IMEC IN NUMBERS YOUR FUTURE STARTS AT IMEC Last year, mre than 300 Ph.D. researchers cntributed with their wrk t imec s lng-term research. 2,300 Mre than peple wrk at imec, 36% f which are guest researchers and residents frm the academic and industrial wrld. A CHALLENGE FOR EACH TALENT 400 millin the ttal budget f imec in 2015. 40 34 awards are granted last year t imec researchers fr the quality and significance f their research pster, scientific papers, r thesis. 71 Pursuing a Ph.D. Degree - Writing a Master Thesis - Ding an Internship is the average age f ur staff. natinalities wrk at imec. Imec is a multidisciplinary envirnment. T accmplish ur research we welcme: electrnic engineers, electrmechanic engineers, chemists, physicists, material scientists, bi engineers, cmputer scientists... Imec als welcmes industrially riented engineers and peple with even ther backgrunds t supprt imec s develpment activities and cprate with industry, universities, plytechnic schls, assciated labs, and ther research institutes. READY TO APPLY? G t www.imec.be and find ut mre abut Ph.D., internship and master thesis tpics and applicatin prcedures under the Educatin sectin. 1,000 Imec published mre than peer-reviewed articles related t its R&D. 161 imec patents were awarded and 133 patents were submitted. Imec nw hlds 1,123 active patent families. 660 Eurpean universities and research centers get training and access t advanced knwledge and tls frm imec Services. Imec ffers a stimulating envirnment t d PhD research. The wrld-class facilities and available expertise guarantee an unmatched supprt. And if yu cme t imec frm abrad, yu will find an internatinal atmsphere, and mst likely als clleagues frm yur hme cuntry. Watch the testimnial f 4 PhD students, by scanning the QR cde.
IMEC IN NUMBERS YOUR FUTURE STARTS AT IMEC Last year, mre than 300 Ph.D. researchers cntributed with their wrk t imec s lng-term research. 2,300 Mre than peple wrk at imec, 36% f which are guest researchers and residents frm the academic and industrial wrld. A CHALLENGE FOR EACH TALENT 400 millin the ttal budget f imec in 2015. 40 34 awards are granted last year t imec researchers fr the quality and significance f their research pster, scientific papers, r thesis. 71 Pursuing a Ph.D. Degree - Writing a Master Thesis - Ding an Internship is the average age f ur staff. natinalities wrk at imec. Imec is a multidisciplinary envirnment. T accmplish ur research we welcme: electrnic engineers, electrmechanic engineers, chemists, physicists, material scientists, bi engineers, cmputer scientists... Imec als welcmes industrially riented engineers and peple with even ther backgrunds t supprt imec s develpment activities and cprate with industry, universities, plytechnic schls, assciated labs, and ther research institutes. READY TO APPLY? G t www.imec.be and find ut mre abut Ph.D., internship and master thesis tpics and applicatin prcedures under the Educatin sectin. 1,000 Imec published mre than peer-reviewed articles related t its R&D. 161 imec patents were awarded and 133 patents were submitted. Imec nw hlds 1,123 active patent families. 660 Eurpean universities and research centers get training and access t advanced knwledge and tls frm imec Services. Imec ffers a stimulating envirnment t d PhD research. The wrld-class facilities and available expertise guarantee an unmatched supprt. And if yu cme t imec frm abrad, yu will find an internatinal atmsphere, and mst likely als clleagues frm yur hme cuntry. Watch the testimnial f 4 PhD students, by scanning the QR cde.
IMEC IN NUMBERS YOUR FUTURE STARTS AT IMEC Last year, mre than 300 Ph.D. researchers cntributed with their wrk t imec s lng-term research. 2,300 Mre than peple wrk at imec, 36% f which are guest researchers and residents frm the academic and industrial wrld. A CHALLENGE FOR EACH TALENT 400 millin the ttal budget f imec in 2015. 40 34 awards are granted last year t imec researchers fr the quality and significance f their research pster, scientific papers, r thesis. 71 Pursuing a Ph.D. Degree - Writing a Master Thesis - Ding an Internship is the average age f ur staff. natinalities wrk at imec. Imec is a multidisciplinary envirnment. T accmplish ur research we welcme: electrnic engineers, electrmechanic engineers, chemists, physicists, material scientists, bi engineers, cmputer scientists... Imec als welcmes industrially riented engineers and peple with even ther backgrunds t supprt imec s develpment activities and cprate with industry, universities, plytechnic schls, assciated labs, and ther research institutes. READY TO APPLY? G t www.imec.be and find ut mre abut Ph.D., internship and master thesis tpics and applicatin prcedures under the Educatin sectin. 1,000 Imec published mre than peer-reviewed articles related t its R&D. 161 imec patents were awarded and 133 patents were submitted. Imec nw hlds 1,123 active patent families. 660 Eurpean universities and research centers get training and access t advanced knwledge and tls frm imec Services. Imec ffers a stimulating envirnment t d PhD research. The wrld-class facilities and available expertise guarantee an unmatched supprt. And if yu cme t imec frm abrad, yu will find an internatinal atmsphere, and mst likely als clleagues frm yur hme cuntry. Watch the testimnial f 4 PhD students, by scanning the QR cde.
01 02 03 04 05 Smart systems which interact with peple and the envirnment, efficient healthcare, experience virtual cmmunities as real life, all these fantastic applicatins need chips with teraflp and terabit cmpute and strage capabilities. Further scaling is indispensible t realize this. Imec is tackling this tgether with wrld-leading IC manufacturers, equipment and material suppliers in ur state-f-the-art clean rm. High n imec s research agenda are the intrductin f new materials and new transistr architectures, advanced lithgraphy, advanced memry cncepts, intercnnects with fcus n 3D, and cnnected IC prcess technlgy with system design. Research builds n an extensive knwhw in characterizatin and mdeling. Rutes are explred fr beynd CMOS with new devices and new cmputatinal state variables. The CMOS prcesses currently used t fabricate chips prmise t be the drivers f a whle new industry. They can be tuned and expanded with new prcessing steps t make cmplete miniaturized systems by adding functins ther than lgic and memry t the chips. Examples f this hetergeneus integratin are smart sensrs, MEMS (micr-electrmechanical systems), pwer scavengers, actuatrs, ptical chips, bichips, and even micr-implantable appliances. These smart devices will play a crucial rle t make a sustainable sciety. Innvatin and creativity will bst this industry. The knw-hw that is needed ranges frm CMOS prcess technlgy and design technlgy, ver packaging and intercnnect technlgy t the nanbi dmain. T enable affrdable and reliable health care, imec strngly believes in bi-electrnics. We actively explre functinal nanparticles fr fast mlecular bisensing, magnetresistive mlecular bisensrs, and n-chip magnetic manipulatin and separatin f cells. Imec als studies cmbining single cell manipulatin and DNA extractin and sensing in a lab-n-chip. Next t this, imec envisages ambient, intelligent electrnics in its wireless autnmus transducer slutins prgramme. These slutins will cnsist f embedded, unbtrusive devices that allw peple t carry ut activities in an unhampered, natural way. Renewable energy, including slar, will be needed t cunter the steady warming f the earth s surface. Imec s slar cell research belngs t the tp in the wrld. It deals with the main challenge in the wrld t make slar cells cheaper and imprve cnversin efficiency. Imec als studies rganic (plymer) and high-efficiency III-V-based slar cells. Imec researches pwer electrnics and slid-state lighting based n III-Nitride materials f which GaN (gallium-nitride) is best knwn. These technlgies are f key imprtance fr a mre sustainable use f energy. The next generatin f lighting will be LED lighting. Cheaper, large-area prcessing and imprved light efficiency are the main drivers in research n LED technlgy. Chips make tday s electrnic devices smarter and smarter enabling them t cmmunicate with and adapt t the envirnment and the user requirements. Imec develps smart radi systems fr next-generatin wireless cmmunicatins. Radis will nt nly adapt t the cmmunicatin standard, but als t the available cmmunicatin frequencies and t the envirnment (indr, speed, vlume). With the evlutin twards ambient high-reslutin multimedia, radi ICs fr the wireless cmmunicatin f massive data streams, fr example fr high-definitin televisin, als becmes indispensable. Such data streams require a massive thrughput, in the rder f GBits per secnd. Imec fcuses n cst-effective, lw-pwer 60GHz radi ICs in standard CMOS, which shw a lt f ptential PROCESS TECHNOLOGY & DEVICE INTEGRATION HETEROGENEOUS MICROSYSTEMS TECHNOLOGIES FOR EFFICIENT HEALTHCARE SUSTAINABLE ENERGY SOLUTIONS SMART SYSTEMS fr the cnsumer market f fr example wireless televisin screens. Next t this, enhanced visin systems which make real-life experience pssible are studied. Organic semicnductrs are flexible, lightweight, and cheap and thus are an imprtant technlgy t create the next generatin smart systems. They are especially suited fr such applicatins as intelligent clthing, RFID labels, rllable displays, rganic memry, r plastic signaling and lighting.
01 02 03 04 05 Smart systems which interact with peple and the envirnment, efficient healthcare, experience virtual cmmunities as real life, all these fantastic applicatins need chips with teraflp and terabit cmpute and strage capabilities. Further scaling is indispensible t realize this. Imec is tackling this tgether with wrld-leading IC manufacturers, equipment and material suppliers in ur state-f-the-art clean rm. High n imec s research agenda are the intrductin f new materials and new transistr architectures, advanced lithgraphy, advanced memry cncepts, intercnnects with fcus n 3D, and cnnected IC prcess technlgy with system design. Research builds n an extensive knwhw in characterizatin and mdeling. Rutes are explred fr beynd CMOS with new devices and new cmputatinal state variables. The CMOS prcesses currently used t fabricate chips prmise t be the drivers f a whle new industry. They can be tuned and expanded with new prcessing steps t make cmplete miniaturized systems by adding functins ther than lgic and memry t the chips. Examples f this hetergeneus integratin are smart sensrs, MEMS (micr-electrmechanical systems), pwer scavengers, actuatrs, ptical chips, bichips, and even micr-implantable appliances. These smart devices will play a crucial rle t make a sustainable sciety. Innvatin and creativity will bst this industry. The knw-hw that is needed ranges frm CMOS prcess technlgy and design technlgy, ver packaging and intercnnect technlgy t the nanbi dmain. T enable affrdable and reliable health care, imec strngly believes in bi-electrnics. We actively explre functinal nanparticles fr fast mlecular bisensing, magnetresistive mlecular bisensrs, and n-chip magnetic manipulatin and separatin f cells. Imec als studies cmbining single cell manipulatin and DNA extractin and sensing in a lab-n-chip. Next t this, imec envisages ambient, intelligent electrnics in its wireless autnmus transducer slutins prgramme. These slutins will cnsist f embedded, unbtrusive devices that allw peple t carry ut activities in an unhampered, natural way. Renewable energy, including slar, will be needed t cunter the steady warming f the earth s surface. Imec s slar cell research belngs t the tp in the wrld. It deals with the main challenge in the wrld t make slar cells cheaper and imprve cnversin efficiency. Imec als studies rganic (plymer) and high-efficiency III-V-based slar cells. Imec researches pwer electrnics and slid-state lighting based n III-Nitride materials f which GaN (gallium-nitride) is best knwn. These technlgies are f key imprtance fr a mre sustainable use f energy. The next generatin f lighting will be LED lighting. Cheaper, large-area prcessing and imprved light efficiency are the main drivers in research n LED technlgy. Chips make tday s electrnic devices smarter and smarter enabling them t cmmunicate with and adapt t the envirnment and the user requirements. Imec develps smart radi systems fr next-generatin wireless cmmunicatins. Radis will nt nly adapt t the cmmunicatin standard, but als t the available cmmunicatin frequencies and t the envirnment (indr, speed, vlume). With the evlutin twards ambient high-reslutin multimedia, radi ICs fr the wireless cmmunicatin f massive data streams, fr example fr high-definitin televisin, als becmes indispensable. Such data streams require a massive thrughput, in the rder f GBits per secnd. Imec fcuses n cst-effective, lw-pwer 60GHz radi ICs in standard CMOS, which shw a lt f ptential PROCESS TECHNOLOGY & DEVICE INTEGRATION HETEROGENEOUS MICROSYSTEMS TECHNOLOGIES FOR EFFICIENT HEALTHCARE SUSTAINABLE ENERGY SOLUTIONS SMART SYSTEMS fr the cnsumer market f fr example wireless televisin screens. Next t this, enhanced visin systems which make real-life experience pssible are studied. Organic semicnductrs are flexible, lightweight, and cheap and thus are an imprtant technlgy t create the next generatin smart systems. They are especially suited fr such applicatins as intelligent clthing, RFID labels, rllable displays, rganic memry, r plastic signaling and lighting.
01 02 03 04 05 Smart systems which interact with peple and the envirnment, efficient healthcare, experience virtual cmmunities as real life, all these fantastic applicatins need chips with teraflp and terabit cmpute and strage capabilities. Further scaling is indispensible t realize this. Imec is tackling this tgether with wrld-leading IC manufacturers, equipment and material suppliers in ur state-f-the-art clean rm. High n imec s research agenda are the intrductin f new materials and new transistr architectures, advanced lithgraphy, advanced memry cncepts, intercnnects with fcus n 3D, and cnnected IC prcess technlgy with system design. Research builds n an extensive knwhw in characterizatin and mdeling. Rutes are explred fr beynd CMOS with new devices and new cmputatinal state variables. The CMOS prcesses currently used t fabricate chips prmise t be the drivers f a whle new industry. They can be tuned and expanded with new prcessing steps t make cmplete miniaturized systems by adding functins ther than lgic and memry t the chips. Examples f this hetergeneus integratin are smart sensrs, MEMS (micr-electrmechanical systems), pwer scavengers, actuatrs, ptical chips, bichips, and even micr-implantable appliances. These smart devices will play a crucial rle t make a sustainable sciety. Innvatin and creativity will bst this industry. The knw-hw that is needed ranges frm CMOS prcess technlgy and design technlgy, ver packaging and intercnnect technlgy t the nanbi dmain. T enable affrdable and reliable health care, imec strngly believes in bi-electrnics. We actively explre functinal nanparticles fr fast mlecular bisensing, magnetresistive mlecular bisensrs, and n-chip magnetic manipulatin and separatin f cells. Imec als studies cmbining single cell manipulatin and DNA extractin and sensing in a lab-n-chip. Next t this, imec envisages ambient, intelligent electrnics in its wireless autnmus transducer slutins prgramme. These slutins will cnsist f embedded, unbtrusive devices that allw peple t carry ut activities in an unhampered, natural way. Renewable energy, including slar, will be needed t cunter the steady warming f the earth s surface. Imec s slar cell research belngs t the tp in the wrld. It deals with the main challenge in the wrld t make slar cells cheaper and imprve cnversin efficiency. Imec als studies rganic (plymer) and high-efficiency III-V-based slar cells. Imec researches pwer electrnics and slid-state lighting based n III-Nitride materials f which GaN (gallium-nitride) is best knwn. These technlgies are f key imprtance fr a mre sustainable use f energy. The next generatin f lighting will be LED lighting. Cheaper, large-area prcessing and imprved light efficiency are the main drivers in research n LED technlgy. Chips make tday s electrnic devices smarter and smarter enabling them t cmmunicate with and adapt t the envirnment and the user requirements. Imec develps smart radi systems fr next-generatin wireless cmmunicatins. Radis will nt nly adapt t the cmmunicatin standard, but als t the available cmmunicatin frequencies and t the envirnment (indr, speed, vlume). With the evlutin twards ambient high-reslutin multimedia, radi ICs fr the wireless cmmunicatin f massive data streams, fr example fr high-definitin televisin, als becmes indispensable. Such data streams require a massive thrughput, in the rder f GBits per secnd. Imec fcuses n cst-effective, lw-pwer 60GHz radi ICs in standard CMOS, which shw a lt f ptential PROCESS TECHNOLOGY & DEVICE INTEGRATION HETEROGENEOUS MICROSYSTEMS TECHNOLOGIES FOR EFFICIENT HEALTHCARE SUSTAINABLE ENERGY SOLUTIONS SMART SYSTEMS fr the cnsumer market f fr example wireless televisin screens. Next t this, enhanced visin systems which make real-life experience pssible are studied. Organic semicnductrs are flexible, lightweight, and cheap and thus are an imprtant technlgy t create the next generatin smart systems. They are especially suited fr such applicatins as intelligent clthing, RFID labels, rllable displays, rganic memry, r plastic signaling and lighting.