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鏁欏笀鑳屾櫙

鐮旂┒棰嗗煙

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鐮旂┒椤圭洰

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涓昏濂栧姳涓庣о鍙?/span>

        1銆?024骞翠腑鍗楁皯鏃忓ぇ瀛︾數瀛愪俊鎭伐绋嬪闄㈤潚骞存暀甯堣璇炬瘮璧涗竴绛夊锛?/span>

        2銆?018-2019骞村害姝︽眽杞诲伐澶у鈥滀笁鑲蹭汉鈥濆厛杩涗釜浜猴紱

        3銆?018骞存姹夎交宸ュぇ瀛﹁绋嬫暀瀛﹁川閲忎竴绛夊锛?/span>

        4銆?017骞存姹夎交宸ュぇ瀛﹂潚骞存暀甯堟暀瀛︾珵璧涗簩绛夊锛?/span>

        5銆?013骞存姹夎交宸ュぇ瀛︽湰绉戞瘯涓氳璁★紙璁烘枃锛変紭绉€鎸囧鏁欏笀浜岀瓑濂栵紱

    鍒涙柊鍒涗笟

        1銆?021骞村叏鍥藉ぇ瀛︾敓鐢靛瓙绔炶禌婀栧寳鐪佷簩绛夊锛屾寚瀵兼暀甯堬紱

        2銆?020骞粹€?/span>iuv鏉€濆叏鍥藉ぇ瀛︾敓閫氫俊绔炶禌浜岀瓑濂栵紝鎸囧鏁欏笀锛?/span>

        3銆?018骞存箹鍖楃渷澶у鐢熺墿鐞嗗疄楠岀珵璧涗竴绛夊锛屾寚瀵兼暀甯堬紱

        4銆?014骞存箹鍖楃渷澶у鐢熺數瀛愮珵璧涗笁绛夊锛屾寚瀵兼暀甯堬紱

        5銆?012銆?/span>2013骞存箹鍖楃渷浼樼瀛﹀＋瀛︿綅璁烘枃锛屾寚瀵兼暀甯堬紱

        6銆?012骞存箹鍖楃渷澶у鐢熺墿鐞嗗疄楠岀珵璧涗笁绛夊锛屾寚瀵兼暀甯堬紱

        7銆?012骞存箹鍖楃渷澶у鐢熺數瀛愮珵璧涗笁绛夊锛屾寚瀵兼暀甯堬紱

        8銆?011骞村叏鍥藉ぇ瀛︾敓鐢靛瓙绔炶禌婀栧寳鐪佷竴绛夊锛屾寚瀵兼暀甯堬紱

    涓昏璁鸿憲

1. xu j., liu x., yu z.k. et al., unique architecture of pigf@microchannel converter enabling high luminescence saturation for high-brightness laser lighting, ceramics international, 2024, 50(18): 33464-33471 (jcr q1,涓闄?/span>1鍖?/span>, if: 4.7)

2. 鑱傝鏂?/span>, 鏉ㄤ匠鏅?/span>, 鏂囨収蹇?/span>, 楂樿矾, 寰愬缓. 鍩轰簬鏈哄櫒瑙嗚鐨勮交閲忓寲鑺掓灉鏋滈潰缂洪櫡妫€娴?/span>. 椋熷搧涓庢満姊?/span>, 2023, 39(03): 91-95 240. (鍖楀ぇ涓枃鏍稿績)

3. 鍐崕娲?/span>, 寰愬缓*, 楂樿矾, 闄堟槑绁?/span>. 鍩轰簬tec鐨勪綆鎴愭湰鍖荤敤鎭掓俯鍣ㄧ殑璁捐涓庡疄鐜?/span>. 浣庢俯涓庤秴瀵?/span>, 2022, 50(10): 33-39. (鍖楀ぇ涓枃鏍稿績)

4. xu j.*, ding l., gao l. and chen m.x. a practical thermoelectric leg for tecs with optimal current improvement, materials letters, 2021, 305: 130785. (jcr q2, 涓闄?/span>3鍖?/span>, if: 3.423)

5. 鍚村, 寰愬缓*, 闊╂€濆瓟, 闄堟槑绁?/span>. 鐑數鍒跺喎鍣ㄨ繃鍐锋晥搴斾腑娓╁害杩囧啿鐨勬姂鍒朵笌浼樺寲. 浣庢俯涓庤秴瀵?/span>. 2021, 49(11): 73-78. (鍖楀ぇ涓枃鏍稿績)

6. 涓侀湶, 寰愬缓*, 闄堟槑绁?/span>. 鐑數鍒跺喎鍣ㄧ殑杩囧喎鐗规€у強鍏舵€ц兘鐨勪紭鍖栫患杩?/span>. 浣庢俯涓庤秴瀵?/span>. 2021, 49(4): 42-50. (鍖楀ぇ涓枃鏍稿績)

7. peng y., zhang x.w., liu j.l., li s., mou y., xu j.* and chen m.x. waste heat recycling of high-power lighting through chips on thermoelectric generator, energy conversion and management, 2021, 243: 114329. (jcr q1, 涓闄?/span>1鍖?/span>top, if: 9.709)

8. li s., liu j.l., ding l., liu j.x., xu j., peng y. and chen m.x. active thermal management of high-power led through chip on thermoelectric cooler, ieee transaction on electronics devices, 2021, 68(4): 1753-1756. (jcr q2, 涓闄?/span>3鍖?/span>, if: 2.913锛屽皝闈㈡枃绔狅紝銆?/span>semiconductor today銆嬬壒鍒姤閬?/span>)

9. jeong j-h, xu j., jo h., et al. development of wireless sensor node hardware for large-area capacitive strain monitoring, smart materials and structures, smart materials and structures, 2018, 28(015002): 1-12. (jcr q1, 涓闄?/span>2鍖?/span>, if: 3.543)

10. xu j., jo h., development of high-sensitivity and low-cost electroluminescent strain sensor for structural health monitoring, ieee sensors journal, 2016, 16(7): 1962-1968. (jcr q2, 涓闄?/span>3鍖?/span>, if: 3.076)

    鑱旂郴鏂瑰紡

    閭锛?/span>jianxu@scuec.edu.cn

    鍦板潃锛氫腑鍗楁皯鏃忓ぇ瀛︾數瀛愪俊鎭伐绋嬪闄?/span>