| 臺大學術典藏 |
2021-11-18T04:57:54Z |
Reevaluation of MAML2 fusion�Vnegative mucoepidermoid carcinoma: a subgroup being actually hyalinizing clear cell carcinoma of the salivary gland with EWSR1 translocation
|
Hsieh M.-S; Wang H; Lee Y.-H; JENG-YUH KO; Chang Y.-L. |
| 臺大學術典藏 |
2021-11-15T07:48:15Z |
Reevaluation of MAML2 fusion�Vnegative mucoepidermoid carcinoma: a subgroup being actually hyalinizing clear cell carcinoma of the salivary gland with EWSR1 translocation
|
Hsieh M.-S; Wang H; Lee Y.-H; JENG-YUH KO; Chang Y.-L. |
| 臺大學術典藏 |
2021-10-14T03:38:54Z |
Protein Detection Using a Radio Frequency Biosensor with Gold Nanoparticles
|
Chien J. H.; Chen P. H.; Kuo L. S.; Lin C. S.; Wang H.; PING-HEI CHEN |
| 臺大學術典藏 |
2021-10-12T01:47:27Z |
Variant-specific inflation factors for assessing population stratification at the phenotypic variance level
|
Sofer T.; Zheng X.; Laurie C.A.; Gogarten S.M.; Brody J.A.; Conomos M.P.; Bis J.C.; Thornton T.A.; Szpiro A.; O’Connell J.R.; Lange E.M.; Gao Y.; Cupples L.A.; Psaty B.M.; Abe N.; Abecasis G.; Aguet F.; Albert C.; Almasy L.; Alonso A.; Ament S.; Anderson P.; Anugu P.; Applebaum-Bowden D.; Ardlie K.; Arking D.; Arnett D.K.; Ashley-Koch A.; Aslibekyan S.; Assimes T.; Auer P.; Avramopoulos D.; Ayas N.; Balasubramanian A.; Barnard J.; Barnes K.; Barr R.G.; Barron-Casella E.; Barwick L.; Beaty T.; Beck G.; Becker D.; Becker L.; Beer R.; Beitelshees A.; Benjamin E.; Benos T.; Bezerra M.; Bielak L.; Bis J.; Blackwell T.; Blangero J.; Boerwinkle E.; Bowden D.W.; Bowler R.; Brody J.; Broeckel U.; Broome J.; Brown D.; Bunting K.; Burchard E.; Bustamante C.; Buth E.; Cade B.; Cardwell J.; Carey V.; Carrier J.; Carty C.; Casaburi R.; Romero J.P.C.; Casella J.; Castaldi P.; Chaffin M.; Chang C.; Chang Y.-C.; Chasman D.; Chavan S.; Chen B.-J.; Chen W.-M.; Chen Y.-D.I.; Cho M.; Choi S.H.; LEE-MING CHUANG; Chung M.; Chung R.-H.; Clish C.; Comhair S.; Conomos M.; Cornell E.; Correa A.; Crandall C.; Crapo J.; Cupples L.A.; Curran J.; Curtis J.; Custer B.; Damcott C.; Darbar D.; David S.; Davis C.; Daya M.; de Andrade M.; Fuentes L.; de Vries P.; DeBaun M.; Deka R.; DeMeo D.; Devine S.; Dinh H.; Doddapaneni H.; Duan Q.; Dugan-Perez S.; Duggirala R.; Durda J.P.; Dutcher S.K.; Eaton C.; Ekunwe L.; El Boueiz A.; Ellinor P.; Emery L.; Erzurum S.; Farber C.; Farek J.; Fingerlin T.; Flickinger M.; Fornage M.; Franceschini N.; Frazar C.; Fu M.; Fullerton S.M.; Fulton L.; Gabriel S.; Gan W.; Gao S.; Gao Y.; Gass M.; Geiger H.; Gelb B.; Geraci M.; Germer S.; Gerszten R.; Ghosh A.; Gibbs R.; Gignoux C.; Gladwin M.; Glahn D.; Gogarten S.; Gong D.-W.; Goring H.; Graw S.; Gray K.J.; Grine D.; Gross C.; Gu C.C.; Guan Y.; Guo X.; Gupta N.; Haas D.M.; Haessler J.; Hall M.; Han Y.; Hanly P.; Harris D.; Hawley N.L.; He J.; Heavner B.; Heckbert S.; Hernandez R.; Herrington D.; Hersh C.; Hidalgo B.; Hixson J.; Hobbs B.; Hokanson J.; Hong E.; Hoth K.; Hsiung C.A.; Hu J.; Hung Y.-J.; Huston H.; Hwu C.M.; Irvin M.R.; Jackson R.; Jain D.; Jaquish C.; Johnsen J.; Johnson A.; Johnson C.; Johnston R.; Jones K.; Kang H.M.; Kaplan R.; Kardia S.; Kelly S.; Kenny E.; Kessler M.; Khan A.; Khan Z.; Kim W.; Kimoff J.; Kinney G.; Konkle B.; Kooperberg C.; Kramer H.; Lange C.; Lange E.; Lange L.; Laurie C.; Laurie C.; LeBoff M.; Lee S.; Lee W.-J.; LeFaive J.; Levine D.; Levy D.; Lewis J.; Li X.; Li Y.; Lin H.; Lin H.; Lin X.; Liu S.; Liu Y.; Liu Y.; Loos R.J.F.; Lubitz S.; Lunetta K.; Luo J.; Magalang U.; Mahaney M.; Make B.; Manichaikul A.; Manning A.; Manson J.A.; Martin L.; Marton M.; Mathai S.; Mathias R.; May S.; McArdle P.; McDonald M.-L.; McFarland S.; McGarvey S.; McGoldrick D.; McHugh C.; McNeil B.; Mei H.; Meigs J.; Menon V.; Mestroni L.; Metcalf G.; Meyers D.A.; Mignot E.; Mikulla J.; Min N.; Minear M.; Minster R.L.; Mitchell B.D.; Moll M.; Momin Z.; Montasser M.E.; Montgomery C.; Muzny D.; Mychaleckyj J.C.; Nadkarni G.; Naik R.; Naseri T.; Natarajan P.; Nekhai S.; Nelson S.C.; Neltner B.; Nessner C.; Nickerson D.; Nkechinyere O.; North K.; O’Connell J.; O’Connor T.; Ochs-Balcom H.; Okwuonu G.; Pack A.; Paik D.T.; Palmer N.; Pankow J.; Papanicolaou G.; Parker C.; Peloso G.; Peralta J.M.; Perez M.; Perry J.; Peters U.; Peyser P.; Phillips L.S.; Pleiness J.; Pollin T.; Post W.; Becker J.P.; Boorgula M.P.; Preuss M.; Psaty B.; Qasba P.; Qiao D.; Qin Z.; Rafaels N.; Raffield L.; Rajendran M.; Ramachandran V.S.; Rao D.C.; Rasmussen-Torvik L.; Ratan A.; Redline S.; Reed R.; Reeves C.; Regan E.; Reiner A.; Reupena M.S.; Rice K.; Rich S.; Robillard R.; Robine N.; Roden D.; Roselli C.; Rotter J.; Ruczinski I.; Runnels A.; Russell P.; Ruuska S.; Ryan K.; Sabino E.C.; Saleheen D.; Salimi S.; Salvi S.; Salzberg S.; Sandow K.; Sankaran V.G.; Santibanez J.; Schwander K.; Schwartz D.; Sciurba F.; Seidman C.; Seidman J.; S?ri?s F.; Sheehan V.; Sherman S.L.; Shetty A.; Shetty A.; Sheu W.H.-H.; Shoemaker M.B.; Silver B.; Silverman E.; Skomro R.; Smith A.V.; Smith J.; Smith J.; Smith N.; Smith T.; Smoller S.; Snively B.; Snyder M.; Sofer T.; Sotoodehnia N.; Stilp A.M.; Storm G.; Streeten E.; Su J.L.; Sung Y.J.; Sylvia J.; Szpiro A.; Taliun D.; Tang H.; Taub M.; Taylor K.D.; Taylor M.; Taylor S.; Telen M.; Thornton T.A.; Threlkeld M.; Tinker L.; Tirschwell D.; Tishkoff S.; Tiwari H.; Tong C.; Tracy R.; Tsai M.; Vaidya D.; Van Den Berg D.; VandeHaar P.; Vrieze S.; Walker T.; Wallace R.; Walts A.; Wang F.F.; Wang H.; Wang J.; Watson K.; Watt J.; Weeks D.E.; Weinstock J.; Weir B.; Weiss S.T.; Weng L.-C.; Wessel J.; Willer C.; Williams K.; Williams L.K.; Wilson C.; Wilson J.; Winterkorn L.; Wong Q.; Wu J.; Xu H.; Yanek L.; Yang I.; Yu K.; Zekavat S.M.; Zhang Y.; Zhao S.X.; Zhao W.; Zhu X.; Zody M.; Zoellner S.; Rice K.M.; NHLBI Trans-Omics for Precision Medicine (TOPMed) Consortium |
| 臺大學術典藏 |
2021-10-12T01:47:23Z |
Genome sequencing unveils a regulatory landscape of platelet reactivity
|
Keramati A.R.; Chen M.-H.; Rodriguez B.A.T.; Yanek L.R.; Bhan A.; Gaynor B.J.; Ryan K.; Brody J.A.; Zhong X.; Wei Q.; Abe N.; Abecasis G.; Aguet F.; Albert C.; Almasy L.; Alonso A.; Ament S.; Anderson P.; Anugu P.; Applebaum-Bowden D.; Ardlie K.; Arking D.; Arnett D.K.; Ashley-Koch A.; Aslibekyan S.; Assimes T.; Auer P.; Avramopoulos D.; Ayas N.; Balasubramanian A.; Barnard J.; Barnes K.; Barr R.G.; Barron-Casella E.; Barwick L.; Beaty T.; Beck G.; Becker D.; Becker L.; Beer R.; Beitelshees A.; Benjamin E.; Benos T.; Bezerra M.; Bielak L.; Bis J.; Blackwell T.; Blangero J.; Boerwinkle E.; Bowden D.W.; Bowler R.; Brody J.; Broeckel U.; Broome J.; Brown D.; Bunting K.; Burchard E.; Bustamante C.; Buth E.; Cade B.; Cardwell J.; Carey V.; Carrier J.; Carty C.; Casaburi R.; Romero J.P.C.; Casella J.; Castaldi P.; Chaffin M.; Chang C.; Chang Y.-C.; Chasman D.; Chavan S.; Chen B.-J.; Chen W.-M.; Chen Y.-D.I.; Cho M.; Choi S.H.; LEE-MING CHUANG; Chung M.; Chung R.-H.; Clish C.; Comhair S.; Conomos M.; Cornell E.; Correa A.; Crandall C.; Crapo J.; Cupples L.A.; Curran J.; Curtis J.; Custer B.; Damcott C.; Darbar D.; David S.; Davis C.; Daya M.; de Andrade M.; Fuentes L.; de Vries P.; DeBaun M.; Deka R.; DeMeo D.; Devine S.; Dinh H.; Doddapaneni H.; Duan Q.; Dugan-Perez S.; Duggirala R.; Durda J.P.; Dutcher S.K.; Eaton C.; Ekunwe L.; Boueiz A.E.; Ellinor P.; Emery L.; Erzurum S.; Farber C.; Farek J.; Fingerlin T.; Flickinger M.; Fornage M.; Franceschini N.; Frazar C.; Fu M.; Fullerton S.M.; Fulton L.; Gabriel S.; Gan W.; Gao S.; Gao Y.; Gass M.; Geiger H.; Gelb B.; Geraci M.; Germer S.; Gerszten R.; Ghosh A.; Gibbs R.; Gignoux C.; Gladwin M.; Glahn D.; Gogarten S.; Gong D.-W.; Goring H.; Graw S.; Gray K.J.; Grine D.; Gross C.; Gu C.C.; Guan Y.; Guo X.; Gupta N.; Haas D.M.; Haessler J.; Hall M.; Han Y.; Hanly P.; Harris D.; Hawley N.L.; He J.; Heavner B.; Heckbert S.; Hernandez R.; Herrington D.; Hersh C.; Hidalgo B.; Hixson J.; Hobbs B.; Hokanson J.; Hong E.; Hoth K.; Hsiung C.A.; Hu J.; Hung Y.-J.; Huston H.; Hwu C.M.; Irvin M.R.; Jackson R.; Jain D.; Jaquish C.; Johnsen J.; Johnson A.; Johnson C.; Johnston R.; Jones K.; Kang H.M.; Kaplan R.; Kardia S.; Kelly S.; Kenny E.; Kessler M.; Khan A.; Khan Z.; Kim W.; Kimoff J.; Kinney G.; Konkle B.; Kooperberg C.; Kramer H.; Lange C.; Lange E.; Lange L.; Laurie C.; Laurie C.; LeBoff M.; Lee J.; Lee S.; Lee W.-J.; LeFaive J.; Levine D.; Levy D.; Lewis J.; Li X.; Li Y.; Lin H.; Lin H.; Lin X.; Liu S.; Liu Y.; Liu Y.; Loos R.J.F.; Lubitz S.; Lunetta K.; Luo J.; Magalang U.; Mahaney M.; Make B.; Manichaikul A.; Manning A.; Manson J.A.; Martin L.; Marton M.; Mathai S.; Mathias R.; May S.; McArdle P.; McDonald M.-L.; McFarland S.; McGarvey S.; McGoldrick D.; McHugh C.; McNeil B.; Mei H.; Meigs J.; Menon V.; Mestroni L.; Metcalf G.; Meyers D.A.; Mignot E.; Mikulla J.; Min N.; Minear M.; Minster R.L.; Mitchell B.D.; Moll M.; Momin Z.; Montasser M.E.; Montgomery C.; Muzny D.; Mychaleckyj J.C.; Nadkarni G.; Naik R.; Naseri T.; Natarajan P.; Nekhai S.; Nelson S.C.; Neltner B.; Nessner C.; Nickerson D.; Nkechinyere O.; North K.; O’Connell J.; O’Connor T.; Ochs-Balcom H.; Okwuonu G.; Pack A.; Paik D.T.; Palmer N.; Pankow J.; Papanicolaou G.; Parker C.; Peloso G.; Peralta J.M.; Perez M.; Perry J.; Peters U.; Peyser P.; Phillips L.S.; Pleiness J.; Pollin T.; Post W.; Becker J.P.; Boorgula M.P.; Preuss M.; Psaty B.; Qasba P.; Qiao D.; Qin Z.; Rafaels N.; Raffield L.; Rajendran M.; Ramachandran V.S.; Rao D.C.; Rasmussen-Torvik L.; Ratan A.; Redline S.; Reed R.; Reeves C.; Regan E.; Reiner A.; Sefuiva Reupena M.; Rice K.; Rich S.; Robillard R.; Robine N.; Roden D.; Roselli C.; Rotter J.; Ruczinski I.; Runnels A.; Russell P.; Ruuska S.; Ryan K.; Sabino E.C.; Saleheen D.; Salimi S.; Salvi S.; Salzberg S.; Sandow K.; Sankaran V.G.; Santibanez J.; Schwander K.; Schwartz D.; Sciurba F.; Seidman C.; Seidman J.; Series F.; Sheehan V.; Sherman S.L.; Shetty A.; Shetty A.; Sheu W.H.-H.; Shoemaker M.B.; Silver B.; Silverman E.; Skomro R.; Smith A.V.; Smith J.; Smith J.; Smith N.; Smith T.; Smoller S.; Snively B.; Snyder M.; Sofer T.; Sotoodehnia N.; Stilp A.M.; Storm G.; Streeten E.; Su J.L.; Sung Y.J.; Sylvia J.; Szpiro A.; Taliun D.; Tang H.; Taub M.; Taylor K.D.; Taylor M.; Taylor S.; Telen M.; Thornton T.A.; Threlkeld M.; Tinker L.; Tirschwell D.; Tishkoff S.; Tiwari H.; Tong C.; Tracy R.; Tsai M.; Vaidya D.; Berg D.V.D.; VandeHaar P.; Vrieze S.; Walker T.; Wallace R.; Walts A.; Wang F.F.; Wang H.; Wang J.; Watson K.; Watt J.; Weeks D.E.; Weir B.; Weiss S.T.; Weng L.-C.; Wessel J.; Willer C.; Williams K.; Williams L.K.; Wilson C.; Wilson J.; Winterkorn L.; Wong Q.; Wu J.; Xu H.; Yanek L.; Yang I.; Yu K.; Zekavat S.M.; Zhang Y.; Zhao S.X.; Zhao W.; Zhu X.; Zody M.; Zoellner S.; Kammers K.; Kanchan K.; Iyer K.; Kowalski M.H.; Pitsillides A.N.; Cupples L.A.; Li B.; Schlaeger T.M.; Shuldiner A.R.; O’Connell J.R.; Ruczinski I.; Mitchell B.D.; Faraday N.; Taub M.A.; Becker L.C.; Lewis J.P.; Mathias R.A.; Johnson A.D.; NHLBI Trans-Omics for Precision (TOPMed) Consortium |
| 臺大學術典藏 |
2021-09-02T00:05:32Z |
Homing Sequence Derivation with Quantified Boolean Satisfiability
|
Tu K;Wang H;Jiang J.R;Kushik N;Yevtushenko N.; Tu K; Wang H; Jiang J.R; Kushik N; Yevtushenko N.; JIE-HONG JIANG |
| 臺大學術典藏 |
2021-09-02T00:05:10Z |
An Innovative Joint-Injection Mixer with Broadband if and RF for Advanced Heterodyne Receivers of Millimeter-Wave Astronomy
|
Wu Y.-C;Hwang Y.-J;Chiong C.-C;Lu B.-Z;Wang H.; Wu Y.-C; Hwang Y.-J; Chiong C.-C; Lu B.-Z; Wang H.; HUEI WANG |
| 臺大學術典藏 |
2021-09-02T00:05:10Z |
36-40 GHz TX/RX beamformers for 5G mm-wave phased-array
|
Chen C.-N;Lin Y.-H;Liu Y.-L;Liao W.-J;Nien Y.-H;Lu H.-C;Tsai T.-H;Huang T.-W;Wang H.; Chen C.-N; Lin Y.-H; Liu Y.-L; Liao W.-J; Nien Y.-H; Lu H.-C; Tsai T.-H; Huang T.-W; Wang H.; HUEI WANG |
| 臺大學術典藏 |
2021-09-02T00:05:10Z |
A k-band power amplifier with 26-dBm output power and 34% PAE with novel inductance-based neutralization in 90-nm CMOS
|
Huang W.-C;Lin J.-L;Lin Y.-H;Wang H.; Huang W.-C; Lin J.-L; Lin Y.-H; Wang H.; HUEI WANG |
| 臺大學術典藏 |
2021-09-02T00:05:09Z |
A K-band high-Op1dB common-drain power amplifier with neutralization technique in 90-nm CMOS technology
|
Chang Y;Wang Y;Wang H.; Chang Y; Wang Y; Wang H.; HUEI WANG |
| 臺大學術典藏 |
2021-09-02T00:05:09Z |
A Submilliwatt K-Band Low-Noise Amplifier for Next Generation Radio Astronomical Receivers in 65-nm CMOS Process
|
Lu B.-Z;Wang Y;Wu Y.-C;Chiong C.-C;Wang H.; Lu B.-Z; Wang Y; Wu Y.-C; Chiong C.-C; Wang H.; HUEI WANG |
| 臺大學術典藏 |
2021-09-02T00:05:09Z |
A V-band power amplifier with transformer combining and neutralization technique in 40-nm COMS
|
Wang J.-K;Lin Y.-H;Hsiao Y.-H;Yeh K.-S;Wang H.; Wang J.-K; Lin Y.-H; Hsiao Y.-H; Yeh K.-S; Wang H.; HUEI WANG |
| 臺大學術典藏 |
2021-09-02T00:05:09Z |
A V-Band Power Amplifier with 23.7-dBm Output Power, 22.1% PAE, and 29.7-dB Gain in 65-nm CMOS Technology
|
Chang Y;Wang Y;Chen C.-N;Wu Y.-C;Wang H.; Chang Y; Wang Y; Chen C.-N; Wu Y.-C; Wang H.; HUEI WANG |
| 臺大學術典藏 |
2021-09-02T00:05:08Z |
A Broadband Transformer-Based Power Amplifier Achieving 24.5-dBm Output Power over 24-41 GHz in 65-nm CMOS Process
|
Fan T.-H;Wang Y;Wang H.; Fan T.-H; Wang Y; Wang H.; HUEI WANG |
| 臺大學術典藏 |
2021-09-02T00:05:08Z |
A Compact 38-54 GHz Sub-Harmonic Mixer with Improved Linearity in 65-nm CMOS
|
Jiang Z.-Y;Lu B.-Z;Wang Y;Wang H.; Jiang Z.-Y; Lu B.-Z; Wang Y; Wang H.; HUEI WANG |
| 臺大學術典藏 |
2021-09-02T00:05:08Z |
A compact and low DC power distributed amplifier with cascaded gain stages using signal-reused technique in 0.18-pm CMOS
|
Wu C.-W;Huang T.-Y;Hsiao Y.-H;Wu Y.-C;Wang H.; Wu C.-W; Huang T.-Y; Hsiao Y.-H; Wu Y.-C; Wang H.; HUEI WANG |
| 臺大學術典藏 |
2021-09-02T00:05:08Z |
A High LO-to-RF Isolation 34-53 GHz Cascode Mixer for ALMA Observatory Applications
|
Chen C.-N;Lin Y.-H;Chen Y.-C;Chiong C.-C;Wang H.; Chen C.-N; Lin Y.-H; Chen Y.-C; Chiong C.-C; Wang H.; HUEI WANG |
| 臺大學術典藏 |
2021-09-02T00:05:07Z |
A 38-GHz sub-harmonic I/Q modulator using lo frequency quadrupler in 65-nm CMOS
|
Tang T.-C;Chen C.-N;Lin H.-H;Lin J.-L;Wang H.; Tang T.-C; Chen C.-N; Lin H.-H; Lin J.-L; Wang H.; HUEI WANG |
| 臺大學術典藏 |
2021-09-02T00:05:07Z |
A 40-nm CMOS mixer with 36-GHz if bandwidth and 60-148 GHz RF passband
|
Wu Y.-C;Hwang Y.-J;Chiong C.-C;Lu B.-Z;Wang H.; Wu Y.-C; Hwang Y.-J; Chiong C.-C; Lu B.-Z; Wang H.; HUEI WANG |
| 臺大學術典藏 |
2021-09-02T00:05:07Z |
A 78-93 GHz Power Amplifier with 19.6-dBm Psat and 12.8 % PAEpeak in 0.1-μm GaAs pHEMT for Radio Astronomical Receiver System
|
Lu B.-Z;Wu Y.-C;Chiong C.-C;Wang H.; Lu B.-Z; Wu Y.-C; Chiong C.-C; Wang H.; HUEI WANG |
| 臺大學術典藏 |
2021-09-02T00:05:06Z |
A 38 GHz pre-distortion power amplifier with OP1dB and IM3 improvement in 65-nm CMOS process
|
Lin Y.-T;Chen C.-N;Lin J.-L;Wang H.; Lin Y.-T; Chen C.-N; Lin J.-L; Wang H.; HUEI WANG |
| 臺大學術典藏 |
2021-09-02T00:05:06Z |
A 38-GHz High Linearity and High Efficiency Power Amplifier for 5G Applications in 65-nm CMOS
|
Li X.-Y;Chen Y.-C;Wang Y;Huang T.-W;Wang H.; Li X.-Y; Chen Y.-C; Wang Y; Huang T.-W; Wang H.; HUEI WANG |
| 臺大學術典藏 |
2021-09-02T00:05:06Z |
A 35-39 GHz CMOS Linearized Receiver with 2 dBm IIP3 and 16.8 dBm OIP3 for the 5G Systems
|
Chen C.-N;Chen Y;Kuo T.-Y;Wang H.; Chen C.-N; Chen Y; Kuo T.-Y; Wang H.; HUEI WANG |
| 臺大學術典藏 |
2021-09-02T00:05:06Z |
A 38-GHz 32-Element phased-array transmitter based on scalable 8-Element phased-array modules for 5G MMW data links
|
Chen C.-N;Hung L.-C;Lin Y.-H;Tang T.-C;Chao W.-P;Lin G.-Y;Liao W.-J;Nien Y.-H;Huang W.-C;Kuo T.-Y;Lin K.-Y;Huang T.-W;Lin Y.-C;Lu H.-C;Tsai T.-H;Wang H.; Chen C.-N; HUEI WANG et al. |
| 臺大學術典藏 |
2021-09-02T00:05:05Z |
A 3.7-43.7-GHz Low-Power Consumption Variable Gain Distributed Amplifier in 90-nm CMOS
|
Chiu T.-Y;Wang Y;Wang H.; Chiu T.-Y; Wang Y; Wang H.; HUEI WANG |
| 臺大學術典藏 |
2021-09-02T00:05:05Z |
A 30-40 GHz Continuous Class F-1Power Amplifier with 35.8% Peak PAE in 65 nm CMOS Technology
|
Wang Z.-H;Chen C.-N;Wang H.; Wang Z.-H; Chen C.-N; Wang H.; HUEI WANG |
| 臺大學術典藏 |
2021-09-02T00:05:05Z |
A 28-GHz High Linearity Up-Conversion Mixer Using Second-Harmonic Injection Technique in 28-nm CMOS Technology
|
Wang Z.-H;Chen C.-N;Huang T.-W;Wang H.; Wang Z.-H; Chen C.-N; Huang T.-W; Wang H.; HUEI WANG |
| 臺大學術典藏 |
2021-09-02T00:05:05Z |
A 28-GHz High Linearity and High Efficiency Class-F Power Amplifier in 90-nm CMOS Process for 5G Communications
|
Lu B.-Z;Wang Y;Huang Z.-J;Lin K.-Y;Wang H.; Lu B.-Z; Wang Y; Huang Z.-J; Lin K.-Y; Wang H.; HUEI WANG |
| 臺大學術典藏 |
2021-09-02T00:05:04Z |
A 17.7-42.9-GHz Low Power Low Noise Amplifier with 83% Fractional Bandwidth for Radio Astronomical Receivers in 65-nm CMOS
|
Chang K.-C;Lu B.-Z;Wang Y;Chiong C.-C;Wang H.; Chang K.-C; Lu B.-Z; Wang Y; Chiong C.-C; Wang H.; HUEI WANG |
| 臺大學術典藏 |
2021-09-02T00:05:04Z |
A 20-43 GHz Low Noise GaAs Downconverter with Gbps Data-Links for Full 5G K/Ka-Band Backhauls
|
Chen C.-N;Kuo T.-Y;Wang H.; Chen C.-N; Kuo T.-Y; Wang H.; HUEI WANG |
| 臺大學術典藏 |
2021-09-02T00:05:04Z |
A 27-GHz Continuous Class-F Power Amplifier with AM-PM Compensation in 65 nm CMOS Process
|
Lin Y.-T;Chen Y.-M;Chen C.-N;Wang H.; Lin Y.-T; Chen Y.-M; Chen C.-N; Wang H.; HUEI WANG |
| 臺大學術典藏 |
2021-09-02T00:05:03Z |
38-GHz Phased Array Transmitter and Receiver Based on Scalable Phased Array Modules with Endfire Antenna Arrays for 5G MMW Data Links
|
Chen C.-N;Lin Y.-H;Hung L.-C;Tang T.-C;Chao W.-P;Chen C.-Y;Chuang P.-H;Lin G.-Y;Liao W.-J;Nien Y.-H;Huang W.-C;Kuo T.-Y;Lin K.-Y;Huang T.-W;Lin Y.-C;Lu H.-C;Tsai T.-H;Wang H.; Chen C.-N; HUEI WANG et al. |
| 臺大學術典藏 |
2021-09-02T00:05:03Z |
38-GHz CMOS Linearized Receiver with IM3 Suppression, P1 dB/IP3/RR3 Enhancements, and Mitigation of QAM Constellation Diagram Distortion in 5G MMW Systems
|
Chen C.-N;Chen Y;Wang Y;Kuo T.-Y;Wang H.; Chen C.-N; Chen Y; Wang Y; Kuo T.-Y; Wang H.; HUEI WANG |
| 臺大學術典藏 |
2021-09-02T00:05:03Z |
A 14-91 GHz Distributed Amplifier in 65-nm CMOS
|
Hsu C.-M;Wang Y;Wang H.; Hsu C.-M; Wang Y; Wang H.; HUEI WANG |
| 臺大學術典藏 |
2021-09-02T00:04:57Z |
38-GHz Phased Array Transmitter and Receiver Based on Scalable Phased Array Modules with Endfire Antenna Arrays for 5G MMW Data Links
|
Chen C.-N;Lin Y.-H;Hung L.-C;Tang T.-C;Chao W.-P;Chen C.-Y;Chuang P.-H;Lin G.-Y;Liao W.-J;Nien Y.-H;Huang W.-C;Kuo T.-Y;Lin K.-Y;Huang T.-W;Lin Y.-C;Lu H.-C;Tsai T.-H;Wang H.; Chen C.-N; HSIN-CHIA LU et al. |
| 臺大學術典藏 |
2021-09-02T00:04:51Z |
Ultrasound-induced microbubble cavitation via a transcanal or transcranial approach facilitates inner ear drug delivery
|
Liao A.-H;Wang C.-H;Weng P.-Y;Lin Y.-C;Wang H;Chen H.-K;Liu H.-L;Chuang H.-C;Shih C.-P.; Liao A.-H; Wang C.-H; Weng P.-Y; Lin Y.-C; Wang H; Chen H.-K; Liu H.-L; Chuang H.-C; Shih C.-P.; HAO-LI LIU |
| 臺大學術典藏 |
2021-08-31T06:29:29Z |
Adiposity, inflammation, and breast cancer pathogenesis in Asian Women
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Iyengar N.M.; Chen I.-C.; Zhou X.K.; Giri D.D.; Falcone D.J.; Winston L.A.; Wang H.; Williams S.; Lu Y.-S.; Hsueh T.-H.; ANN-LII CHENG; Hudis C.A.; Lin C.-H.; Dannenberg A.J. |
| 臺大學術典藏 |
2021-08-23T01:36:08Z |
Comparison of blood sugar and insulin reactions of obese and non-obese patients with NIDDM
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Wang H.; HUEY-PEIR WU |
| 臺大學術典藏 |
2021-08-16T03:26:37Z |
Adiposity, inflammation, and breast cancer pathogenesis in Asian Women
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Iyengar N.M.; I-CHUN CHEN; Zhou X.K.; Giri D.D.; Falcone D.J.; Winston L.A.; Wang H.; Williams S.; Lu Y.-S.; Hsueh T.-H.; Cheng A.-L.; Hudis C.A.; Lin C.-H.; Dannenberg A.J. |
| 臺大學術典藏 |
2021-08-05T02:41:12Z |
Horizontal and vertical gene transfer drive sediment antibiotic resistome in an urban lagoon system
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Wang H;Hou L;Liu Y;Liu K;Zhang L;Huang F;Wang L;Rashid A;Hu A;Yu C.; Wang H; Hou L; Liu Y; Liu K; Zhang L; Huang F; Wang L; Rashid A; Hu A; Yu C.; CHANG-PING YU |
| 臺大學術典藏 |
2021-08-05T02:41:12Z |
Fecal pollution mediates the dominance of stochastic assembly of antibiotic resistome in an urban lagoon (Yundang lagoon), China
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Hou L;Wang H;Chen Q;Su J.-Q;Gad M;Li J;Mulla S.I;Yu C.-P;Hu A.; Hou L; Wang H; Chen Q; Su J.-Q; Gad M; Li J; Mulla S.I; Yu C.-P; Hu A.; CHANG-PING YU |
| 臺大學術典藏 |
2021-08-05T02:40:01Z |
A Three-Dimensionally Structured Electrocatalyst: Cobalt-Embedded Nitrogen-Doped Carbon Nanotubes/Nitrogen-Doped Reduced Graphene Oxide Hybrid for Efficient Oxygen Reduction
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Wei C;Wang H;Eid K;Kim J;Kim J.H;Alothman Z.A;Yamauchi Y;Wang L.; Wei C; Wang H; Eid K; Kim J; Kim J.H; Alothman Z.A; Yamauchi Y; Wang L.; KEVIN CHIA-WEN WU |
| 臺大學術典藏 |
2021-08-05T02:39:45Z |
Direct fabrication of tri-metallic PtPdCu tripods with branched exteriors for the oxygen reduction reaction
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Wang H;Yin S;Xu Y;Li X;Alshehri A.A;Yamauchi Y;Xue H;Kaneti Y.V;Wang L.; Wang H; Yin S; Xu Y; Li X; Alshehri A.A; Yamauchi Y; Xue H; Kaneti Y.V; Wang L.; KEVIN CHIA-WEN WU |
| 臺大學術典藏 |
2021-08-05T02:39:25Z |
Highly Reversible and Rapid Sodium Storage in GeP3 with Synergistic Effect from Outside-In Optimization
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Wang T;Zhang K;Park M;Lau V.W.-H;Wang H;Zhang J;Zhang J;Zhao R;Yamauchi Y;Kang Y.-M.; Wang T; Zhang K; Park M; Lau V.W.-H; Wang H; Zhang J; Zhang J; Zhao R; Yamauchi Y; Kang Y.-M.; KEVIN CHIA-WEN WU |
| 臺大學術典藏 |
2021-08-05T02:39:19Z |
In situ coating of a continuous mesoporous bimetallic PtRu film on Ni foam: A nanoarchitectured self-standing all-metal mesoporous electrode
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Wang H;Yu H;Yin S;Xu Y;Li X;Yamauchi Y;Xue H;Wang L.; Wang H; Yu H; Yin S; Xu Y; Li X; Yamauchi Y; Xue H; Wang L.; KEVIN CHIA-WEN WU |
| 臺大學術典藏 |
2021-08-05T02:39:17Z |
K-Ion Storage Enhancement in Sb2O3/Reduced Graphene Oxide Using Ether-Based Electrolyte
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Li J;Zhuang N;Xie J;Li X;Zhuo W;Wang H;Na J.B;Li X;Yamauchi Y;Mai W.; Li J; Zhuang N; Xie J; Li X; Zhuo W; Wang H; Na J.B; Li X; Yamauchi Y; Mai W.; KEVIN CHIA-WEN WU |
| 臺大學術典藏 |
2021-08-05T02:39:02Z |
Nano Polymorphism-Enabled Redox Electrodes for Rechargeable Batteries
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Mei J;Wang J;Gu H;Du Y;Wang H;Yamauchi Y;Liao T;Sun Z;Yin Z.; Mei J; Wang J; Gu H; Du Y; Wang H; Yamauchi Y; Liao T; Sun Z; Yin Z.; KEVIN CHIA-WEN WU |
| 臺大學術典藏 |
2021-08-05T02:38:45Z |
Re-oxidation reconstruction process of solid electrolyte interphase layer derived from highly active anion for potassium-ion batteries
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Ma L;Li J;Wu T;Sun P;Tan S;Wang H;Xie W;Pan L;Yamauchi Y;Mai W.; Ma L; Li J; Wu T; Sun P; Tan S; Wang H; Xie W; Pan L; Yamauchi Y; Mai W.; KEVIN CHIA-WEN WU |
| 臺大學術典藏 |
2021-08-05T02:37:51Z |
A Simple Dithieno[3,2-b:2′,3′-d]pyrrol-Rhodanine Molecular Third Component Enables Over 16.7% Efficiency and Stable Organic Solar Cells
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Wang H;Yang L;Lin P.-C;Chueh C.-C;Liu X;Qu S;Guang S;Yu J;Tang W.; Wang H; Yang L; Lin P.-C; Chueh C.-C; Liu X; Qu S; Guang S; Yu J; Tang W.; CHU-CHEN CHUEH |
| 臺大學術典藏 |
2021-08-05T02:37:10Z |
Permeability characteristics of poorly graded sand conditioned with foam in different conditioning states
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Wang S;Hu Q;Wang H;Thewes M;Ge L;Yang J;Liu P.; Wang S; Hu Q; Wang H; Thewes M; Ge L; Yang J; Liu P.; YU-NING GE |
