English

• 
  
• 1. [1]

     ZHANG C F, KREMER M P, SERAL-ASCASO A, PARK S H, MCEVOY N, ANASORI B, GOGOTSI Y, NICOLOSI V. Adv. Funct. Mater., 2018, 28(9):1705506.

  2. [2]

     JIANG Q, WU C S, WANG Z J, WANG A C, HE J H, WANG Z L, ALSHAREEF H N. Nano Energy, 2018, 45:266-272.

  3. [3]

     LEE H, CHOI T K, LEE Y B, CHO H R, GHAFFARI R, WANG L, CHOI H J, CHUNG T D, LU N S,HYEON T, CHOI S H, KIM D H. Nat. Nanotechnol., 2016, 11(6):566.

  4. [4]

     CALDARA M, COLLEONI C, GUIDO E, RE V, ROSACE G. Sens. Actuators B, 2016, 222:213-220.

  5. [5]

     PANG C, KOO J H, NGUYEN A, CAVES J M, KIM M G, CHORTOS A, KIM K, WANG P J, TOK J B H, BAO Z A. Adv. Mater., 2015, 27(4):634-640.

  6. [6]

     CHOI J, GHAFFARI R, BAKER L B, ROGERS J A. Sci. Adv., 2018, 4(2):eaar3921.

  7. [7]

     OH J H, HONG S Y, PARK H, JIN S W, JEONG Y R, OH S Y, YUN J, LEE H, KIM J W, HA J S. ACS Appl. Mater. Interfaces, 2018, 10(8):7263-7270.

  8. [8]

     GOWERS S A N, CURTO V F, SENECI C A, WANG C, ANASTASOVA S, VADGAMA P, YANG G Z, BOUTELLE M G. Anal. Chem., 2015, 87(15):7763-7770.

  9. [9]

     MOHAN A M V, WINDMILLER J R, MISHRA R K, WANG J. Biosens. Bioelectron., 2017, 91:574-579.

  10. [10]

      GVDER F, AINLA A, REDSTON J, MOSADEGH B, GLAVAN A, MARTIN T J, WHITESIDES G M. Angew. Chem. Int. Ed., 2016, 55(19):5727-5732.

  11. [11]

      WANG S Q, WU Y J, GU Y, LI T, LUO H, LI L H, BAI Y Y, LI L L, LIU L, CAO Y D, DING H Y, ZHANG T. Anal. Chem., 2017, 89(19):10224-10231.

  12. [12]

      AMJADI M, KYUNG K U, PARK I, SITTI M. Adv. Funct. Mater., 2016, 26(11):1678-1698.

  13. [13]

      TRAN T Q, LEE N E. Adv. Mater., 2016, 28(22):4338-4372.

  14. [14]

      WANG S, CHINNASAMY T, LIFSON M A, INCI F, DEMIRCI U. Trends Biotechnol., 2016, 34(11):909-921.

  15. [15]

      LIAO X, ZHANG Z, LIAO Q, LIANG Q, OU Y, XU M, LI M, ZHANG G, ZHANG Y. Nanoscale, 2016, 8(26):13025-13032.

  16. [16]

      LU Y, JIANG K, CHEN D, SHEN G. Nano Energy, 2019, 58:624-632.

  17. [17]

      PU Z H, ZOU C W, WANG R D, LAI X C, YU H X, XU K X, LI D C. Biomicrofluidics, 2016, 10(1):011910.

  18. [18]

      BANDODKAR A J, HUNG V W S, JIA W Z, VALDES-RAMIREZ G, WINDMILLER J R, MARTINEZ A G, RAMIREZ J, CHAN G, KERMAN K, WANG J. Analyst, 2013, 138(1):123-128.

  19. [19]

      CHEN J X, WEN H J, ZHANG G L, LEI F, FENG Q, LIU Y, CAO X D, BONG H. ACS Appl. Mater. Interfaces, 2020, 12(6):7565-7574.

  20. [20]

      LEE D J, KIM D Y. IEEE Access, 2019, 7:77200-77207.

  21. [21]

      DERVISEVIC M, ALBA M, PRIETO-SIMON B, VOELCKER N H. Nano Today, 2020, 30:100828.

  22. [22]

      LEE S J, YOON H S, XUAN X, PARK J Y, PAIK S J, ALLEN M G. Sens. Actuators B, 2016, 222:1144-1151.

  23. [23]

      CALIO A, DARDANO P, DI PALMA V, BEVILACQUA M F, DI MATTEO A, IUELE H, DE STEFANO L. Sens. Actuators B, 2016, 236:343-349.

  24. [24]

      KINNAMON D, GHANTA R, LIN K C, MUTHUKUMAR S, PRASAD S. Sci. Rep, 2017, 7:13312.

  25. [25]

      LARRANETA E, LUTTON R E M, WOOLFSON A D, DONNELLY R F. Mater. Sci. Eng. R, 2016, 104:1-32.

  26. [26]

      VENTRELLI L, STRAMBINI L M, BARILLARO G. Adv. Healthc. Mater., 2015, 4(17):2606-2640.

  27. [27]

      ZHAO L, WEN Z Z, JIANG F J, ZHENG Z Z, LU S Z. RSC Adv., 2020, 10(11):6163-6171.

  28. [28]

      NIGHTINGALE A M, LEONG C L, BURNISH R A, HASSAN S U, ZHANG Y, CLOUGH G F, BOUTELLE M G, VOEGELI D, NIU X Z. Nat. Commun., 2019, 10:2741.

  29. [29]

      FENG S, CAIRE R, CORTAZAR B, TURAN M, WONG A, OZCAN A. ACS Nano, 2014, 8(3):3069-3079.

  30. [30]

      ROGGEN D, MAGNENAT S, WAIBEL M, TROSTER G. IEEE Robot. Autom. Mag., 2011, 18(2):83-95.

  31. [31]

      BALAKRISHNAN V, DINH T, FOISAL A M, NGUYEN T, PHAN H P, DAO D V, NGUYEN N T. IEEE Sens. J., 2019, 19(24):11784-11790.

  32. [32]

      ZHANG H, ZHANG J, HU Z, QUAN L, SHI L, CHEN J, XUAN W, ZHANG Z, DONG S, LUO J. Nano Energy, 2019, 59:75-83.

  33. [33]

      FAN Yi-Qiang, GAO Feng, WANG Mei, ZHUANG Jian, TANG Gang, ZHANG Ya-Jun. Chin. J. Anal. Chem., 2017, 45(3):455-462. 范一强, 高峰, 王玫, 庄俭, 唐刚, 张亚军. 分析化学, 2017, 45(3):455-462.

  34. [34]

      QIAN Xin, SU Meng, LI Feng-Yu, SONG Yan-Lin. Acta Chim. Sin., 2016, 74(7):565-575. 钱鑫, 苏萌, 李风煜, 宋延林. 化学学报, 2016, 74(7):565-575.

  35. [35]

      JIA R, SHEN G, QU F, CHEN D. Energy Storage Mater., 2020, 27:169-186.

  36. [36]

      SUMBOJA A, LIU J, ZHENG W G, ZONG Y, ZHANG H, LIU Z. Chem. Soc. Rev., 2018, 47(15):5919-5945.

  37. [37]

      CAO Z, CHEN P, MA Z, LI S, GAO X, WU R, PAN L, SHI Y. Sensors, 2019, 19(18):3947.

  38. [38]

      ARRABITO G, ERRICO V, ZHANG Z M, HAN W H, FALCONI C. Nano Energy, 2018, 46:54-62.

  39. [39]

      MA D, WU X X, WANG Y G, LIAO H, WAN P B, ZHANG L Q. ACS Appl. Mater. Interfaces, 2019, 11(44):41701-41709.

  40. [40]

      WINDMILLER J R, WANG J. Electroanalysis, 2013, 25(1):29-46.

  41. [41]

      ZHOU Liang, CUI Yuan, HE Chun-Xiang. Chin. J. Anal. Chem., 2020, 48(4):516-522. 周靓, 崔媛, 赫春香. 分析化学, 2020, 48(4):516-522.

  42. [42]

      XIAO J Y, LIU Y, SU L, ZHAO D, ZHAO L, ZHANG X J. Anal. Chem., 2019, 91(23):14803-14807.

  43. [43]

      ZHANG B W, DONG Q, KORMAN C E, LI Z Y, ZAGHLOUL M E. Sci Rep., 2013, 3:1098.

  44. [44]

      ZHAO Z Z, YAN C, LIU Z X, FU X L, PENG L M, HU Y F, ZHENG Z J. Adv. Mater., 2016, 28(46):10267-10274.

  45. [45]

      NIE C, FRIJNS A, ZEVENBERGEN M, DEN TOONDER J. Sens. Actuators B, 2016, 227:427-437.

  46. [46]

      SON D, LEE J, QIAO S, GHAFFARI R, KIM J, LEE J E, SONG C, KIM S J, LEE D J, JUN S W, YANG S, PARK M, SHIN J, DO K, LEE M, KANG K, HWANG C S, LU N, HYEON T, KIM D H. Nat. Nanotechnol., 2014, 9(5):397-404.

  47. [47]

      KIM J, LEE M, SHIM H J, GHAFFARI R, CHO H R, SON D, JUNG Y H, SOH M, CHOI C, JUNG S, CHU K, JEON D, LEE S T, KIM J H, CHOI S H, HYEON T, KIM D H. Nat. Commun., 2014, 5:5747.

  48. [48]

      TRUNG T Q, DUY L T, RAMASUNDARAM S, LEE N E. Nano Res., 2017, 10(6):2021-2033.

  49. [49]

      CHEN M, MA Y J, LI Y, WU D, ZHANG Y, YOUN C H. IEEE Commun. Mag., 2017, 55(1):54-61

  50. [50]

      HAO Y Q, HELO P. Robot. Comput.Integr. Manuf., 2017, 45:168-179.

  51. [51]

      QI X, LI X L, JO H, BHAT K S, KIM S, AN J, KANG J W, LIM S. Sens. Actuators A, 2020, 301:111697.

  52. [52]

      LIU L, SHAO J Y, LI X M, ZHAO Q, NIE B B, XU C, DING H T. Appl. Surf. Sci., 2016, 386:405-411.

  53. [53]

      XU H, LIU J, ZHANG J, ZHOU G, LUO N, ZHAO N. Adv. Mater., 2017, 29(31):1700975.

  54. [54]

      LI B W, YU L J, QI J, FU L W, ZHANG P Q, CHEN L X. Anal. Chem., 2017, 89(11):5708-5713.

  55. [55]

      LI Z, LIU H, OUYANG C, WEE W H, CUI X, LU T J, PINGGUAN-MURPHY B, LI F, XU F. Adv. Funct. Mater., 2016, 26(2):165-180.

  56. [56]

      LIN D, LI B, QI J, JI X, YANG S, WANG W, CHEN L. Sens. Actuators B, 2020, 303:127213.

  57. [57]

      QI J, LI B W, WANG X R, ZHANG Z, WANG Z, HAN J L, CHEN L X. Sens. Actuators B, 2017, 251:224-233.

  58. [58]

      QI J, LI B, ZHOU N, WANG X, DENG D, LUO L, CHEN L. Biosens. Bioelectron., 2019, 142:111533.

  59. [59]

      ZHOU J, LI B, QI A, SHI Y, QI J, XU H, CHEN L. Sens. Actuators B, 2020, 305:127462.

  60. [60]

      GONG S, SCHWALB W, WANG Y W, CHEN Y, TANG Y, SI J, SHIRINZADEH B, CHENG W L. Nat. Commun., 2014, 5:3132.

  61. [61]

      WANG Z Y, DONG S, GUI M X, ASIF M, WANG W, WANG F, LIU H F. Anal. Biochem., 2018, 543:82-89.

  62. [62]

      LIAO Q L, MOHR M, ZHANG X H, ZHANG Z, ZHANG Y, FECHT H J. Nanoscale, 2013, 5(24):12350-12355

  63. [63]

      XIAO G, HE J, CHEN X, QIAO Y, WANG F, XIA Q, YU L, LU Z. Cellulose, 2019, 26(7):4553-4562

  64. [64]

      YAMADA T, HAYAMIZU Y, YAMAMOTO Y, YOMOGIDA Y, IZADI-NAJAFABADI A, FUTABA D N, HATA K. Nat. Nanotechnol., 2011, 6(5):296-301.

  65. [65]

      MAO Y, JI B, CHEN G, HAO C, ZHOU B, TIAN Y. ACS Appl. Nano Mater., 2019, 2(5):3196-3205.

  66. [66]

      REN G, CAI F, LI B, ZHENG J, XU C. Macromol. Mater. Engineer., 2013, 298(5):541-546.

  67. [67]

      GONG S, CHENG W. Adv. Electron. Mater., 2017, 3(3):1600314.

  68. [68]

      XU F, WANG X, ZHU Y, ZHU Y. Adv. Funct. Mater., 2012, 22(6):1279-1283.

  69. [69]

      WANG X D, ZHANG H L, YU R M, DONG L, PENG D F, ZHANG A H, ZHANG Y, LIU H, PAN C F, WANG Z L. Adv. Mater., 2015, 27(14):2324-2331.

  70. [70]

      ZHAO P, DENG N, LI X W, REN C C, WANG Z Y. Sens. Actuators A, 2014, 216:158-166.

  71. [71]

      STOPPA M, CHIOLERIO A. Sensors, 2014, 14(7):11957-11992.

  72. [72]

      CHOW P C Y, SOMEYA T. Adv. Mater., 2020, 32(15):1902045.

  73. [73]

      YOKOTA T, ZALAR P, KALTENBRUNNER M, JINNO H, MATSUHISA N, KITANOSAKO H, TACHIBANA Y, YUKITA W, KOIZUMI M, SOMEYA T. Sci. Adv., 2016, 2(4):e1501856.

  74. [74]

      SCHWARZE M, TRESS W, BEYER B, GAO F, SCHOLZ R, POELKING C, ORTSTEIN K, GUENTHER A A, KASEMANN D, ANDRIENKO D, LEO K. Science, 2016, 352(6292):1446-1449.

  75. [75]

      LEE H, KIM E, LEE Y, KIM H, LEE J, KIM M, YOO H J, YOO S. Sci. Adv., 2018, 4(11):eaas9530.

  76. [76]

      KHAN Y, HAN D, PIERRE A, TING J, WANG X, LOCHNER C M, BOVO G, YAACOBI-GROSS N, NEWSOME C, WILSON R, ARIAS A C. Proc. Natl. Acad. Sci. USA, 2018, 115(47):E11015-E11024.

  77. [77]

      PARK S, FUKUDA K, WANG M, LEE C, YOKOTA T, JIN H, JINNO H, KIMURA H, ZALAR P, MATSUHISA N, UMEZU S, BAZAN G C, SOMEYA T. Adv. Mater., 2018, 30(34):1802359.

  78. [78]

      CURTO V F, FAY C, COYLE S, BYRNE R, O'TOOLE C, BARRY C, HUGHES S, MOYNA N, DIAMOND D, BENITO-LOPEZ F. Sens. Actuators B, 2012, 171:1327-1334.

  79. [79]

      PERSANO L, DAGDEVIREN C, SU Y W, ZHANG Y H, GIRARDO S, PISIGNANO D, HUANG Y G, ROGERS J A. Nat. Commun., 2013, 4:1633.

  80. [80]

      GAO W, EMAMINEJAD S, NYEIN H Y Y, CHALLA S, CHEN K V, PECK A, FAHAD H M, OTA H, SHIRAKI H, KIRIYA D, LIEN D H, BROOKS G A, DAVIS R W, JAVEY A. Nature, 2016, 529(7587):509-514.

  81. [81]

      HEIKENFELD J. Electroanalysis, 2016, 28(6):1242-1249.

  82. [82]

      KOH A, KANG D, XUE Y, LEE S, PIELAK R M, KIM J, HWANG T, MIN S, BANKS A, BASTIEN P, MANCO M C, WANG L, AMMANN K R, JANG K I, WON P, HAN S, GHAFFARI R, PAIK U, SLEPIAN M J, BALOOCH G, HUANG Y, ROGERS J A. Sci. Translat. Med., 2016, 8(366):366ra165.

  83. [83]

      BANDODKAR A J, JEERAPAN I, WANG J. ACS Sens., 2016, 1(5):464-482.

  84. [84]

      ZHANG M, GUO S, WELLER D, HAO Y, WANG X S, DING C J, CHAI K, ZOU B S, LIU R B. J. Nanobiotechnol., 2019, 17:42.

  85. [85]

      MATZEU G, O'QUIGLEY C, MCNAMARA E, ZULIANI C, FAY C, GLENNON T, DIAMOND D. Anal. Methods, 2016, 8(1):64-71.

  86. [86]

      SONNER Z, WILDER E, HEIKENFELD J, KASTING G, BEYETTE F, SWAILE D, SHERMAN F, JOYCE J, HAGEN J, KELLEY-LOUGHNANE N, NAIK R. Biomicrofluidics, 2015, 9(3):031301.

  87. [87]

      HEIKENFELD J, JAJACK A, ROGERS J, GUTRUF P, TIAN L, PAN T, LI R, KHINE M, KIM J, WANG J, KIM J. Lab Chip, 2018, 18(2):217-248.

  88. [88]

      KIM J, SALVATORE G A, ARAKI H, CHIARELLI A M, XIE Z, BANKS A, SHENG X, LIU Y, LEE J W, JANG K I, HEO S Y, CHO K, LUO H, ZIMMERMAN B, KIM J, YAN L, FENG X, XU S, FABIANI M, GRATTON G, HUANG Y, PAIK U, ROGERS J A. Sci. Adv., 2016, 2(8):e1600418.

  89. [89]

      LOCHNER C M, KHAN Y, PIERRE A, ARIAS A C. Nat. Commun., 2014, 5:5745.

  90. [90]

      KIM T H, LEE C S, KIM S, HUR J, LEE S, SHIN K W, YOON Y Z, CHOI M K, YANG J, KIM D H, HYEON T, PARK S, HWANG S. ACS Nano, 2017, 11(6):5992-6003.

  91. [91]

      BANSAL A K, HOU S, KULYK O, BOWMAN E M, SAMUEL I D W. Adv. Mater., 2015, 27(46):7638-7644.

  92. [92]

      XU H, YIN L, LIU C, SHENG X, ZHAO N. Adv. Mater., 2018, 30(33):1800156.

  93. [93]

      ZANG Y, ZHANG F, DI C, ZHU D. Mater. Horizons, 2015, 2(2):140-156.

  94. [94]

      PAN J, LIU S Y, ZHANG H Z, LU J G. Sensors, 2019, 19(19):4105.

  95. [95]

      YANG H, QI D, LIU Z, CHANDRAN B K, WANG T, YU J, CHEN X. Adv. Mater., 2016, 28(41):9175.

  96. [96]

      GIULIANI A, PLACIDI M, DI FRANCESCO F, PUCCI A. React. Funct. Polym., 2014, 76:57-62.

  97. [97]

      YANG J, WEI D P, TANG L L, SONG X F, LUO W, CHU J, GAO T P, SHI H F, DU C L. RSC Adv., 2015, 5(32):25609-25615.

  98. [98]

      STASSI S, CAUDA V, CANAVESE G, PIRRI C F. Sensors, 2014, 14(3):5296-5332.

  99. [99]

      WANG L, LI Y. IEEE Transact. Instrument. Measurement, 2013, 62(2):495-502.

  100. [100]

       SEGEV-BAR M, KONVALINA G, HAICK H. Adv. Mater., 2015, 27(10):1779-1784.

  101. [101]

       SOURI H, BHATTACHARYYA D. ACS Appl. Mater. Interfaces, 2018, 10(24):20845-20853.

  102. [102]

       WANG Y, WANG L, YANG T, LI X, ZANG X, ZHU M, WANG K, WU D, ZHU H. Adv. Funct. Mater., 2014, 24(29):4666-4670.

  103. [103]

       LI Y D, NAYAK S, LUO Y X, LIU Y J, MOHAN H, PAN J M, LIU Z J, HENG C H, THEAN A V Y. Materials, 2019, 12(9):1458.

  104. [104]

       NIE B Q, LI R Y, BRANDT J D, PAN T R. Lab Chip, 2014, 14(6):1107-1116.

  105. [105]

       LI R Y, NIE B Q, ZHAI C W, CAO J, PAN J, CHI Y W, PAN T R. Ann. Biomed. Eng., 2016, 44(7):2282-2291.

  106. [106]

       WANG C, XIA K, WANG H, LIANG X, YIN Z, ZHANG Y. Adv. Mater., 2019, 31(9):1801072.

  107. [107]

       KAYA T, LIU G, HO J, YELAMARTHI K, MILLER K, EDWARDS J, STANNARD A. Electroanalysis, 2019, 31(3):411-421.

  108. [108]

       LIU Q Z, LIU Y H, WU F Q, CAO X, LI Z, ALHARBI M, ABBAS A N, AMER M R, ZHOU C W. ACS Nano, 2018, 12(2):1170-1178.

  109. [109]

       MARTÍN A, KIM J, KURNIAWAN J F, SEMPIONATTO J R, MORETO J R, TANG G D, CAMPBELL A S, SHIN A, LEE M Y, LIU X F, WANG J. ACS Sens., 2017, 2(12):1860-1868.

  110. [110]

       LEE H, SONG C, HONG Y S, KIM M S, CHO H R, KANG T, SHIN K, CHOI S H, HYEON T, KIM D H. Sci. Adv., 2017, 3(3):e1601314.

  111. [111]

       NYEIN H Y Y, BARIYA M, KIVIMAKI L, UUSITALO S, LIAW T S, JANSSON E, AHN C H, HANGASKY J A, ZHAO J Q, LIN Y J, HAPPONEN T, CHAO M H, LIEDERT C, ZHAO Y B, TAI L C, HILTUNEN J, JAVEY A. Sci. Adv., 2019, 5(8):eaaw9906.

  112. [112]

       SARAVANAKUMAR B, SOYOON S, KIM S J. ACS Appl. Mater. Interfaces, 2014, 6(16):13716-13723.

  113. [113]

       HUANG X, LIU Y, CHEN K, SHIN W J, LU C J, KONG G W, PATNAIK D, LEE S H, CORTES J F, ROGERS J A. Small, 2014, 10(15):3083-3090.

  114. [114]

       GARCIA-CORDERO E, BELLANDO F, ZHANG J R, WILDHABER F, LONGO J, GUERIN H, IONESCU A M. ACS Nano, 2018, 12(12):12646-12656.

  115. [115]

       ROSE D P, RATTERMAN M E, GRIFFIN D K, HOU L, KELLEY-LOUGHNANE N, NAIK R R, HAGEN J A, PAPAUTSKY I, HEIKENFELD J C. IEEE Trans. Biomed. Eng., 2015, 62(6):1457-1465.

  116. [116]

       CAZALÉ A, SANT W, GINOT F, LAUNAY J C, SAVOUREY G, REVOL-CAVALIER F, LAGARDE J M, HEINRY D, LAUNAY J, TEMPLE-BOYER P. Sens. Actuators B, 2016, 225:1-9.

  117. [117]

       MATZEU G, FAY C, VALⅡANT A, COYLE S, DIAMOND D. IEEE Trans. Biomed. Eng., 2016, 63(8):1672-1680.

  118. [118]

       BRUECK A, IFTEKHAR T, STANNARD A B, YELAMARTHI K, KAYA T. Sensors, 2018, 18(2):533.

  119. [119]

       ZHENG G Z, LI K, BU W T, WANG Y J. Build. Environ., 2019, 150:108-118.

  120. [120]

       DEY N, ASHOUR A S, SHI F Q, FONG S J, SHERRATT R S. IEEE Trans. Consum. Electron., 2017, 63(4):442-449.

  121. [121]

       BOLAND C S, KHAN U, BACKES C, O'NEILL A, MCCAULEY J, DUANE S, SHANKER R, LIU Y, JUREWICZ I, DALTON A B, COLEMAN J N. ACS Nano, 2014, 8(9):8819-8830.

  122. [122]

       ATALAY O, KENNON W R, DEMIROK E. IEEE Sens. J., 2015, 15(1):110-122.

  123. [123]

       SHAFFER F, MCCRATY R, ZERR C L. Front. Psychol., 2014, 5:1040-1040.

  124. [124]

       PITTIG A, ARCH J J, LAM C W R, CRASKE M G. Int. J. Psychophysiol., 2013, 87(1):19-27.

  125. [125]

       SCHWARTZ G, TEE B C K, MEI J G, APPLETON A L, KIM D H, WANG H L, BAO Z N. Nat. Commun., 2013, 4:1859.

  126. [126]

       DIAS D, SILVA CUNHA J P. Sensors, 2018, 18(8):2414.

  127. [127]

       HAAHR R G, DUUN S B, TOFT M H, BELHAGE B, LARSEN J, BIRKELUND K, THOMSEN E V. IEEE Trans. Biomed. Circuits Syst., 2012, 6(1):45-53.

  128. [128]

       CHACON P J, PU L M, DA COSTA T H, SHIN Y H, GHOMIAN T, SHAMKHALICHENAR H, WU H C, IRVING B A, CHOI J W. IEEE Trans. Biomed. Eng., 2019, 66(6):1505-1513.

•