eye color or any other physical feature you wish to alter.

Nanotechnology has the potential to have a positive effect on the environment. For instance, airborne nanorobots could be programmed to rebuild the thinning ozone layer. Contaminants could be automatically removed from water sources, and oil spills could be cleaned up instantly. Manufacturing materials using the bottom-up method of nanotechnology also creates less pollution than conventional manufacturing processes. Our dependence on non-renewable resources would diminish with nanotechnology. Many resources could be constructed by nanomachines. Cutting down trees, mining coal or drilling for oil may no longer be necessary. Resources could simply be constructed by nanomachines.

masa sih nanotek bisa sehebat itu? kagak mungkin ah

soal bikin makanan ato O3, bahannya dari mana ?
terus buat bedah, gimana caranya kendaliin jutaan robot ultra mungil gitu sekaligus ?

mungkin bisa dari apa aja...soalna nanomachine mestinya sih punya kemampuan buat ngerombak susunan molekul en atom....

Originally posted by Luagefak Stalker
mungkin bisa dari apa aja...soalna nanomachine mestinya sih punya kemampuan buat ngerombak susunan molekul en atom....
nggak bisa gitu aja dong
masa dari mana aja ;D
kalo gitu gue mao produksi emas besar2an aja kalo ada nano machine :D

kata dalton kan atom dari suatu unsur tidak akan menjadi atom unsur lain

who knows.....kalo M atom itu bisa diubah dengan nanomachine.....who knows....

Originally posted by E121F

nggak bisa gitu aja dong
masa dari mana aja ;D
kalo gitu gue mao produksi emas besar2an aja kalo ada nano machine :D

kata dalton kan atom dari suatu unsur tidak akan menjadi atom unsur lain

setuju. fungsi nanomachine yang satu ini eman nggak masuk di akal

terlalu mengkhayal lagi, lagian, ada penjelasan nggak soal satu nanomachine ini sendiri kayak apa ? gimana kerjanya ? soalnya kan selama ini kayaknya yang diomongin penggunaannya, dan itu udah makenya banyak sekali nanomachine sekaligus.

bagaimana dia bisa melakukan semua itu ?

sori kalo udah ada di artikel sebelumnya

tapi menurut link yang pernah diberikan, penulisnya bilang mungkin aja :D
ehehe, hayoo~

ngundang penulisnya masuk KG ?;D

selama hal itu belom kejadian....kita bisa ngomong apa aja....:D...tapi gwa percaya kalo dah ada nanomachine kita bakal bisa manipulasi hampir apa aja.....

sebenarnya, satu unit nanomachine sendiri itu seperti apa ? gimana bisa dia ngerjain segitu banyak fungsi ?

sebesar molekul?

lalu, bagaimana caranya dia ngubah molekul ? untuk berfungsi sendiri aja gimana caranya ? benda sekecil itu

berarti sebelumnya harus ditemukan transistor setidaknya 50x besar nukelus ;D

By Michael D. Lemonick

That's just for starters. Nanobots will also make ships, steaks -- and more nanobots. The trick is getting them to stop.

On its face, the notion seems utterly preposterous: a single technology so incredibly versatile that it can fight disease, stave off aging, clean up toxic waste, boost the world's food supply and build roads, automobiles ans skycrapers -- and that's only to start with. Yet that's just what the proponents of nanotechnology claim is going to be possible, maybe even before the century half over.

Crazy through it sounds, the idea of nanotechnology is very much in the scientific mainstream, with research labs all over the world trying to make it work. Last January President Clinton even declared a National Nanotechnology Initiative, promising $500 million for the effort.

In fact, nanotechnology has an impeccable and longstanding scientific pedigree. It was back in 1959 that Richard Feynman, arguably the most brilliant theoritical physicist since Einstein, gave a talk titled "There's Plenty of Room at the Bottom," in which he suggested that it would one day be possible to build machines so tiny they would consist of just a few thousand atoms. (The term nanotechnology comes from nanometer, or a billionth of a meter; a typical virus is about 100 nanometers across.)

What would such a machine be good for? Construction projects, on the tiniest scale, using molecules and even individual atoms as building blocks. And that in turn means you can make literally anything at all, from scratch -- for the altering and rearrangement of molecules is ultimately what chemistry and biology come down to, and manufacturing is simply the process of taking huge collections of molecules and forming them into useful objects.

Indeed, every cell is a living example of nanotechnology: not only does it convert fuel into energy, but it also fabricates and pumps out proteins and enzymes according to the software encoded in its dna. By recombining dna from different species, genetic engineers have already learned to build new nanodevices -- bacterial cells, for example, that pump out medically useful human hormones.

But biotechnology is limited by the tasks cells already know how to carry out. Nanotech visionaries have much more ambitious notions. Imagine a nanomachine that could take raw carbon and arrange it, atom by atom, into a perfect diamond. Imagine a machine that dismembers dioxin molecules, one by one, into their component parts. Or a device that cruises the human bloodstream, seeks out cholesterol deposits on vessel walls and disassembles them. Or one that takes grass clippings and remanufactures them into bread. Literally every physical object in the world, from computers to cheese, is made of molecules, and in principle a nanomachine could construct all of them.

Going from the principle to the practical will be a tall order, of course, but nanomechanics have already shown that it's possible, using tools like the scanning tunneling electron microscope, to move individual atoms into arrangements they'd never assume in nature: the IBM logo, for example, or a map of the world at one ten-billionth scale, or even a functioning submicroscopic guitar whose strings are a mere 50 nanometers across. They've also designed, though not yet built, minuscule gears and motors made of a few score molecules. (These should bot be confused with the "tiny" gears and motors, built with millions of molecules, that have already been constructed with conventional chip-etching technique. Those devices are gargantuan compared with that will be built in the future.)

Within 25 years, nanotechnologists expect to move beyond these scientific parlor tricks and create real, working nanomachines, complete with tiny "fingers" that can manipulate molecules and with minuscule electronic brains that tell them how to do it, as well as how to search out the necessary raw materials. The fingers may well be made from carbon nanotubes -- hairlike carbon molecules, discovered in 1991, that are 100 times as strong as steel and 50,000 times as thin as human hair.

Their electronic brains could themselves be made from nanotubes, which can serve both as transistors and as the wires that connect them. Or they may be made out of DNA, which can be altered to carry instructions that nature never intended. Armed with the proper software and sufficient dexterity, a nanorobot, or nanobot, could construct anything at all.

Including copies of itself. To accomplish an sort of useful work, you'd have to unleash huge numbers of nanomachines to do every task -- billions in every bloodstream, trillions at every toxicwaste site, quadrillions to put a car together. No assembly line could crank out nanobots in such numbers.

But nanomachines could do it. Nanotechnologists want to design nanobots that can do two things: carry out their primary tasks, and build perfect replicas of themselves. If the first nanobot makes two copies of itself, and those two make two copies each, you've got a trillion nanobots in no time, each one operating independently to carry out a trillionth of the job.

But as any child who's seen Mickey Mouse wrestle with those multiplying broomsticks in The Sorcerer's Apprentice can tell you, there's a dystopian shadow that hangs over this rosy picture: What if the nanobots forget to stop replicating? Without some sort of built-in stop signal, the potential for disaster would be incalcultable. A fast-replicating nanobot circulating inside the human body could spread faster than a cancer, crowding out normal tissues; and out-of-control paper-recycling nanobot could convert the world's libraries to corrugated cardboard; a rogue food-fabricating nanobot could turn the planet's entire biosphere into one huge slab of Gorgonzola cheese.

Nanotechnologists don't dismiss the danger, but they believe they can handle it. One idea is to program a nanobot's software to self-destruct after a set number of generations. Another is to design nanobots that can operate only under certain conditions - in the presence of a high concentration of toxis chemicals, for example, or within a very narrow range of temperature and humidity. You might even program nanobots to stop reproducing when too many of their fellows are nearby. It's a strategy nature uses to keep bacteria in check.

Nono of that will help if someone decided to unleash a nanotech weapon of some sort -- a prospect that would make computer viruses seem utterly benign by comparison. Indeed, some critics contedn that the potential dangers of nanotechnology outweigh any potential benefits. Yet those benefits are so potentially enormous that nanotech, even more than computers or genetic medicine, could be the defining technology of the coming century. It may be that the world will end up needing a nanotech immune system, with police nanobots constantly at microscopic war with destructive bots.

One way or another, nanotechnology is coming

kalo disebut kata nanotech pasti orang langsung ngebayangin nanobot deh.. soalnya sekarang udah ada robot2 yang ukurannya nanometric.. kaya di National University Hospital Singapore, ada nanobot yang dipake buat cancer surgery.. hebatnya walopun sekecil itu robotnya bisa bawa laser reactor buat motong defected cells nya..

tapi kalo dah ngomongin masalah nanobot yang bisa reproduction ama regeneration, kayanya kita ga ngomongin sesuatu yang purely machines deh.. kalo yang pure machine, kita mesti bikin artificial intelligent dan bakal repot banget buat programming ama storage AI nya deh.. jadi, nanobot yang bisa reproduction ama regeneration ini dah pasti bioorganism.. bioorganism yang bisa di control yah sama juga robot..

mo ngubah besi ke emas..? nothing's impossible.. tapi butuh energy banyak banget.. pertama buat misahin electron dari proton di nucleus besi, trus kedua buat insert proton ama electron yang dibutuhin biar nucleus besi berubah jadi nucleus emas.. itu buat satu atom lho, belom lagi kalo ngerubah sekilo besi..

nanobot yang jadi baju..? like i said, nothing's impossible (even the dreaded time travel is possible..) yang penting kita bisa specify tugas masing2 botnya..

tapi kalo biaya energi yang dibutuhkan lebih sedikit dari keuntungan yang diperoleh dengan menjual emas

lama kelamaan patokan uang di bumi adalah nanobot ;D

Originally posted by ryusen

nanobot yang jadi baju..? like i said, nothing's impossible (even the dreaded time travel is possible..) yang penting kita bisa specify tugas masing2 botnya..
three words: pagar makan tanaman

kayaknya cocok buat cerita sci-fi

ah lupa bilang....minggu kemaren wa ke public lecture ttg nanotech....setelah dikasi tau hambatan-hambatannya....sepertinya masi susah diwujudkan sekarang ini....walopun pengembangan quantum comp dengan presisi yg sangat tinggi dah dimulai...dan ngaa mustahil...

apa hubungannya dengan quantum computer. ?

size quantum computer yang sangat kecil?

quantom computing itu kayanya ga ada hubungannya ama size deh.. yang paling dasar, mereka engga ikut classic computer yang pake datatype binary.. mereka punya bit sendiri yang dinamain qubit.. tapi gue blom baca banyak tentang quantum computing so i think that's all..

er...
jadi apa dong yang bisa disupport oleh quantum computer untuk nanobot?

kalo menurut gue sih ya size yang kecil itu
karena perhitungan oleh quantum computer dilakukan oleh atom2 *liat chip edisi ulg tahun ke-5*

emang bener perhitungan qubit itu dilakuin di tingkat molekul ato atom.. perbandingannya, di classical computer binary bit diitung di tingkat transistor di processor sedangkat di quantum computer perhitungan qubit nya dilakuin di tingkat atom..

gimana caranya ngitung qubit..? atom2 tertentu kalo ditembakin radiasi dengan skala tertentu, mereka bakal respon dengan skala tertentu juga.. jadi, tembakan radiasi itu mungkin terjadi waktu usernya double click satu file.. input ini ngasi informasi berupa skala radiasi yang di butuhkan buat ditembakkan ke atom.. terus respon atomnya ntar diterjemahin lagi jadi output berupa warna, suara ato apa aja..

tapi jangan lupa, computer itu bukan cuman processor doang.. masih ada data storage di memory dan disks, dan di quantum computer masih ada alat buat nembakin atom2nya (nah ini yang paling susah).. kalo definisi computer sekarang adalah cuman transistor yang ngehasilin binary bit di processor, yah pake aja tuh processor doang, emang bisa jalan..?

o iya lupa.. nanobot itu blom tentu mesin yang pake komputer lho.. dia bisa juga suatu molekul polymer ato organic yang bisa berkelakuan tertentu dengan rangsangan tertentu dan berguna bagi manusia..

trus nanobot yang pake komputer itu masih pake chips biasa.. jadi dia blom pake atom buat kalkulasi tapi masih pake transistor yang ada di chips nya.. dan masih pake binary, bukan qubit..

nanya soal qubit dikit ya ;D
itu masih pake ya - tidak kan nilainya ?

ya - tidak?
yup!

coba beli chip edisi ulg tahun ke-5 deh
konsep kerja komputer quantum jelas diterangin disitu, walaupun gak panjang2 en detil banget

coba ke http://www.howstuffworks.com trus cari quantum computer.. dijelasin deh disana secara ringkas..

salah satu aspek dari nanotek yg lagi dikembangin

Single atom memory device stores data


12:41 10 September 02
Will Knight


A workable atomic memory that uses individual atoms to store information has been developed by physicists for the first time.

"The difference between a one and a zero is represented by a single atom," says Franz Himpsel of the University of Wisconsin.

Current hard drives use millions of atoms to store each individual bit of information. In contrast, the new system could be used to squeeze millions of times more data on to a disk of comparable size.

This represents a density equivalent to 250 terabits of data per square inch, although only a few dozen bits were actually stored in the demonstration. The atomic memory drive mimics a conventional hard drive, meaning it can be formatted and data could be written to it and read from it.

Each single silicon atom was added or removed from a block of twenty others using a scanning tunnelling microscope. The microscope was also used to read these "bits" of data. All of the atoms are kept in place using a lattice of dimples created on the surface of a wafer of silicon by evaporating a layer of gold.


Off the mark


Himpsel says it took minutes to write a few hundred bits of information using the microscope. Compared to current speeds, this method "is so far off the mark, it will have a hard time ever making it," he says.

The team also showed that working with individual atoms is unlikely ever to match the speed of current memory technologies. This is because of the low energies involved at the atomic scale.

"As density increases, your ability to read the memory comes down because you get less and less of a signal," Himpsel says. But he adds that the system might be suited to storing images or other information that does not have to be perfect.


Self-organising


Other researchers have shown that atoms can be pushed about when cooled to extreme temperatures, potentially providing atomic data storage. But the new atomic drive was operates at room temperature. The atoms were packed tightly together to keep them in place at this higher temperature and the scanning tunnelling microscope was used to pick them up instead of push them around.

Tom Theis, director of physical sciences at IBM's T.J. Watson Research Center, in New York, told New Scientist: "The scientifically interesting aspect of this research is the emphasis on self-assembly. The grooved alignment structures are naturally self-organising systems."

Theis adds that one day it may be possible to mimic the memory capabilities of biological systems such as DNA. He adds: "If this happens, it will be partly because scientists like Franz Himpsel have explored the limits of what is possible."

Researchers at the University of Basel in Switzerland worked with the University of Wisconsin team to develop the atomic memory system.

Journal reference: Nanotechnology (DOI: 10.1088/0957-4484/13/499)


12:41 10 September 02

i thought atomic memory uses qubits, not binary..

Nanotechnology tuh apa sih??? Gue sering denger, tapi terus terang belum pernah tahu. Jelasin dong sejelas-jelasnya tentang nanotechnology, please...! Gue pengen tahu nih!

ada yang lebih paham soal nanotek enggak?
yang aku tau sih, nanotek itu semacam mesin berukuran mini (sebesar sel) yang bisa melakukan pekerjaan² yang super rumit, misalnya merubah susunan sel.

gwe gabung aja yah :)

makasih mas moderator:)

baut yang pengen tahu nanotechnology,

jalan2 aja ke www.mitre.org
atau ke www.molecularelectronics.com
or ke www.calmec.com

secara ringkas yg saya tahu nanotechnology itu merupakan lanjutan atau teknology untuk piranti/device dengan ukuran nanometer (10^-9 m)...aatu sub-mikro teknology. ya aplikasinya macam2..memang apa bedanya dengan microtechnology ?...of course nanotechnology ukurannya lebih kecil..miniaturization nya di optimalkan tapi device nya jadi lebih complicated sebab ada effect yg di sebut scalling effect atau yg lebih kerennya lagi di observasi short channel effect di transistor.

teknology saat ini pengennya lari ke low cost production seperti id-tag atau bar code seperti yg dikerjakan di

www.platiclogic.com


so silahkan deh berbincang ria mengenai nanotechnology.
have a great day.

brian-kiara

bahaya buat uamt manusia sebesar mamfaatnya ... bisa dibayanign kalo ada seorang yg gila (ngak usah banyak seorang aja) dengan aksess dan kemampuan untuk membuat sebuah nanomechine ,,.... we all deadmeat.
apa lagi kita tau sekarang ini di dunia banayk orang gila yg jenius .....

entah ya, ngomongin nanomachine mending jangan mikirin mesin berkemampuan dewa kayak di cerita cerita science fiction dulu ;D

Originally posted by hardymika
Kalo kalian suka nonton discovery di TPI, pasti tahu.
Soalnya sekarang ini sudah ada manusia yang memakai chip khusus di tubuhnya, sehingga dengan demikian ia bisa mengontrol seluruh peralatan elektronik yang ada di rumahnya hanya dengan memikirkannya saja.Hebat,khan...!!!!
Bahkan ada isu bahwa ia juga bisa mengontrol komputer atau peralatan elektronik milik orang lain dari jarak jauh(meski cuma isu, tapi menarik untuk disimak)....

Wah, asyik punya tuh. Pengen ah! Nanti berarti bisa ngontrol mesin perang dari jauh dong...? Hueheheh...

nonton macross zero ...

kaya MGS:sons of liberty dong

Sekarang ada mesin Nanotech yang bisa untuk memisahkan molekul. Kemungkinan bisa dipakai untuk mengatasi polusi atau memisahkan unsur polutant dari unsur lain.

http://news.bbc.co.uk/2/hi/technology/6320781.stm

"Led by Professor David Leigh the team from Edinburgh have designed and built a molecule, known as a rotaxane, that can move and sort particles. It took three years of painstaking work to find a molecular form that could do this job. Conceptually, the rotaxane can be thought of as a barbell with a carefully positioned lump on the bar that can be made to act as a one-way "gate" when light is shone on it. Because the rotaxane can be made to do useful work in a predictable fashion, ie sort particles, it could become a key component for anyone designing nano-scale devices"

Ada lagi nanobot yang dipakai untuk keperluan medis yaitu menghantarkan obat ke organ-organ tubuh yang membutuhkan.

http://edition.cnn.com/2007/TECH/science/02/08/ft.nanobots/

"The engineers and scientists working on the development of these nanobots -- the size of only a few molecules -- believe they could reach liquid parts of the body difficult or impossible to get to using today's medical practices, precisely delivering drugs to areas such as the eyeball cavity or arteries in the heart. They might sound like the stuff of science fiction, but at their most basic level these medical micro-robots are man-made protein "machines" that produce movement through chemical reactions. Dr. James Friend, senior lecturer in the Department of Mechanical Engineering at Monash University in Australia, is developing a nanobot propelled by a tiny rotor motor measuring about five-millionths of a meter. A simple injection would place the tiny machine into the body and it would swim to its intended target."