A　liquid　crystal　lens　with　low　driving　and　controllabe　focal　length　were　presented,　which　was　driven　by　hollow-out　driven-electrodes　with　high-resistance　(H-r)　layer　to　control　the　deflection　of　liquid　crystal　molecules　according　to　the　electric-filed　distribution　on　the　edge　of　driven-electrode　of　convention　liquid　crystal　lens.　Al-doped　ZnO　(AZO)　transparent　film,　as　the　H-r　layer　of　liquid　crystal　lens,　was　deposited　on　the　surface　of　the　layered　aluminum　(Al)　electrode　with　hollow-hole　arrays　by　magnetron　sputtering　and　formed　the　top　substrate　with　H-r　layer　driven-electrodes.　The　H-r　liquid　crystal　lens　was　fabricated　after　the　liquid　crystal　was　sandwitched　between　the　substrate　with　H-r　driven-electrodes　and　a　substrate　with　indium-tin-oxide　common　electrode.　The　effect　of　AZO　H-r　layer,　driving　voltage　and　working　frequency　on　the　optical　properties　of　liquid　crystal　lens　was　studied.　The　experimental　results　show　that　the　intereference　patterns　are　uniformer　and　the　focal　radius　are　smaller　when　the　driving　voltage　of　2.2　Vrms　and　working　frequency　of　130　kHz　are　applied　to　the　fabricated　H-r　layer　liquid　crystal　lens.　In　addition,　the　focal　length　of　H-r　liquid　crystal　lens　can　be　adjusted　from　4.27　mm　to　2.88　mm　with　the　driving　voltages　range　from　1.8　to　2.8　Vrms　and　working　frequencies　of　130　kHz.　©　2019,　Science　Press.　All　right　reserved.