The mechanical activation of tetrahedrite Cu_(12)Sb_(4)S_(13) was carried out in a planetary mill. The changes in the surface and bulk properties produced in mineral by mechanical activation were detected by infrared,...The mechanical activation of tetrahedrite Cu_(12)Sb_(4)S_(13) was carried out in a planetary mill. The changes in the surface and bulk properties produced in mineral by mechanical activation were detected by infrared, photoelectron and Mossbauer spectroscopy. The rate and selectivity of tetrahedrite acid leaching depends on conditions of mechanical activation.展开更多
Tetrahedrite,an Earth-abundant natural mineral,has attracted extensive research interest because of its excellent thermoelectric performance.Herein,tetrahedrite samples comprising Cu-poor Cu_(12)Sb_(4)S_(13)and Cu-ric...Tetrahedrite,an Earth-abundant natural mineral,has attracted extensive research interest because of its excellent thermoelectric performance.Herein,tetrahedrite samples comprising Cu-poor Cu_(12)Sb_(4)S_(13)and Cu-rich Cu_(14)Sb_(4)S_(13)phases have been synthesized using a colloidal method,in which the ratio of two phases is manipulated by controlling the synthesis temperature to improve the thermoelectric perfor-mance.It is found that an ultralow total thermal conductivity of∼0.3 W m^(−1)K^(−1)at 723 K is realized in the sample with a Cu-rich phase fraction of∼50%,which can be attributed to maximized phonon scattering by phase boundaries.As a result,combined with a decent power factor,this sample obtains an optimal zT of 1.15,which is about 85%higher than that of the sample with a Cu-rich phase fraction of∼64%and comparable to zT values of other eco-friendly,abundant Cu-based thermoelectric materials.This work demonstrates an effective synthesis-temperature-dependent phase composition manipulation strategy toward enhanced thermoelectric performance in tetrahedrites.展开更多
黝铜矿-砷黝铜矿系列矿物(Tetrahedrite-Tennantite Series Mineral,TTSM)作为含Cu、Ag、S、Sb、As、Hg及少量Au、Fe、Zn、Cd、Bi、Te、Se的硫盐矿物广泛存在于世界各地的Cu、Ag、Au、Pb、Zn多金属矿床中。为了能够更好的认识该系列矿物...黝铜矿-砷黝铜矿系列矿物(Tetrahedrite-Tennantite Series Mineral,TTSM)作为含Cu、Ag、S、Sb、As、Hg及少量Au、Fe、Zn、Cd、Bi、Te、Se的硫盐矿物广泛存在于世界各地的Cu、Ag、Au、Pb、Zn多金属矿床中。为了能够更好的认识该系列矿物,提高矿物中有用元素的回收率,扩大黝铜矿型铜矿床的经济效益,本文对TTSM的化学组成和类质同象置换规律,晶胞参数和晶体结构的形变,矿物人工合成和有用元素的浸出试验等研究进展进行了综述。天然TTSM矿物一般化学式为:(Cu,Ag6)Cu4(Fe,Zn,Cu,Hg,Ag,Cd)2(Sb,As,Bi,Te)4(S,Se)13,其中S-Se、Sb-As-Bi-Te、Ag-Cu、Cu-Hg-Fe-Pb-Zn-Cd的类质同象置换相当普遍;TTSM晶体结构中不同结构位置离子置换规律更多的受限于离子价键,而同一结构位置不同离子的置换除受限于离子价键还受限于该位置空间大小,晶胞参数与离子置换类型和数量密切相关;人工合成实验证实形成TTSM矿物的温度范围为350~540℃,浸出试验证明随反应温度增高、浸出浓度增大、矿物颗粒减小时,TTSM中有用元素的浸出速率增大。展开更多
文摘The mechanical activation of tetrahedrite Cu_(12)Sb_(4)S_(13) was carried out in a planetary mill. The changes in the surface and bulk properties produced in mineral by mechanical activation were detected by infrared, photoelectron and Mossbauer spectroscopy. The rate and selectivity of tetrahedrite acid leaching depends on conditions of mechanical activation.
基金supported by the National Natu-ral Science Foundation of China(Grant Nos.52125103,52071041,52271202,and 12274044).
文摘Tetrahedrite,an Earth-abundant natural mineral,has attracted extensive research interest because of its excellent thermoelectric performance.Herein,tetrahedrite samples comprising Cu-poor Cu_(12)Sb_(4)S_(13)and Cu-rich Cu_(14)Sb_(4)S_(13)phases have been synthesized using a colloidal method,in which the ratio of two phases is manipulated by controlling the synthesis temperature to improve the thermoelectric perfor-mance.It is found that an ultralow total thermal conductivity of∼0.3 W m^(−1)K^(−1)at 723 K is realized in the sample with a Cu-rich phase fraction of∼50%,which can be attributed to maximized phonon scattering by phase boundaries.As a result,combined with a decent power factor,this sample obtains an optimal zT of 1.15,which is about 85%higher than that of the sample with a Cu-rich phase fraction of∼64%and comparable to zT values of other eco-friendly,abundant Cu-based thermoelectric materials.This work demonstrates an effective synthesis-temperature-dependent phase composition manipulation strategy toward enhanced thermoelectric performance in tetrahedrites.
文摘黝铜矿-砷黝铜矿系列矿物(Tetrahedrite-Tennantite Series Mineral,TTSM)作为含Cu、Ag、S、Sb、As、Hg及少量Au、Fe、Zn、Cd、Bi、Te、Se的硫盐矿物广泛存在于世界各地的Cu、Ag、Au、Pb、Zn多金属矿床中。为了能够更好的认识该系列矿物,提高矿物中有用元素的回收率,扩大黝铜矿型铜矿床的经济效益,本文对TTSM的化学组成和类质同象置换规律,晶胞参数和晶体结构的形变,矿物人工合成和有用元素的浸出试验等研究进展进行了综述。天然TTSM矿物一般化学式为:(Cu,Ag6)Cu4(Fe,Zn,Cu,Hg,Ag,Cd)2(Sb,As,Bi,Te)4(S,Se)13,其中S-Se、Sb-As-Bi-Te、Ag-Cu、Cu-Hg-Fe-Pb-Zn-Cd的类质同象置换相当普遍;TTSM晶体结构中不同结构位置离子置换规律更多的受限于离子价键,而同一结构位置不同离子的置换除受限于离子价键还受限于该位置空间大小,晶胞参数与离子置换类型和数量密切相关;人工合成实验证实形成TTSM矿物的温度范围为350~540℃,浸出试验证明随反应温度增高、浸出浓度增大、矿物颗粒减小时,TTSM中有用元素的浸出速率增大。